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IB08 06_0625_01/3RP © UCLES 2008 [Turn over
*1101906355*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/01
Paper 1 Multiple Choice May/June 2008
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
www.xtremepapers.net
A-PDF Merger DEMO : Purchase from www.A-PDF.com to remove the watermark
2
© UCLES 2008 0625/01/M/J/08
1 Some liquid is heated in a flask.
The diagrams show the height of the liquid in the tube when the liquid is cold and when it is hot.
cm
1
2
3
4
5
cm
1
2
3
4
5
cold hot
liquid
flask
tube
scale
What is the difference in the heights?
A 1.7 cm B 2.8 cm C 3.2 cm D 4.5 cm 2 The speed-time graph shown is for a bus travelling between stops.
Where on the graph is the acceleration of the bus the greatest?
speed
time
A
B
C
D
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© UCLES 2008 0625/01/M/J/08 [Turn over
3 The circuit of a motor racing track is 3 km in length. In a race, a car goes 25 times round the circuit in 30 minutes.
What is the average speed of the car?
A 75 km / hour
B 90 km / hour
C 150 km / hour
D 750 km / hour 4 The force of gravity acting on an astronaut in an orbiting spacecraft is less than when she is on
the Earth’s surface.
Compared with being on the Earth’s surface, how do her mass and weight change when she goes into orbit?
mass in orbit weight in orbit
A decreases decreases
B decreases unchanged
C unchanged decreases
D unchanged unchanged
5 When two blocks X and Y are placed on a uniform beam, the beam balances on a pivot at its
centre as shown.
XY
pivot
What does this show about X and Y?
A They have the same mass and the same density.
B They have the same mass and the same weight.
C They have the same volume and the same density.
D They have the same volume and the same weight.
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© UCLES 2008 0625/01/M/J/08
6 The diagram shows a rectangular metal block measuring 10 cm × 5.0 cm × 2.0 cm.
5.0 cm10 cm
2.0 cm
Its mass is 250 g.
What is the density of the metal?
A 0.20 g / cm3 B 0.40 g / cm3 C 2.5 g / cm3 D 5.0 g / cm3 7 The diagram shows an experiment to find the density of a liquid.
10
20
30
40
50
10
20
30
40
50cm3 cm3
200 g 250 g
measuringcylinder
balance
liquid
What is the density of the liquid?
A 0.5 g / cm3 B 2.0 g / cm3 C 8.0 g / cm3 D 10.0 g / cm3 8 What are the conditions for equilibrium?
resultant force
acting resultant turning
effect acting
A yes yes
B yes no
C no yes
D no no
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© UCLES 2008 0625/01/M/J/08 [Turn over
9 The diagram shows four objects standing on a flat surface.
The centre of mass of each object is marked M.
Which object will fall over?
M M M M
A B C D
10 A stone is thrown from the edge of a cliff. Its path is shown in the diagram.
1
2
3ground
In which position does the stone have its greatest kinetic energy and in which position does it have its least gravitational energy?
greatest kinetic
energy least gravitational
energy
A 1 2
B 2 3
C 3 1
D 3 3
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© UCLES 2008 0625/01/M/J/08
11 A worker is lifting boxes of identical weight from the ground onto a moving belt.
At first, it takes him 2 s to lift each box. Later in the day, it takes him 3 s.
Which statement is correct?
A Later in the day, less work is done in lifting each box.
B Later in the day, more work is done in lifting each box.
C Later in the day, less power is developed in lifting each box.
D Later in the day, more power is developed in lifting each box. 12 A manometer is used to indicate the pressure in a steel vessel, as shown in the diagram.
steel vessel
liquidmanometer
What value does the liquid manometer give for the pressure in the vessel?
A It is zero.
B It is between zero and atmospheric pressure.
C It is equal to atmospheric pressure.
D It is greater than atmospheric pressure. 13 Four glass tanks contain water.
In which tank is the pressure of the water on the base greatest?
2 m
4 m
3 m2 m
3 m4 m
2 m
2 m 6 m
6 m1 m 4 m
A B C D
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© UCLES 2008 0625/01/M/J/08 [Turn over
14 Which line in the table describes the properties of solids and of liquids at a fixed temperature?
solids liquids
A definite volume and definite shape no definite volume but definite shape
B no definite volume but definite shape definite volume and definite shape
C definite volume and definite shape definite volume but no definite shape
D no definite volume but definite shape no definite volume and no definite shape
15 Air is pumped slowly into a car tyre to increase the pressure. The temperature of the air does not
change.
Which line in the table is correct?
number of molecules
hitting 1 cm2 of the tyre each second
average speed at which molecules hit the tyre
A increases increases
B increases unchanged
C unchanged increases
D unchanged unchanged
16 The thermometer in the diagram has no scale.
bulb
Where must the bulb be placed so that 0 °C can be marked on the stem?
A in boiling water
B in cold water
C in a freezer
D in melting ice
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© UCLES 2008 0625/01/M/J/08
17 A sample of a solid is heated for 12 minutes and its temperature noted every minute.
The results are shown in the table.
time / min 0 1 2 3 4 5 6 7 8 9 10 11 12
temperature / °C 11.5 16.1 22.1 31.0 31.1 31.1 31.1 31.3 45.0 65.2 66.2 66.3 66.3
How should the sample be described at the end of the 12 minutes?
A all solid
B in the process of melting
C all liquid
D in the process of boiling 18 A heater is placed in a room.
Which diagram shows the movement of air as the room is heated?
A B
C D
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© UCLES 2008 0625/01/M/J/08 [Turn over
19 The diagrams show four identical pieces of ice that are heated in test-tubes of water.
In which test-tube will the ice take the longest time to melt?
A B
C
water
ice
water
ice wrappedin lead wire
water
ice wrappedin lead wire
water
ice
D
20 The diagram represents water waves about to move into shallow water from deep water.
deep water
shallow water
wavefront
Which property of the waves remains the same after the waves move into shallow water?
A frequency
B speed
C wavefront direction
D wavelength
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© UCLES 2008 0625/01/M/J/08
21 Two sets of water waves overlap as shown in the diagram.
P
Q
RS
T
U
From which two points are the sets of waves coming?
A P and S B T and R C Q and T D U and Q 22 Which diagram shows total internal reflection of light?
A B C Dmirror glass prism
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© UCLES 2008 0625/01/M/J/08 [Turn over
23 Light from the Sun passes through a prism and a spectrum is produced on a screen.
light fromthe Sun
screen
violet
redP
narrow slit
A thermometer placed at P shows a large temperature rise.
Which type of radiation causes this?
A infra-red
B microwave
C ultra-violet
D visible light 24 Two thin converging lenses X and Y are used as shown to give a focused image of an illuminated
slit. The rays shown are parallel between X and Y.
30 cm 20 cm 15 cm
sourceof light
slit image screenX Y
What are the correct values for the focal lengths of X and of Y?
focal length
of X / cm focal length
of Y / cm
A 50 35
B 30 20
C 30 15
D 20 20
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© UCLES 2008 0625/01/M/J/08
25 Which equation can be used to calculate the speed of sound?
A speed =time
distance
B speed = distance × time
C speed =distance
time
D speed = time + distance 26 A battery-operated bell is surrounded by a box with double walls.
airbox walls
gap
bell
The bell is ringing but no sound at all is heard outside the box.
What is in the gap?
A a solid
B a liquid
C a gas
D a vacuum 27 Which line in the table shows whether iron and steel are ferrous or non-ferrous materials?
iron steel
A ferrous ferrous
B ferrous non-ferrous
C non-ferrous ferrous
D non-ferrous non-ferrous
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© UCLES 2008 0625/01/M/J/08 [Turn over
28 A solenoid carrying a current is used to demagnetise a bar magnet.
powersupply
solenoidbar magnet
Which conditions achieve demagnetisation?
current through
solenoid movement of bar magnet
A a.c. around the solenoid quickly
B a.c. through the solenoid slowly
C d.c. around the solenoid quickly
D d.c. through the solenoid slowly
29 A polythene rod repels an inflated balloon hanging from a nylon thread.
What charges must the rod and the balloon carry?
A The rod and the balloon carry opposite charges.
B The rod and the balloon carry like charges.
C The rod is charged but the balloon is not.
D The balloon is charged but the rod is not. 30 Which circuit symbol represents a component used to store energy?
A B C D
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© UCLES 2008 0625/01/M/J/08
31 In the circuit shown, the switches S1 and S2 may be open (off) or closed (on).
V
12 V+
–S1
S2
switches shownopen (off)
Which line in the table shows the voltmeter reading for the switch positions given?
S1 S2 voltmeter reading / V
A open open 12
B closed closed 12
C open closed 0
D closed open 12
32 The device X in this circuit is designed to cut off the electricity supply automatically if too much
current flows.
X
What is device X?
A a fuse
B a switch
C a resistor
D an ammeter
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© UCLES 2008 0625/01/M/J/08 [Turn over
33 The diagrams show two ways in which three lamps may be connected.
circuit 1 circuit 2
X
Y
ZX Y Z
Which statement is correct?
A If lamp Y breaks in circuit 1, both the other lamps will go out.
B If lamp Y breaks in circuit 2, both the other lamps will go out.
C If lamp Y breaks in circuit 1, lamp Z will go out, but lamp X will remain on.
D If lamp Y breaks in circuit 2, lamp Z will go out, but lamp X will remain on. 34 The wire XY shown in the diagram is connected to a sensitive voltmeter with a centre zero. XY is
then moved quickly once through the magnetic field.
N
SV
X
Y
movement
What is observed on the voltmeter?
A The needle moves briefly in one direction and then returns to the centre.
B The needle moves quickly in one direction and stays deflected.
C The needle vibrates rapidly from side to side whilst XY is moving.
D The needle stays still.
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© UCLES 2008 0625/01/M/J/08
35 The diagram shows a transformer connected to a 240 V a.c. supply.
primary coil60 turns secondary coil
30 turns
240 Va.c.
soft-iron core
What is the potential difference across the secondary coil of the transformer?
A 30 V B 120 V C 240 V D 480 V 36 In order to produce a beam of cathode rays, a heated filament is placed near to an anode in an
evacuated glass vessel.
evacuated glass vessel
anode
heated filament
What is the type of charge on the anode and why is this charge chosen?
charge reason
A negative to attract electrons
B negative to repel electrons
C positive to attract electrons
D positive to repel electrons
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© UCLES 2008 0625/01/M/J/08 [Turn over
37 Diagram 1 shows a potential divider circuit containing two 100 Ω resistors.
One of the resistors is changed to 90 Ω, as shown in diagram 2.
100 Ω
100 Ω V
diagram 1
90 Ω
100 Ω V
diagram 2
How does the reading on the voltmeter change when this is done?
A It becomes zero.
B It decreases a little.
C It increases a little.
D It stays the same.
38 What is a β-particle and from which part of a radioactive atom is it emitted?
β-particle emitted from
A electron nucleus
B electron outer orbits
C helium nucleus nucleus
D helium nucleus outer orbits
39 A sample of radioactive uranium has mass 1 g. Another sample of the same material has
mass 2 g.
Which property is the same for both samples?
A the amount of radiation emitted per second
B the half-life
C the number of uranium atoms
D the volume
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© UCLES 2008 0625/01/M/J/08
40 A particular nuclide has the symbol 3717Cl .
What is true for atoms of this nuclide?
A There are 17 nucleons in the nucleus.
B There are 17 protons in the nucleus.
C There are 37 electrons in the nucleus.
D There are 37 neutrons in the nucleus.
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Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
0625/01/M/J/08
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Location Entry Codes As part of CIE’s continual commitment to maintaining best practice in assessment, CIE uses different variants of some question papers for our most popular assessments with large and widespread candidature. The question papers are closely related and the relationships between them have been thoroughly established using our assessment expertise. All versions of the paper give assessment of equal standard. The content assessed by the examination papers and the type of questions is unchanged. This change means that for this component there are now two variant Question Papers, Mark Schemes and Principal Examiner’s Reports where previously there was only one. For any individual country, it is intended that only one variant is used. This document contains both variants which will give all Centres access to even more past examination material than is usually the case. The diagram shows the relationship between the Question Papers, Mark Schemes and Principal Examiners’ Reports that are available. Question Paper
Mark Scheme Principal Examiner’s Report
Introduction
Introduction Introduction
First variant Question Paper
First variant Mark Scheme First variant Principal Examiner’s Report
Second variant Question Paper
Second variant Mark Scheme
Second variant Principal Examiner’s Report
Who can I contact for further information on these changes? Please direct any questions about this to CIE’s Customer Services team at: [email protected] The titles for the variant items should correspond with the table above, so that at the top of the first page of the relevant part of the document and on the header, it has the words:
• First variant Question Paper / Mark Scheme / Principal Examiner’s Report
or
• Second variant Question Paper / Mark Scheme / Principal Examiner’s Report
as appropriate.
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This document consists of 19 printed pages and 1 blank page.
IB09 06_0625_01/3RP © UCLES 2009 [Turn over
*7150187285*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice May/June 2009
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
www.xtremepapers.net
2
© UCLES 2009 0625/11/M/J/09
1 A metre rule is used to measure a length.
Which reading is shown to the nearest millimetre?
A 0.7 m B 0.76 m C 0.761 m D 0.7614 m 2 The graph represents the movement of a body.
10 2 3 4 5
10
8
6
4
2
0
time / s
speed m / s
How far has the body moved after 5 s?
A 2 m B 10 m C 25 m D 50 m 3 A car travels 100 km. The highest speed of the car is 90 km/h, and the lowest speed is
30 km/h. The journey takes two hours.
What is the average speed for the journey?
A 30 km / h B 50 km / h C 60 km / h D 90 km / h 4 Which statement about the masses and weights of objects on the Earth is correct?
A A balance can only be used to compare weights, not masses.
B Heavy objects always have more mass than light ones.
C Large objects always have more mass than small ones.
D Mass is a force but weight is not.
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© UCLES 2009 0625/11/M/J/09 [Turn over
5 The table shows the weight in newtons of a10 kg mass on each of four planets.
planet weight of a 10 kg mass / N
Earth 100
Jupiter 250
Mercury 40
Venus 90
The diagram shows a force meter (spring balance) being used.
18 N
2.0 kg
On which planet is the force meter (spring balance) being used?
A Earth
B Jupiter
C Mercury
D Venus 6 Which items of apparatus are required to determine the density of a liquid?
A balance and measuring cylinder
B balance and thermometer
C metre rule and measuring cylinder
D metre rule and thermometer
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© UCLES 2009 0625/11/M/J/09
7 Which property of an object cannot be changed by a force?
A its mass
B its motion
C its shape
D its size 8 A wooden plank rests in equilibrium on two boulders on opposite sides of a narrow stream. Three
forces of size P, Q and R act on the plank.
Q
P R
plank
How are the sizes of the forces related?
A P + Q = R
B P + R = Q
C P = Q = R
D P = Q + R 9 Electricity can be obtained from different energy resources.
Which energy resource is used to obtain electricity without producing heat to boil water?
A coal
B geothermal
C hydroelectric
D nuclear
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© UCLES 2009 0625/11/M/J/09 [Turn over
10 Four people of equal weight on a beach use different routes to get to the top of a sea wall.
beach
slipway
pavement
sea wall
Which person produces the greatest average power?
person route time taken
A runs across the beach, then climbs the ladder 8 s
B walks across the beach, then climbs the ladder 16 s
C runs up the slipway 5 s
D walks up the slipway 10 s
11 The diagrams show two mercury barometers standing side by side. The right-hand diagram
shows a tube of bigger diameter, but the diagram is incomplete. There is a vacuum above the mercury in both tubes.
Which labelled position on the right-hand tube could show the mercury level in that tube?
mercury
glasstubes
dish dish
vacuum A B
C
D
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© UCLES 2009 0625/11/M/J/09
12 A student fills two containers with water (density 1.0 g / cm3) and two with oil (density 0.8 g / cm3), as shown in the diagrams.
In which container is the pressure on the base the greatest?
water
water
oil
oil
A B C D
13 In an experiment, some of a substance changes from a liquid to a gas. The temperature of the
remaining liquid changes because of this.
What is the name for this change of state and how does the temperature change?
change of state how temperature changes
A condensation decreases
B condensation increases
C evaporation decreases
D evaporation increases
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© UCLES 2009 0625/11/M/J/09 [Turn over
14 A piston traps a certain mass of gas inside a cylinder. Initially the piston is halfway along the length of the cylinder.
The piston is now moved towards the open end of the cylinder. The temperature of the gas remains constant.
initial position
final position
How are the density and the pressure of the gas affected by moving the piston?
density pressure
A decreases decreases
B decreases unchanged
C increases decreases
D increases unchanged
15 The graph shows the change in temperature of a substance as it is heated steadily.
Which part of the graph shows when the substance is boiling?
temperature
time
A
B
C
D
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© UCLES 2009 0625/11/M/J/09
16 Four blocks, made of different materials, are each given the same quantity of internal energy (heat).
Which block has the greatest thermal capacity?
A
temperaturerise = 2 oC
B
temperaturerise = 4 oC
C
temperaturerise = 6 oC
D
temperaturerise = 8 oC
17 A rod is made up of copper and wood joined together.
After the rod is heated at the join in the centre for about a minute, where would the lowest temperature be?
wood copper
A D
B C
18 The diagram shows a fire.
Why does the smoke rise above the fire?
A Smoke evaporates more quickly at higher temperatures.
B Smoke molecules diffuse more quickly at higher temperatures.
C The density of the air is lower at higher temperatures.
D The pressure of the air is greater at higher temperatures.
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© UCLES 2009 0625/11/M/J/09 [Turn over
19 The diagrams show water waves that move more slowly after passing into shallow water at the broken line.
Which diagram shows what happens to the waves?
A
fast slow
deep water
shallow water
B fast slow
deep water
shallowwater
C fast slow
deep water
shallow water
D fast slow
deep water
shallowwater
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© UCLES 2009 0625/11/M/J/09
20 The diagrams show examples of wave motion.
1 2
waves on water waves in air
waves on a rope waves in a spring (as shown)
3 4
ripple tank
drum
Which are longitudinal waves?
A 1 only
B 1, 2 and 4
C 2 and 3 only
D 2 and 4 only
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© UCLES 2009 0625/11/M/J/09 [Turn over
21 Which diagram shows what happens when a ray of white light passes through a prism?
A
spectrum
B
spectrum
Cspectrum
D
spectrum
whitelight
whitelight
whitelight
whitelight
22 The diagram shows the path of a ray of light passing through a principal focus F of a lens.
Which broken line shows the direction of the ray after it leaves the lens?
F F’
lens
A
B
C D
ray of light
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© UCLES 2009 0625/11/M/J/09
23 A small boat in a harbour is protected from waves on the sea by harbour walls.
seasealand sea
smallboat
harbour
harbourwalls
waves
Some waves can curve round the harbour walls and reach the boat.
What is the name for this effect?
A diffraction
B dispersion
C reflection
D refraction 24 An engineer standing at P sees an explosion at X.
Z
YX
WV
P
DANGER - BLASTING
After the explosion, she hears two bangs. One bang is heard a fraction of a second after the other. The second bang is an echo.
From which surface has the sound reflected to cause this echo?
A XY B PV C ZY D WX
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© UCLES 2009 0625/11/M/J/09 [Turn over
25 The north pole of a bar magnet is placed next to end P of an iron bar PQ, as shown. As a result, magnetic poles are induced in the iron bar.
N S
magnet
Q P
iron bar
What are the magnetic poles induced at P and at Q?
magnetic pole at P magnetic pole at Q
A north north
B north south
C south north
D south south
26 An electromagnet is used to separate magnetic metals from non-magnetic metals.
Why is steel unsuitable as the core of the electromagnet?
A It forms a permanent magnet.
B It has a high density.
C It has a high thermal capacity.
D It is a good conductor of electricity. 27 Which particle does not experience a force due to an electric field?
A α-particle
B electron
C neutron
D proton
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© UCLES 2009 0625/11/M/J/09
28 Using the circuit shown, the current I is found for various voltages V. The temperature of the resistor does not change.
A
I
variable directvoltage
V
Which graph shows the results obtained?
I
V
A
I
V
B
I
V
C
I
V
D
00
00
00
00
29 In the circuit shown, ammeter X reads 0.5 A.
4.0 V
A A X Y
3.0 Ω 5.0 Ω
What does ammeter Y read?
A 0 B 0.5 A C 3.5 A D 4.0 A
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© UCLES 2009 0625/11/M/J/09 [Turn over
30 In the circuits shown, all the resistors are identical.
Which circuit has the least resistance?
A B
C D
31 In the circuit below, one of the lamps breaks, causing all the other lamps to go out.
Which lamp breaks?
A C D
B
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© UCLES 2009 0625/11/M/J/09
32 Either a fuse or a circuit-breaker can be used to protect electrical cables from large currents that could cause overheating.
Y Y electricalsupply
X
Y appliance
cable
cable
live
neutral
If a fuse is used, in which position in the circuit should it be connected, and if a circuit-breaker is used, in which position should it be connected?
position of fuse
position of circuit-breaker
A X X
B X Y
C Y X
D Y Y
33 The current in a lamp at full brightness is 0.25 A. The flexible cable to the lamp is designed for
currents up to 5.0 A, so it can safely carry the 0.25 A taken by the lamp.
Which fuse should be inserted in the plug at the other end of the flexible cable?
A 0.2 A B 1.0 A C 5.0 A D 10.0 A
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© UCLES 2009 0625/11/M/J/09 [Turn over
34 A wire perpendicular to the page carries an electric current in a direction out of the page. There are four compasses near the wire.
Which compass shows the direction of the magnetic field caused by the current?
wire withcurrent out
of page
A C
B
D
35 A transformer has 50 turns on its primary coil and 100 turns on its secondary coil. An alternating
voltage of 25.0 V is connected across the primary coil.
25.0 V
primary coil50 turns
secondary coil100 turns
What is the voltage across the secondary coil?
A 12.5 V B 50.0 V C 175 V D 200 V 36 In a cathode-ray tube, a hot tungsten cathode releases particles by thermionic emission.
What are these particles?
A α-particles
B electrons
C protons
D tungsten atoms
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© UCLES 2009 0625/11/M/J/09
37 The diagram shows a cathode-ray tube.
cathode anode top Y plate
bottom Y plate
screen
P
A student wants the cathode rays to make a spot at P on the screen.
Which parts of the cathode-ray tube should be positive?
A anode and top Y plate
B anode and bottom Y plate
C cathode and top Y plate
D cathode and bottom Y plate
38 A radioactive nucleus contains 138 neutrons. The nucleus emits an α-particle.
How many neutrons are in the nucleus after it has emitted the α-particle?
A 134 B 136 C 138 D 139
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© UCLES 2009 0625/11/M/J/09
39 The graph shows the decay curve for one particular radioactive nuclide.
0 1 2 3 4 5
2500
2000
1500
1000
500
0
count ratecounts / min
time / days
What is the half-life of this nuclide?
A 1.0 day B 1.5 days C 2.0 days D 2.5 days
40 N16
7 is the symbol for a particular nuclide of nitrogen.
How many nucleons does this nuclide contain?
A 7 B 9 C 16 D 23
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Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
0625/11/M/J/09
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IB09 06_0625_12/3RP © UCLES 2009 [Turn over
*5002519211*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/12
Paper 1 Multiple Choice May/June 2009
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
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2
© UCLES 2009 0625/12/M/J/09
1 A car travels 100 km. The highest speed of the car is 90 km/h, and the lowest speed is 30 km/h. The journey takes two hours.
What is the average speed for the journey?
A 30 km / h B 50 km / h C 60 km / h D 90 km / h 2 The graph represents the movement of a body.
10 2 3 4 5
10
8
6
4
2
0
time / s
speed m / s
How far has the body moved after 5 s?
A 2 m B 10 m C 25 m D 50 m 3 A metre rule is used to measure a length.
Which reading is shown to the nearest millimetre?
A 0.7 m B 0.76 m C 0.761 m D 0.7614 m
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© UCLES 2009 0625/12/M/J/09 [Turn over
4 The table shows the weight in newtons of a10 kg mass on each of four planets.
planet weight of a 10 kg mass / N
Earth 100
Jupiter 250
Mercury 40
Venus 90
The diagram shows a force meter (spring balance) being used.
18 N
2.0 kg
On which planet is the force meter (spring balance) being used?
A Earth
B Jupiter
C Mercury
D Venus 5 Which statement about the masses and weights of objects on the Earth is correct?
A A balance can only be used to compare weights, not masses.
B Heavy objects always have more mass than light ones.
C Large objects always have more mass than small ones.
D Mass is a force but weight is not.
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© UCLES 2009 0625/12/M/J/09
6 A wooden plank rests in equilibrium on two boulders on opposite sides of a narrow stream. Three forces of size P, Q and R act on the plank.
Q
P R
plank
How are the sizes of the forces related?
A P + Q = R
B P + R = Q
C P = Q = R
D P = Q + R 7 Which items of apparatus are required to determine the density of a liquid?
A balance and measuring cylinder
B balance and thermometer
C metre rule and measuring cylinder
D metre rule and thermometer 8 Which property of an object cannot be changed by a force?
A its mass
B its motion
C its shape
D its size
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© UCLES 2009 0625/12/M/J/09 [Turn over
9 Four people of equal weight on a beach use different routes to get to the top of a sea wall.
beach
slipway
pavement
sea wall
Which person produces the greatest average power?
person route time taken
A runs across the beach, then climbs the ladder 8 s
B walks across the beach, then climbs the ladder 16 s
C runs up the slipway 5 s
D walks up the slipway 10 s
10 Electricity can be obtained from different energy resources.
Which energy resource is used to obtain electricity without producing heat to boil water?
A coal
B geothermal
C hydroelectric
D nuclear 11 A student fills two containers with water (density 1.0 g / cm3) and two with oil (density 0.8 g / cm3),
as shown in the diagrams.
In which container is the pressure on the base the greatest?
water
water
oil
oil
A B C D
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© UCLES 2009 0625/12/M/J/09
12 The diagrams show two mercury barometers standing side by side. The right-hand diagram shows a tube of bigger diameter, but the diagram is incomplete. There is a vacuum above the mercury in both tubes.
Which labelled position on the right-hand tube could show the mercury level in that tube?
mercury
glasstubes
dish dish
vacuum A B
C
D
13 The graph shows the change in temperature of a substance as it is heated steadily.
Which part of the graph shows when the substance is boiling?
temperature
time
A
B
C
D
14 In an experiment, some of a substance changes from a liquid to a gas. The temperature of the
remaining liquid changes because of this.
What is the name for this change of state and how does the temperature change?
change of state how temperature changes
A condensation decreases
B condensation increases
C evaporation decreases
D evaporation increases
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© UCLES 2009 0625/12/M/J/09 [Turn over
15 A piston traps a certain mass of gas inside a cylinder. Initially the piston is halfway along the length of the cylinder.
The piston is now moved towards the open end of the cylinder. The temperature of the gas remains constant.
initial position
final position
How are the density and the pressure of the gas affected by moving the piston?
density pressure
A decreases decreases
B decreases unchanged
C increases decreases
D increases unchanged
16 The diagram shows a fire.
Why does the smoke rise above the fire?
A Smoke evaporates more quickly at higher temperatures.
B Smoke molecules diffuse more quickly at higher temperatures.
C The density of the air is lower at higher temperatures.
D The pressure of the air is greater at higher temperatures.
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17 Four blocks, made of different materials, are each given the same quantity of internal energy (heat).
Which block has the greatest thermal capacity?
A
temperaturerise = 2 oC
B
temperaturerise = 4 oC
C
temperaturerise = 6 oC
D
temperaturerise = 8 oC
18 A rod is made up of copper and wood joined together.
After the rod is heated at the join in the centre for about a minute, where would the lowest temperature be?
wood copper
A D
B C
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© UCLES 2009 0625/12/M/J/09 [Turn over
19 A small boat in a harbour is protected from waves on the sea by harbour walls.
seasealand sea
smallboat
harbour
harbourwalls
waves
Some waves can curve round the harbour walls and reach the boat.
What is the name for this effect?
A diffraction
B dispersion
C reflection
D refraction 20 Which diagram shows what happens when a ray of white light passes through a prism?
A
spectrum
B
spectrum
Cspectrum
D
spectrum
whitelight
whitelight
whitelight
whitelight
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© UCLES 2009 0625/12/M/J/09
21 The diagram shows the path of a ray of light passing through the principal focus F of a lens.
Which broken line shows the direction of the ray after it leaves the lens?
F F’
lens
A
B
C D
ray of light
22 The diagrams show water waves which move more slowly after passing into shallow water at the
broken line.
Which diagram shows what happens to the waves?
A fast slow
deep water
shallow water
B fast slow
deep water
shallowwater
C fast slow
deep water
shallow water
D fast slow
deep water
shallowwater
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© UCLES 2009 0625/12/M/J/09 [Turn over
23 The diagrams show examples of wave motion.
1 2
waves on water waves in air
waves on a rope waves in a spring (as shown)
3 4
ripple tank
drum
Which are longitudinal waves?
A 1 only
B 1, 2 and 4
C 2 and 3 only
D 2 and 4 only
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© UCLES 2009 0625/12/M/J/09
24 An engineer standing at P sees an explosion at X.
Z
YX
WV
P
DANGER - BLASTING
After the explosion, she hears two bangs. One bang is heard a fraction of a second after the other. The second bang is an echo.
From which surface has the sound reflected to cause this echo?
A XY B PV C ZY D WX
25 An electromagnet is used to separate magnetic metals from non-magnetic metals.
Why is steel unsuitable as the core of the electromagnet?
A It forms a permanent magnet.
B It has a high density.
C It has a high thermal capacity.
D It is a good conductor of electricity. 26 The north pole of a bar magnet is placed next to end P of an iron bar PQ, as shown. As a result,
magnetic poles are induced in the iron bar.
N S
magnet
Q P
iron bar
What are the magnetic poles induced at P and at Q?
magnetic pole at P magnetic pole at Q
A north north
B north south
C south north
D south south
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© UCLES 2009 0625/12/M/J/09 [Turn over
27 In the circuit below, one of the lamps breaks, causing all the other lamps to go out.
Which lamp breaks?
A C D
B
28 In the circuits shown, all the resistors are identical.
Which circuit has the least resistance?
A B
C D
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© UCLES 2009 0625/12/M/J/09
29 Using the circuit shown, the current I is found for various voltages V. The temperature of the resistor does not change.
A
I
variable directvoltage
V
Which graph shows the results obtained?
I
V
A
I
V
B
I
V
C
I
V
D
00
00
00
00
30 In the circuit shown, ammeter X reads 0.5 A.
4.0 V
A A X Y
3.0 Ω 5.0 Ω
What does ammeter Y read?
A 0 B 0.5 A C 3.5 A D 4.0 A
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© UCLES 2009 0625/12/M/J/09 [Turn over
31 Either a fuse or a circuit-breaker can be used to protect electrical cables from large currents that could cause overheating.
Y Y electricalsupply
X
Y appliance
cable
cable
live
neutral
If a fuse is used, in which position in the circuit should it be connected, and if a circuit-breaker is used, in which position should it be connected?
position of fuse
position of circuit-breaker
A X X
B X Y
C Y X
D Y Y
32 The current in a lamp at full brightness is 0.25 A. The flexible cable to the lamp is designed for
currents up to 5.0 A, so it can safely carry the 0.25 A taken by the lamp.
Which fuse should be inserted in the plug at the other end of the flexible cable?
A 0.2 A B 1.0 A C 5.0 A D 10.0 A 33 A transformer has 50 turns on its primary coil and 100 turns on its secondary coil. An alternating
voltage of 25.0 V is connected across the primary coil.
25.0 V
primary coil50 turns
secondary coil100 turns
What is the voltage across the secondary coil?
A 12.5 V B 50.0 V C 175 V D 200 V
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© UCLES 2009 0625/12/M/J/09
34 Which particle does not experience a force due to an electric field?
A α-particle
B electron
C neutron
D proton 35 A wire perpendicular to the page carries an electric current in a direction out of the page. There
are four compasses near the wire.
Which compass shows the direction of the magnetic field caused by the current?
wire withcurrent out
of page
A C
B
D
36 In a cathode-ray tube, a hot tungsten cathode releases particles by thermionic emission.
What are these particles?
A α-particles
B electrons
C protons
D tungsten atoms
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© UCLES 2009 0625/12/M/J/09 [Turn over
37 The diagram shows a cathode-ray tube.
cathode anode top Y plate
bottom Y plate
screen
P
A student wants the cathode rays to make a spot at P on the screen.
Which parts of the cathode-ray tube should be positive?
A anode and top Y plate
B anode and bottom Y plate
C cathode and top Y plate
D cathode and bottom Y plate 38 The graph shows the decay curve for one particular radioactive nuclide.
0 1 2 3 4 5
2500
2000
1500
1000
500
0
count ratecounts / min
time / days
What is the half-life of this nuclide?
A 1.0 day B 1.5 days C 2.0 days D 2.5 days
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© UCLES 2009 0625/12/M/J/09
39 A radioactive nucleus contains 138 neutrons. The nucleus emits an α-particle.
How many neutrons are in the nucleus after it has emitted the α-particle?
A 134 B 136 C 138 D 139
40 N16
7 is the symbol for a particular nuclide of nitrogen.
How many nucleons does this nuclide contain?
A 7 B 9 C 16 D 23
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20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
0625/12/M/J/09
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www.xtremepapers.net
This document consists of 17 printed pages and 3 blank pages.
IB10 06_0625_11/4RP © UCLES 2010 [Turn over
*0334676086*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice May/June 2010
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
www.XtremePapers.net
2
© UCLES 2010 0625/11/M/J/10
1 A scientist needs to determine the volume of a small, irregularly shaped rock sample. Only a rule and a measuring cylinder, partially filled with water, are available.
measuring cylinder
rock sample rule
cm3
cm
To determine the volume, which apparatus should the scientist use?
A both the measuring cylinder and the rule
B neither the measuring cylinder nor the rule
C the measuring cylinder only
D the rule only 2 A student uses a stopwatch to time a runner running around a circular track. The runner runs two
laps (twice around the track). The diagrams show the reading on the stopwatch when the runner starts running, at the end of the first lap, and at the end of the second lap.
reading whenrunner starts
reading at endof first lap
reading at endof second lap
What is the time taken for the runner to run the second lap?
A 0 min 50 s B 1 min 10 s C 1 min 13 s D 2 min 03 s
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3
© UCLES 2010 0625/11/M/J/10 [Turn over
3 Two distance / time graphs and two speed / time graphs are shown.
Which graph represents an object that is at rest?
A
distance
time
B
distance
time
C
speed
time
D
speed
time
00
00
00
00
4 A snail moves along a ruler. It takes 20 s to move from Q to R.
P
0
Q
2
R
12 cm
What is its average speed from Q to R?
A 20
12 cm / s
B 20
212 − cm / s
C 12
20 cm / s
D 212
20
−cm / s
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© UCLES 2010 0625/11/M/J/10
5 Two blocks of metal X and Y hang from spring balances as shown in the diagram.
0 1 2 3 4 5
X
0 1 2 3 4 5
Y
N N
What does the diagram show about X and Y?
A They have the same mass and the same volume but different weights.
B They have the same mass and the same weight but different volumes.
C They have the same mass, the same volume and the same weight.
D They have the same weight and the same volume but different masses.
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5
© UCLES 2010 0625/11/M/J/10 [Turn over
6 The graph shows how weight varies with mass on planet P and on planet Q.
0 20 40 60 80
400
300
200
100
0
weight / Nplanet P
planet Q
mass / kg
An object weighs 400 N on planet P. The object is taken to planet Q.
Which row is correct?
mass of object on planet Q / kg
weight of object on planet Q / N
A 40 200
B 40 400
C 80 200
D 80 400
7 The diagram shows a rectangular block of density 2 g / cm3.
2 cm
2 cm
3 cm
What is the mass of the block?
A 2 g B 6 g C 14 g D 24 g
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© UCLES 2010 0625/11/M/J/10
8 Which statement about a moving object is correct?
A When an object is accelerating, the resultant force acting on it must equal zero.
B When an object is moving at a steady speed, the air resistance acting on it must equal zero.
C When an object is moving at a steady speed, the resultant force acting on it must equal zero.
D When an object is moving, there must be a resultant force acting on it. 9 An experiment is carried out to measure the extension of a rubber band for different loads.
The results are shown below.
load / N 0 1 2 3
length / cm 15.2 16.2 18.6
extension / cm 0 1.0 2.1 3.4
Which figure is missing from the table?
A 17.2 B 17.3 C 17.4 D 17.6 10 Energy is stored in a battery and in a box of matches.
Which type of energy is stored in each of them?
a battery a box of matches
A chemical chemical
B chemical internal (thermal)
C electrical chemical
D electrical internal (thermal)
11 A man lifts 20 bricks, each of weight 6 N.
What other information is needed to calculate the useful work done in lifting the bricks?
A the distance he lifts the bricks
B the mass of the bricks
C the time taken to lift the bricks
D the volume of the bricks
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© UCLES 2010 0625/11/M/J/10 [Turn over
12 To prevent a cement mixer sinking into soft ground, the mixer is placed on a large flat board.
board soft ground
cement mixer
Why does this prevent the mixer sinking?
A The large area decreases the pressure on the ground.
B The large area increases the pressure on the ground.
C The large area decreases the weight on the ground.
D The large area increases the weight on the ground. 13 The pressure of a gas is measured using a manometer as shown in the diagram.
hmercury
pressure tobe measured
The mercury in the manometer is replaced with a liquid which is less dense.
How does the value of h change?
A It becomes zero.
B It decreases, but not to zero.
C It stays the same.
D It increases.
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© UCLES 2010 0625/11/M/J/10
14 The diagram represents the molecules of a gas in a closed container of constant volume.
What happens to the molecules when the gas is heated?
A They expand.
B They hit the walls less often.
C They move further apart.
D They move more quickly. 15 A liquid is left in an open dish. After several days there is less liquid in the dish.
Which statement explains this?
A The least energetic molecules leave the surface and escape into the air.
B The least energetic molecules leave the surface and return.
C The most energetic molecules leave the surface and escape into the air.
D The most energetic molecules leave the surface and return.
16 A thermometer has a scale which starts at –10 °C and ends at 110 °C.
–10 0 100 110
°C
What is the value of the lower fixed point and of the upper fixed point of the scale?
lower fixed point
/ °C
upper fixed point
/ °C
A –10 100
B –10 110
C 0 100
D 0 110
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© UCLES 2010 0625/11/M/J/10 [Turn over
17 A student carries out an experiment to find the melting point of wax. The graph shows how the temperature of the wax changes as it cools.
00
temperature/ °C
melting pointof wax
time
X
Y
Z
Which statement is correct?
A At X the temperature drops more slowly than at Z.
B At Y all the wax is solid.
C At Y thermal energy is being given out by the wax.
D At Z the wax molecules are not moving. 18 Hot liquid in a vacuum flask cools extremely slowly. This is because some methods of heat
transfer cannot take place in a vacuum.
Which methods cannot take place in a vacuum?
A conduction and convection only
B conduction and radiation only
C convection and radiation only
D conduction, convection and radiation
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© UCLES 2010 0625/11/M/J/10
19 A teacher demonstrates convection currents using a box with two chimneys and a lighted candle. She holds a smoking taper at point P.
In which direction does the convection current cause the smoke to move?
chimney chimney
B
C
D
A P
20 Which waves are longitudinal?
88:88
B A C D
light wavesfrom a lamp
sound wavesfrom a trumpet
microwavesin an oven
water waveson a pond
21 A navigation buoy floating on the sea oscillates up and down as a wave passes.
navigationbuoy
In exactly two minutes, six complete wavelengths pass the buoy.
What is the frequency of the waves?
A 0.050 Hz B 0.33 Hz C 3.0 Hz D 20 Hz
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© UCLES 2010 0625/11/M/J/10 [Turn over
22 The diagram shows a ray of light incident on the edge of a piece of glass. The angle i is bigger than the critical angle.
Which arrow correctly shows the direction of the ray after it leaves the edge of the glass?
D
B
C
A
air
glass
ray oflight
normal
i
23 Which diagram correctly shows rays of light passing through a converging lens in a camera?
object
lens
image
camera A B
object
lens
image
cameraC
object
lens
image
camera D
object
lens
image
camera
24 What is the approximate value of the highest frequency that can be heard by a young person?
A 20 Hz B 200 Hz C 2000 Hz D 20 000 Hz
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© UCLES 2010 0625/11/M/J/10
25 A police car siren emits two different sounds P and Q. These are produced alternately. The diagram represents the sounds emitted.
Q Q
P P P
time
displacement
Which sound is the louder and which has the lower pitch?
louder lower pitch
A P P
B P Q
C Q P
D Q Q
26 A magnet attracts two pieces of iron.
N S
iron
What is the arrangement of the induced poles in the pieces of iron?
N S S N A
N S N S B
S N S N C
S N N S D
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© UCLES 2010 0625/11/M/J/10 [Turn over
27 A piece of iron and a piece of steel are picked up by an electromagnet as shown.
N S
ironsteel
electromagnet
The current to the electromagnet is switched off.
What happens?
A Both the iron and the steel remain magnetised.
B Neither the iron nor the steel remain magnetised.
C Only the iron remains magnetised.
D Only the steel remains magnetised. 28 The table shows the lengths and diameters of four copper wires.
Which wire has the least resistance?
length / m diameter / mm
A 0.50 1.0
B 0.50 2.5
C 0.75 1.0
D 0.75 2.5
29 A circuit is set up to measure the resistance of a resistor R. The meter readings are 2.0 A and
3.0 V.
V A
R
What is the resistance of the resistor R?
A 0.67 Ω B 1.5 Ω C 5.0 Ω D 6.0 Ω
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© UCLES 2010 0625/11/M/J/10
30 The circuit shown is a potential divider.
output
X
What is component X?
A a light-dependent resistor
B a relay
C a thermistor
D a variable resistor 31 A lamp is connected in four circuits in turn, each using identical batteries.
The resistors are all identical.
In which circuit will the lamp be brightest?
A B
C D
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© UCLES 2010 0625/11/M/J/10 [Turn over
32 Which diagram shows the correct positions for both the switch and the fuse?
A
live wire
fuse
neutral wirelamp
B
live wire fuse
neutral wirelamp
C
live wire fuse
neutral wirelamp
D
live wire
switch
switch
switch
switchfuse
neutral wirelamp
33 After some building work in a house, a bare (uninsulated) live wire is left protruding from a wall.
What is the greatest hazard?
A a fire
B a fuse will blow
C an electric shock
D no current will flow
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© UCLES 2010 0625/11/M/J/10
34 A coil is connected to a battery and a soft iron bar is hung near to it.
coil soft iron
The current is then reversed by reversing the battery connections.
How does the soft iron bar behave in the two cases?
with the battery as shown with the battery reversed
A attracted to the coil attracted to the coil
B attracted to the coil repelled from the coil
C repelled from the coil attracted to the coil
D repelled from the coil repelled from the coil
35 A transformer has 15 000 turns on its primary coil and 750 turns on its secondary coil.
Connected in this way, for what purpose could this transformer be used?
A to convert the 8000 V a.c. output of a power station to 160 000 V for long-distance power transmission
B to convert the 160 000 V d.c. supply from a power line to 8000 V for local power transmission
C to use a 12 V d.c. supply to operate a 240 V razor
D to use a 240 V a.c. mains supply to operate a 12 V motor 36 What are cathode rays?
A a beam of electrons
B a beam of neutrons
C a beam of protons
D electromagnetic waves
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© UCLES 2010 0625/11/M/J/10
37 A cathode-ray tube has an anode and an earthed cathode.
Which row shows the charge on the anode and the temperature of the cathode?
anode charge cathode
temperature
A negative cool
B negative hot
C positive cool
D positive hot
38 Which row describes the properties of α-particles?
ionizing effect
radiation stopped by aluminium?
A large no
B large yes
C small no
D small yes
39 A radioactive substance has a half-life of 2 weeks. At the beginning of an investigation the
substance emits 3000 β-particles per minute.
How many β-particles will it emit per minute after 6 weeks?
A 0 B 375 C 500 D 1500
40 The nuclide notation for radium-226 is Ra226
88.
How many electrons orbit the nucleus of a neutral atom of radium-226?
A 0 B 88 C 138 D 226
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IB11 06_0625_11/4RP
© UCLES 2011 [Turn over
*3129497903*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS
International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice May/June 2011
45 minutes
Additional Materials: Multiple Choice Answer Sheet
Soft clean eraser
Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided
unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible
answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
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2
© UCLES 2011 0625/11/M/J/11
1 The diagram shows an enlarged drawing of the end of a metre rule. It is being used to measure
the length of a small feather.
1mmcm 2 3
1 0 2 0 3 0
What is the length of the feather?
A 19 mm B 29 mm C 19 cm D 29 cm
2 An object moves initially with constant speed and then with constant acceleration.
Which graph shows this motion?
0 0
0 0 0
0
00
speedspeed
speed
timetime
time
A B
C D
time
speed
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© UCLES 2011 0625/11/M/J/11 [Turn over
3 A tennis player hits a ball hard and 0.40 s later hears the echo from a wall.
The speed of sound in air is 330 m / s.
How far away is the player from the wall?
A 66 m B 132 m C 264 m D 825 m
4 Which statement about mass and weight is correct?
A Mass and weight are both forces.
B Neither mass nor weight is a force.
C Only mass is a force.
D Only weight is a force.
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© UCLES 2011 0625/11/M/J/11
5 The diagram shows a balance being used to find the weight of a baby. The weight of the basket
can be ignored.
At equilibrium, the pivot is nearer to the weight W than to the baby.
W
pivot
baby
basket
centre of massof beam
What is the weight of the baby?
A less than W
B more than W
C W
D impossible to tell
6 A cube of side 2.0 cm is placed on a balance.
2.0 cmbalance
7.2 g
What is the density of the cube?
A 0.90 g / cm3
B 1.2 g / cm3
C 1.8 g / cm3
D 3.6 g / cm3
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© UCLES 2011 0625/11/M/J/11 [Turn over
7 Objects with different masses are hung on a spring. The diagram shows how much the spring
stretches.
100 g
M
10 cm
20 cm
30 cm
The extension of the spring is directly proportional to the mass hung on it.
What is the mass of object M?
A 110 g B 150 g C 200 g D 300 g
8 Which row gives an example of the stated form of energy?
form of energy example
A gravitational the energy due to the movement of a train along a level track
B internal the energy due to the flow of cathode rays in a cathode-ray tube
C
kinetic
the energy due to the position of a swimmer standing on a
high diving board
D strain the energy due to the compression of springs in a car seat
9 Which energy resource is used to generate electricity by first boiling water?
A hydroelectric
B nuclear fission
C tides
D waves
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© UCLES 2011 0625/11/M/J/11
10 Two farmers use an electrically powered elevator to lift bales of hay. All the bales of hay have the
same mass.
bale of hay
As sunset approaches, they increase the speed of the motor so that more bales are lifted up in a
given time.
How does this affect the work done in lifting each bale and the useful output power of the motor?
work done in
lifting each bale
useful output power
of the motor
A increases decreases
B increases increases
C no change decreases
D no change increases
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© UCLES 2011 0625/11/M/J/11 [Turn over
11 A brick with flat, rectangular sides rests on a table.
brick table
The brick is now turned so that it rests on the table on its smallest face.
How has this affected the force and the pressure exerted by the brick on the table?
force pressure
A increased increased
B increased unchanged
C unchanged increased
D unchanged unchanged
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© UCLES 2011 0625/11/M/J/11
12 The diagram shows two mercury barometers.
Barometer 1 is measuring atmospheric pressure on day 1.
Barometer 2 is measuring atmospheric pressure on day 2.
barometer 1, day 1
point X
barometer 2, day 2
point Y
mercury
Which statement is true?
A The atmospheric pressure on day 1 is less than the atmospheric pressure on day 2.
B The atmospheric pressure on day 1 is the same as the atmospheric pressure on day 2.
C The pressure at point X is less than the pressure at point Y.
D The pressure at point X is the same as the pressure at point Y.
13 A sealed gas cylinder is left outside on a hot, sunny day.
What happens to the average speed of the molecules and to the pressure of the gas in the
cylinder as the temperature rises?
average speed of
the gas molecules
gas pressure
A falls falls
B falls rises
C rises falls
D rises rises
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© UCLES 2011 0625/11/M/J/11 [Turn over
14 When a liquid evaporates, some molecules escape from it and its temperature changes.
From where do the molecules escape and what is the effect on the temperature of the liquid?
molecules escape from temperature of liquid
A all parts of the liquid decreases
B all parts of the liquid increases
C only the liquid surface decreases
D only the liquid surface increases
15 The diagram shows a thermometer calibrated in degrees Celsius.
110 100 90 80 70 60 50 40 30 20 10 0
–10
°C
What are the values of the lower fixed point and of the upper fixed point on the Celsius scale?
lower fixed
point / °C
upper fixed
point / °C
A –10 110
B 0 20
C 0 100
D 20 100
16 An ice cube at a temperature of 0 °C is put into a drink at a temperature of 10 °C.
After a short time, some of the ice has melted and the drink has cooled to a temperature of 8 °C.
What is the temperature of the remaining ice?
A 0 °C B 2 °C C 4 °C D 8 °C
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17 An experiment is set up to find out which metal is the best conductor of heat.
Balls are stuck with wax to rods made from different metals, as shown in diagram 1.
The rods are heated at one end. Some of the balls fall off, leaving some as shown in diagram 2.
Which labelled metal is the best conductor of heat?
before heating after heating
heated end heated end
diagram 1 diagram 2
A B C D
18 Food is kept in a cool-box which uses two ice packs to keep it cool.
Where should the ice packs be placed to keep all the food as cool as possible?
A both at the bottom of the box
B both at the top of the box
C one at the front and one at the back of the box
D one on the left and one on the right of the box
19 Water waves can be used to show reflection, refraction and diffraction.
For each of these, which row shows whether or not the speed of the water waves changes?
reflection refraction diffraction
A no no yes
B no yes no
C yes no no
D yes yes yes
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© UCLES 2011 0625/11/M/J/11 [Turn over
20 A vertical stick is dipped up and down in water at P.
In two seconds, three wave crests are produced on the surface of the water.
P
X
Y
wave crests
Which statement is correct?
A Distance X is the amplitude of the waves.
B Distance Y is the wavelength of the waves.
C Each circle represents a wavefront.
D The frequency of the waves is 3 Hz.
21 The diagram shows the dispersion of white light by a glass prism.
red light
violet lightglass prism
white light
Why does dispersion occur when white light enters the glass?
A The frequency of red light decreases more than that of violet light.
B The frequency of violet light decreases more than that of red light.
C The speed of red light decreases more than that of violet light.
D The speed of violet light decreases more than that of red light.
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© UCLES 2011 0625/11/M/J/11
22 A thin converging lens is used to produce, on a screen, a focused image of a candle.
candle
lens
screenimage
Various focused images are produced on the screen by moving the lens and the screen
backwards and forwards.
Which statement is always correct?
A The image is at the principal focus (focal point) of the lens.
B The image is bigger than the object.
C The image is closer to the lens than the object is.
D The image is inverted.
23 Sound travels by wave motion.
Which property of waves causes echoes?
A diffraction
B dispersion
C reflection
D refraction
24 A student listens to a machine that makes sounds of different frequencies. He can only hear one
of the sounds.
Which frequency of sound is the student able to hear?
A 2 Hz B 10 Hz C 2 kHz D 30 kHz
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© UCLES 2011 0625/11/M/J/11 [Turn over
25 Which test could be used to find which end of a magnet is the north pole?
A putting it near a compass needle
B putting it near a ferrous metal
C putting it near a non-ferrous metal
D putting it near a steel spoon
26 In two separate experiments, a magnet is brought near to an unmagnetised iron bar. This causes
the bar to become magnetised.
N S magnet X iron bar
NS magnet Yiron bar
experiment 1
experiment 2
Which magnetic poles are induced at X and at Y?
pole induced at X pole induced at Y
A N N
B N S
C S N
D S S
27 An ammeter and an 18 Ω resistor are connected in series with a battery. The reading on the
ammeter is 0.50 A. The resistance of the battery and the ammeter can be ignored.
18 Ω
A
What is the electromotive force (e.m.f.) of the battery?
A 9.0 N B 9.0 V C 36 N D 36 V
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© UCLES 2011 0625/11/M/J/11
28 A polythene rod repels an inflated balloon hanging from a nylon thread.
What charges must the rod and the balloon carry?
A The rod and the balloon carry opposite charges.
B The rod and the balloon carry like charges.
C The rod is charged but the balloon is not.
D The balloon is charged but the rod is not.
29 Which circuit includes a capacitor and what does the capacitor do in this circuit?
circuit
what the
capacitor does
A potential divider stores current
B potential divider stores energy
C time delay stores current
D time delay stores energy
30 A student sets up the circuit shown. The switch is open (off).
X
Y
Z
Which lamps are on and which lamps are off?
lamp X lamp Y lamp Z
A off off off
B on off off
C on off on
D on on on
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© UCLES 2011 0625/11/M/J/11 [Turn over
31 The diagram shows a thermistor in a potential divider. A voltmeter is connected across the
thermistor.
V
The graph shows how the resistance of the thermistor changes with temperature.
temperature
resistance
As the thermistor becomes warmer, what happens to its resistance and what happens to the
reading on the voltmeter?
resistance voltmeter reading
A decreases decreases
B decreases increases
C increases decreases
D increases increases
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© UCLES 2011 0625/11/M/J/11
32 In this circuit, a component at X automatically protects the wiring from overheating if there is a
fault.
electrical supply
X
Which components are suitable to use at X?
A a circuit-breaker, a fuse or a switch
B only a circuit-breaker or a fuse
C only a circuit-breaker or a switch
D only a fuse
33 Which graph shows how the output voltage varies with time for a simple a.c. generator?
0
voltage
A
0
voltage
B
0
voltage
C
0
voltage
D
time
time
time
time
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© UCLES 2011 0625/11/M/J/11 [Turn over
34 A magnet is suspended from a spring so that it can move freely inside a coil. The coil is
connected to a sensitive centre-zero ammeter.
N
S
spring
centre-zero ammeter
moving magnet
stationary coil
What does the ammeter show when the magnet repeatedly moves slowly up and down?
A a reading constantly changing from left to right and right to left
B a steady reading to the left
C a steady reading to the right
D a steady reading of zero
35 The diagram shows a simple step-down transformer used to decrease a voltage.
Which part is the primary coil?
A
B C D
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© UCLES 2011 0625/11/M/J/11
36 The diagram shows a cathode-ray tube.
powersupply
X
Y vacuum
screen
What are the correct labels for X and for Y?
X Y
A negative anode positive cathode
B negative cathode positive anode
C positive anode negative cathode
D positive cathode negative anode
37 A beam of cathode rays passes between two parallel metal plates connected to a high-voltage
d.c. power supply.
Which path does the beam follow?
+ + +
cathode rays
A
B
C
D
+ + +
38 Which row shows the relative ionising effects and penetrating abilities of α-particles and
β-particles?
ionising effect penetrating ability
A α greater than β α greater than β
B α greater than β α less than β
C α less than β α greater than β
D α less than β α less than β
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39 A powder contains 400 mg of a radioactive material that emits α-particles.
The half-life of the material is 5 days.
What mass of that material remains after 10 days?
A 0 mg B 40 mg C 100 mg D 200 mg
40 An atom of the element lithium has a nucleon number of 7 and a proton number of 3.
Which diagram represents a neutral atom of lithium?
nn
++
+
–
–
A
n+ +
+
–
–
–
B
nn
n n++
+nn
n n++
+
–
–
–
C
n
+
–
–
–
–
– –
– –
D
= a neutron
= a proton
= an electron
key
(not to scale)
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Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every
reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the
publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of
Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2011 0625/11/M/J/11
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IB12 06_0625_11/3RP © UCLES 2012 [Turn over
*9772978782*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice May/June 2012
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
www.OnlineExamHelp.com
www.OnlineExamHelp.com
2
© UCLES 2012 0625/11/M/J/12
1 A cylindrical can is rolled along the ruler shown in the diagram.
0 cm 5 10 15 20 25 30 cm
starting position final position
can rolled
mark on
can
The can rolls over twice.
What is the circumference (distance all round) of the can?
A 13 cm B 14 cm C 26 cm D 28 cm 2 A car is moving downhill along a road at a constant speed.
Which graph is the speed / time graph for the car?
A
speed
time00
B
speed
time00
C
speed
time00
D
speed
time00
3 In a race, a car travels 60 times around a 3.6 km track. This takes 2.4 hours.
What is the average speed of the car?
A 1.5 km / h B 90 km / h C 144 km / h D 216 km / h
3
© UCLES 2012 0625/11/M/J/12 [Turn over
4 Which quantity is measured in newtons?
A density
B energy
C pressure
D weight 5 A geologist places a small rock on the left-hand pan of a balance. The two pans are level as
shown when masses with a total weight of 23 N are placed on the right-hand pan. Take the weight of 1.0 kg to be 10 N.
0
rock masses
What is the mass of the small rock?
A 0.023 kg B 2.3 kg C 23 kg D 230 kg
6 A stone has a volume of 0.50 cm3 and a mass of 2.0 g.
What is the density of the stone?
A 0.25 g / cm3
B 1.5 g / cm3
C 2.5 g / cm3
D 4.0 g / cm3
4
© UCLES 2012 0625/11/M/J/12
7 Passengers are not allowed to stand on the upper deck of double-decker buses.
upper deck
lower deck
Why is this?
A They would cause the bus to become less stable.
B They would cause the bus to slow down.
C They would increase the kinetic energy of the bus.
D They would lower the centre of mass of the bus. 8 The diagram shows a handle with three forces, each 100 N, applied to it. The handle is free to
move.
pivot
handle
100 N
100 N
100 N
What is the effect of the forces on the handle?
A The handle will move downwards.
B The handle will not move.
C The handle will turn anticlockwise (to the left).
D The handle will turn clockwise (to the right). 9 In which pair of energy sources are both sources renewable?
A oil and coal
B oil and tidal
C tidal and geothermal
D tidal and nuclear fission
5
© UCLES 2012 0625/11/M/J/12 [Turn over
10 An object on a thread is swinging between X and Z, as shown in the diagram. It is momentarily at rest at X and at Z.
Y
X Z
thread
An incomplete word equation about the energy of the object is shown below.
gravitational potential energy = kinetic energy + ……… energy + energy losses at X at Y at Y
Which form of energy is needed to complete the word equation?
A chemical
B gravitational potential
C internal
D strain 11 Which statement is explained by reference to pressure?
A Objects with greater mass have greater weight.
B One kilogram of water occupies more volume than one kilogram of lead.
C Spikes on running-shoes sink into the ground.
D Water cooled to a low enough temperature turns to ice.
6
© UCLES 2012 0625/11/M/J/12
12 The diagram shows a mercury manometer used to measure the pressure of gas in a container. Atmospheric pressure is 76 cm of mercury.
20 cm
12 cm
mercury
gas
What is the pressure of the gas?
A 56 cm of mercury
B 68 cm of mercury
C 84 cm of mercury
D 96 cm of mercury 13 Brownian motion is observed when looking at smoke particles in air using a microscope.
What causes the smoke particles to move at random?
A Smoke particles are hit by air molecules.
B Smoke particles are moved by convection currents in the air.
C Smoke particles have different weights and fall at different speeds.
D Smoke particles hit the walls of the container. 14 The molecules of a substance become more closely packed and move more quickly.
What is happening to the substance?
A A gas is being heated and compressed.
B A gas is being heated and is expanding.
C A liquid is boiling.
D A liquid is evaporating at room temperature.
7
© UCLES 2012 0625/11/M/J/12 [Turn over
15 Which pair contains only physical quantities that vary with temperature and so could be used in making a thermometer?
A activity of a radioactive source, volume of a gas
B mass of a liquid, volume of a liquid
C activity of a radioactive source, mass of a solid
D volume of a gas, volume of a liquid
16 A heater supplies 80 J of energy to a block of metal. The temperature of the block rises by 20 °C.
What happens to the block of metal when its temperature falls by 10 °C?
A Its internal energy decreases by 40 J.
B Its internal energy decreases by 160 J.
C Its internal energy increases by 40 J.
D Its internal energy increases by 160 J. 17 An engineer wants to fix a steel washer on to a steel rod. The rod is just too big to fit into the hole
of the washer.
steel rodsteelwasher
How can the engineer fit the washer on to the rod?
A Cool the washer and put it over the rod.
B Cool the washer and rod to the same temperature and push them together.
C Heat the rod and then place it in the hole.
D Heat the washer and then place it over the rod. 18 Why does convection take place in a liquid when it is heated?
A Liquids expand when they are heated.
B Liquids start to bubble when they get close to boiling point.
C Molecules in the liquid expand when they are heated.
D Molecules near to the surface of the liquid escape into the air.
8
© UCLES 2012 0625/11/M/J/12
19 Two plastic cups are placed one inside the other. Hot water is poured into the inner cup and a lid is put on top, as shown.
lid
small spacer
small air gap
hot water
bench
Which statement is correct?
A Heat loss by radiation is prevented by the small air gap.
B No heat passes through the sides of either cup.
C The bench is heated by convection from the bottom of the outer cup.
D The lid is used to reduce heat loss by convection. 20 What is the unit of wavelength?
A hertz
B metre
C metre per second
D second 21 Which row correctly describes light waves and radio waves?
light waves radio waves
A longitudinal longitudinal
B longitudinal transverse
C transverse longitudinal
D transverse transverse
9
© UCLES 2012 0625/11/M/J/12 [Turn over
22 The diagram shows water waves passing through a gap in a harbour wall. The waves curve round the wall and reach a small boat in the harbour.
boat
harbour wall
harbour
waves
gap
What is the name of this curving effect, and how can the gap be changed so that the waves are less likely to reach the boat?
name of effect change to the gap
A diffraction make the gap slightly bigger
B diffraction make the gap slightly smaller
C refraction make the gap slightly bigger
D refraction make the gap slightly smaller
10
© UCLES 2012 0625/11/M/J/12
23 The image formed by a plane mirror is upright.
position
of image
eye
object
What are the other characteristics of the image?
laterally inverted
(left to right) magnified
(larger than the object) virtual
A no yes yes
B yes no no
C yes no yes
D yes yes no
24 A student draws three rays of light from point P through a converging lens.
Each point labelled F is a principal focus of the lens.
F F
P ray X
ray Z ray Y
Which of the rays are drawn correctly?
A ray Y only
B ray Z only
C ray X and ray Y
D ray X and ray Z
11
© UCLES 2012 0625/11/M/J/12 [Turn over
25 A girl stands at a distance from a large building. She claps her hands and a short time later hears an echo.
Why is an echo produced when the sound waves hit the building?
A The sound waves are absorbed.
B The sound waves are diffracted.
C The sound waves are reflected.
D The sound waves are refracted. 26 The diagrams represent the waves produced by four sources of sound. The scales are the same
for all the diagrams.
Which sound has the highest frequency?
A
B
C
D
time
time
time
time
12
© UCLES 2012 0625/11/M/J/12
27 Which statement describes a property of a magnet?
A It attracts ferrous materials.
B It could have only one pole (north or south).
C It points in a random direction when suspended.
D It repels non-ferrous materials. 28 Which procedure may be used to demagnetise a steel bar?
A cooling it in a freezer
B earthing it with a copper wire
C placing it in a solenoid carrying a large direct current (d.c.)
D striking it repeatedly with a hammer 29 In which unit is potential difference measured?
A ampere
B ohm
C volt
D watt 30 The circuit shown in the diagram contains an unknown component X, hidden in a box.
The voltage-current graph for X is as shown.
A
V
X
+ –
variable voltage supply
voltage
current 0 0
What is the component X?
A a capacitor
B a closed switch
C an open switch
D a resistor of constant resistance
13
© UCLES 2012 0625/11/M/J/12 [Turn over
31 Which circuit contains a fuse?
A
A
B
C D
V
A
32 A thermistor is used in a circuit to control a piece of equipment automatically.
What might this circuit be used for?
A lighting an electric lamp as it becomes darker
B ringing an alarm bell if a locked door is opened
C switching on a water heater at a pre-determined time
D turning on an air conditioner when the temperature rises
14
© UCLES 2012 0625/11/M/J/12
33 A student connects a variable potential divider (potentiometer) circuit.
R
S
T
V
12 V
What happens to the reading on the voltmeter as the sliding terminal T is moved from R to S?
A It decreases from 12 V to 0 V.
B It increases from 0 V to 12 V.
C It remains at 0 V.
D It remains at 12 V.
15
© UCLES 2012 0625/11/M/J/12 [Turn over
34 A circuit-breaker is designed to protect a circuit which usually carries a current of 2 A.
The time taken to break the circuit depends on the current, as shown in the graph.
160
140
120
100
80
60
40
20
00 2 4 6 8 10 12 14 16 18 20
current / A
time taken
to break the
circuit / s
What happens when the current in the circuit is 2 A and what happens when the current 18 A?
when the current is 2 A when the current is 18 A
A the circuit breaks in less than 5 seconds the circuit breaks in less than 5 seconds
B the circuit breaks in less than 5 seconds the circuit does not break
C the circuit does not break the circuit breaks in less than 5 seconds
D the circuit does not break the circuit does not break
35 The diagram shows a coil connected to a battery and a switch. Two unmagnetised iron bars hang
freely near opposite ends of the coil.
YX
coil
iron bar iron bar
What happens to the iron bars when the switch is closed?
A Both X and Y move away from the coil.
B Both X and Y move towards the coil.
C X moves towards the coil, Y moves away from the coil.
D Y moves towards the coil, X moves away from the coil.
16
© UCLES 2012 0625/11/M/J/12
36 A wire passes between the poles of a horseshoe magnet. There is a current in the wire in the direction shown, and this causes a force to act on the wire.
N
Swire
current
magnet
force
Three other arrangements, P, Q and R, of the wire and magnet are set up as shown.
S
N
N
S
S
N
P Q R
magnet turned around current direction reversed current direction reversed
and magnet turned around
Which arrangement or arrangements will cause a force in the same direction as the original arrangement?
A P, Q and R B P and Q only C P only D R only 37 The diagram shows a device to produce cathode rays.
evacuated glass container
cathodeanode
Which part of the device is heated and why?
part heated reason
A anode to emit electrons
B anode to emit protons
C cathode to emit electrons
D cathode to emit protons
17
© UCLES 2012 0625/11/M/J/12
38 A radioactive nucleus emits a β-particle.
nucleus
β-particle
What happens to the proton number (atomic number) of the nucleus?
A It stays the same.
B It increases by 1.
C It decreases by 2.
D It decreases by 4. 39 The diagram shows the paths of three different types of radiation, X, Y and Z.
X
Y
Z
2 mm of
plastic
10 mm of
aluminium
50 mm
of lead
Which row in the table correctly identifies X, Y and Z?
X Y Z
A α-particles β-particles γ-rays
B β-particles α-particles γ-rays
C β-particles γ-rays α-particles
D γ-rays α-particles β-particles
40 Which diagram could represent the structure of a neutral atom?
+
+ –
–
–
key
neutron
proton
electron
A B
+ +
–
+ +
C
++ +
D
–
–
–
–
20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2012 0625/11/M/J/12
BLANK PAGE
This document consists of 20 printed pages.
IB13 06_0625_11/4RP © UCLES 2013 [Turn over
*7627854085*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice May/June 2013
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
DO NOT WRITE IN ANY BARCODES.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
Electronic calculators may be used.
www.OnlineExamHelp.com
www.OnlineExamHelp.com
2
© UCLES 2013 0625/11/M/J/13
1 The diagrams show the readings on a measuring cylinder before and after a small metal cube is added.
10987654321
cm3 cm3
10987654321
before after
water metal cube
How many more identical cubes can be added to the cylinder, without causing the water to overflow? Do not include the cube already in the cylinder.
A 1 B 2 C 3 D 4 2 Which person is experiencing an acceleration?
A a driver of a car that is braking to stop at traffic lights
B a passenger in a train that is stationary in a railway station
C a shopper in a large store ascending an escalator (moving stairs) at a uniform rate
D a skydiver falling at constant speed towards the Earth 3 A car travels at various speeds during a short journey.
The table shows the distances travelled and the times taken during each of four stages P, Q, R and S.
stage P Q R S
distance travelled / km 1.8 3.6 2.7 2.7
time taken / minutes 2 2 4 3
During which two stages is the car travelling at the same average speed?
A P and Q B P and S C Q and R D R and S
3
© UCLES 2013 0625/11/M/J/13 [Turn over
4 Two blocks of metal X and Y hang from spring balances, as shown in the diagrams.
0
1
2
3
4
5
XY
N0
1
2
3
4
5
N
What does the diagram show about X and Y?
A They have the same mass and the same volume but different weights.
B They have the same mass and the same weight but different volumes.
C They have the same mass, the same volume and the same weight.
D They have the same weight and the same volume but different masses. 5 A 1 kg sample of aluminium is stored in a laboratory. In a different laboratory, in the same town,
there is a 1 kg sample of iron.
Which quantity must these two samples always have in common?
A the same density
B the same temperature
C the same volume
D the same weight
4
© UCLES 2013 0625/11/M/J/13
6 A measuring cylinder has a mass of 120 g when empty.
When it contains 50 cm3 of a liquid, the total mass of the measuring cylinder and the liquid is 160 g.
What is the density of the liquid?
A 50
40 g / cm3
B 40
50 g / cm3
C 50
120 g / cm3
D 50
160 g / cm3
7 A car moves along a level road.
The diagram shows all of the horizontal forces acting on the car.
2000 N forcefrom engine500 N
friction
800 Nair resistance
Which statement is correct?
A The car is slowing down.
B The car is speeding up.
C The car is moving at a constant speed.
D The car is moving backwards.
5
© UCLES 2013 0625/11/M/J/13 [Turn over
8 The diagram shows a force being applied to a lever to lift a heavy weight.
forcepivot lever
heavy weight
Which change would enable the heavy weight to be lifted with a smaller force?
A Move the force to the right.
B Move the heavy weight to the right.
C Move the force to the left.
D Move the pivot to the left. 9 The diagram shows a hydroelectric system.
water
powerstation
pipereservoir
What are the main energy changes taking place?
A chemical energy → kinetic energy → electrical energy
B electrical energy → gravitational energy → kinetic energy
C gravitational energy → kinetic energy → electrical energy
D kinetic energy → electrical energy → gravitational energy
6
© UCLES 2013 0625/11/M/J/13
10 An escalator (moving stairs) and a lift (elevator) are both used to carry passengers from the same underground railway platform up to street level.
escalator lift
The escalator takes 20 seconds to carry a man to street level. The useful work done is W. The useful power developed is P. The lift takes 30 seconds to carry the same man to street level.
How much useful work is done by the lift, and how much useful power is developed by the lift?
useful work done by lift
useful power developed by lift
A more than W less than P
B more than W P
C W less than P
D W P
11 A man stands on the ground.
Which action will increase the pressure that the man exerts on the ground?
A The man slowly bends his knees.
B The man slowly lies down on the ground.
C The man slowly raises his arms.
D The man slowly raises one foot off the ground.
7
© UCLES 2013 0625/11/M/J/13 [Turn over
12 The diagram shows a simple mercury barometer.
90
80
70
60
50
40
30
20
10
cm vacuum
metre rule
mercury
Which length is used to find the value of atmospheric pressure?
A 12 cm B 74 cm C 86 cm D 100 cm 13 A thermometer bulb is covered by a piece of damp absorbent cloth.
thermometer
airdamp cloth
bulb
Air at room temperature is blown across the damp cloth.
What happens to the thermometer reading?
A It remains constant.
B It rises.
C It rises then falls.
D It falls.
8
© UCLES 2013 0625/11/M/J/13
14 A gas storage tank has a fixed volume. The graph shows how the temperature of the gas in the tank varies with time.
X time
temperature
Y
At time Y, the gas molecules are
A closer together than at time X.
B hitting the sides of the tank harder than at time X.
C larger in size than at time X.
D moving more slowly than at time X. 15 The diagrams show four blocks of steel. The blocks are all drawn to the same scale.
The same quantity of thermal energy (heat) is given to each block.
Which block shows the greatest rise in temperature?
A B C D
9
© UCLES 2013 0625/11/M/J/13 [Turn over
16 A mercury thermometer with no scale is taped to a ruler as shown.
When the thermometer is placed in steam, the mercury level rises to 22.0 cm.
When the thermometer is placed in pure melting ice, the mercury level falls to 2.0 cm.
30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 0
cm
mercury
ruler
thermometer
Which temperature is shown by the mercury level in the diagram?
A 6 °C B 8 °C C 30 °C D 40 °C
10
© UCLES 2013 0625/11/M/J/13
17 The diagram shows the cross-section of a vacuum flask containing a hot liquid in a cold room.
X and Y are points on the inside surfaces of the walls of the flask.
X Y
cold room
vacuum
hot liquid
How is thermal energy transferred between X and Y?
A by conduction and convection
B by conduction only
C by radiation and convection
D by radiation only
11
© UCLES 2013 0625/11/M/J/13 [Turn over
18 The diagram shows a refrigerator.
The cooling unit is placed at the top. The cooling unit cools the air near it.
cooling unit
What happens to the density of the air as it cools, and how does it move?
density of the air movement of the air
A decreases moves down
B decreases stays at the top
C increases moves down
D increases stays at the top
19 Visible light and γ-rays are both waves.
How may they correctly be described?
visible light γ-rays
A longitudinal longitudinal
B longitudinal transverse
C transverse longitudinal
D transverse transverse
12
© UCLES 2013 0625/11/M/J/13
20 The diagram represents a wave.
X Y
distance
displacement
0
How many wavelengths are there between X and Y?
A 3
2 B 1 C 2
11 D 3
21 Different parts of the electromagnetic spectrum are used for different purposes. Below are four
statements about parts of the spectrum.
statement 1: Infra-red waves are used in television remote controllers.
statement 2: Radio waves are used to transmit television pictures from satellites to Earth.
statement 3: Ultra-violet waves are used for intruder alarms.
statement 4: X-rays are used for security checks.
Which statements are correct?
A 1 and 2 B 1 and 4 C 2 and 3 D 3 and 4 22 Which diagram shows how a ray of light could pass through a glass block in air?
A
glass
B
glass
glass
C
glass
D
13
© UCLES 2013 0625/11/M/J/13 [Turn over
23 Which diagram correctly represents rays of light passing through a converging lens in a camera?
A B
C
object image
cameraD
object image
camera
object
lens
image
camera
lens
object image
camera
lens
lens
24 The diagrams represent two sound waves. The scales in the two diagrams are the same.
displacement
time
sound wave 1
displacement
time
sound wave 2
Which statement describes the waves?
A The waves have different loudness and different pitch.
B The waves have different loudness but the same pitch.
C The waves have the same loudness and the same pitch.
D The waves have the same loudness but different pitch.
14
© UCLES 2013 0625/11/M/J/13
25 A student claps once when standing 100 m away from a large wall.
The speed of sound in air is 330 m / s.
How long after clapping does the student hear an echo?
A 0.30 s B 0.61 s C 1.7 s D 3.3 s 26 Which statement about magnetism is correct?
A Aluminium is a ferrous metal.
B A steel magnet can be demagnetised by heating it.
C The core of an electromagnet is usually made of steel.
D The magnetic field lines around a bar magnet are evenly spaced. 27 Two soft-iron rods are placed end to end inside a coil which is connected to a battery.
soft-iron rod soft-iron rod
coil
The connections from the battery to the coil are now reversed.
What happens to the soft-iron rods in each case?
battery connections
as shown battery connections
reversed
A rods attract rods attract
B rods attract rods repel
C rods repel rods attract
D rods repel rods repel
15
© UCLES 2013 0625/11/M/J/13 [Turn over
28 Three charged balls, P, Q and R are suspended by insulating threads. Ball P is negatively charged.
Ball Q is brought close to ball P.
–P Q
insulating thread
Ball Q is now brought close to ball R.
Q R
What are the charges on ball Q and on ball R?
ball Q ball R
A positive positive
B positive negative
C negative positive
D negative negative
16
© UCLES 2013 0625/11/M/J/13
29 Which circuit could be used to determine the resistance of the resistor R?
A
V
D
V
A
C
R R
V
A
A
A
V
B
RR
30 Which copper wire would have the smallest resistance?
A a long, thick wire
B a long, thin wire
C a short, thick wire
D a short, thin wire 31 The diagram shows an electrical circuit.
P ON
L M
Between which two points must a voltmeter be connected to find the potential difference across the bell?
A L and M B M and N C N and O D O and P
17
© UCLES 2013 0625/11/M/J/13 [Turn over
32 The reading on the ammeter in the circuit is 1.0 A.
A second ammeter is connected in the circuit. It also reads 1.0 A.
At which labelled point is it connected?
1.0 AA
B C D
A
33 The circuit shows a battery and four lamps. All the lamps are lit.
One lamp fails and all the lamps go out.
Which lamp failed?
A B
CD
34 A desk lamp should have a 3 A fuse fitted, but a 13 A fuse has been fitted by mistake.
The lamp is not faulty.
The lamp is switched on. What happens?
A The fuse blows.
B The fuse does not blow but the lamp does not light.
C The lamp draws too much current and the supply cables could melt.
D The lamp works normally.
18
© UCLES 2013 0625/11/M/J/13
35 An electric current can produce a heating effect and a magnetic effect.
Which row shows the effect that a relay uses, together with one application of a relay?
effect used by a relay one application of a relay
A heating effect allowing a small current to switch on a large current
B heating effect changing the voltage of an alternating current
C magnetic effect allowing a small current to switch on a large current
D magnetic effect changing the voltage of an alternating current
36 The diagram shows a mains transformer that has an output voltage of 12 V.
240 V a.c.input
12 V a.c.output
coil with1000 turns soft-iron core
How many turns of wire are in the secondary coil?
A 12 B 20 C 50 D 20 000
19
© UCLES 2013 0625/11/M/J/13 [Turn over
37 The diagram shows an experiment to demonstrate electromagnetic induction.
N S
X
Y
Awire
X and Y are joined, in turn, by four wires, each made of a different material. Each wire is then moved quickly downwards between the magnets.
Which material will not give rise to an induced current in the wire?
A aluminium
B copper
C iron
D nylon 38 In a cathode-ray tube, particles are fired at a screen.
What are these particles?
A α-particles
B electrons
C neutrons
D protons
20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2013 0625/11/M/J/13
39 The graph shows how the count rate on a detector due to a radioactive source changes with time.
4800
2400
00 1 2 3 4 5
count ratecounts per minute
time / hours
What is the count rate at 5.0 hours?
A 960 counts per minute
B 600 counts per minute
C 150 counts per minute
D 0 counts per minute 40 The diagram represents a carbon atom.
+ + + + +
+ +
–
– –
– –
– – key neutron proton electron
What is the nucleon number (mass number) for this atom?
A 6 B 8 C 14 D 20
The syllabus is approved for use in England, Wales and Northern Ireland as a Cambridge International Level 1/Level 2 Certificate.
This document consists of 18 printed pages and 2 blank pages.
IB14 06_0625_11/7RP © UCLES 2014 [Turn over
*7061813147*
Cambridge International Examinations Cambridge International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice May/June 2014
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
DO NOT WRITE IN ANY BARCODES.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
Electronic calculators may be used.
2
© UCLES 2014 0625/11/M/J/14
1 A student wishes to measure accurately the volume of approximately 40 cm3 of water. She has two measuring cylinders, a larger one that can hold 100 cm3, and a smaller one that can hold 50 cm3. The water forms a meniscus where it touches the glass.
top ofmeniscus
bottom ofmeniscus
Which cylinder should the student use and which water level should she use to ensure an accurate result?
cylinder water level
A larger one bottom of meniscus
B larger one top of meniscus
C smaller one bottom of meniscus
D smaller one top of meniscus
2 Which distance / time graph represents the motion of an object moving at constant speed?
A
00
distance
time
B
00
distance
time
C
00
distance
time
D
00
distance
time
3
© UCLES 2014 0625/11/M/J/14 [Turn over
3 The graph shows how the speed of a car changes with time.
0
14
0 24 time / s
speedm / s
Which calculation gives the distance travelled by the car in 24 seconds?
A m24
14
B m14
24
C m 2
1424
×
D )( 1424 × m
4 Which instrument is used to compare the masses of objects?
A a balance
B a barometer
C a manometer
D a measuring cylinder 5 A liquid has a volume of 100 cm3 and a mass of 85 g. The density of water is 1.0 g / cm3
.
How does the density of the liquid compare with the density of water?
A Its density is higher than that of water.
B Its density is lower than that of water.
C Its density is the same as that of water.
D It is impossible to say with only this data.
4
© UCLES 2014 0625/11/M/J/14
6 A plane lamina with centre of mass X touches the ground at point P.
Which diagram shows the lamina in equilibrium?
P
A
P
B
P
C
P
D
45° 45°
70°20°
X X
X X
5
© UCLES 2014 0625/11/M/J/14 [Turn over
7 A student adds weights to an elastic cord. He measures the length of the cord for each weight.
He then plots a graph from the results, as shown.
00
weight
What has he plotted on the vertical axis?
A measured length
B original length
C (measured length + original length)
D (measured length – original length) 8 Which energy transfer takes place when a matchstick burns?
A chemical to thermal
B chemical to nuclear
C nuclear to chemical
D thermal to chemical 9 Four cars are driven along a road.
The table shows the work done by the engine in each car and the time taken by each car.
Which engine produces the most power?
work done by
engine / J time taken / s
A 50 000 20
B 50 000 40
C 100 000 20
D 100 000 40
6
© UCLES 2014 0625/11/M/J/14
10 Which situation is an example of a force acting over a large area to produce a small pressure?
A a builder hammering a nail into a piece of wood
B a cook using a sharp knife to cut vegetables
C a nurse pushing a needle into a patient’s arm
D a soldier marching in flat-soled boots 11 A student places four identical beakers on a bench.
Two beakers contain salt water of density 1.1 g / cm3 and two beakers contain pure water of density 1.0 g / cm3.
Which beaker exerts the greatest pressure on the bench?
A B C D
150 cm3
of saltwater
100 cm3
of purewater
150 cm3
of purewater
100 cm3
of saltwater
12 A student places his thumb firmly on the outlet of a bicycle pump, to stop the air coming out.
direction of motion
handle
trapped air
What happens to the pressure and what happens to the volume of the trapped air as the pump handle is pushed in?
pressure volume
A decreases decreases
B decreases remains the same
C increases decreases
D increases remains the same
7
© UCLES 2014 0625/11/M/J/14 [Turn over
13 During evaporation, molecules escape rapidly from the surface of a liquid.
What happens to the average energy of the molecules of the remaining liquid and what happens to the temperature of the remaining liquid?
average energy of
remaining molecules temperature of remaining liquid
A decreases decreases
B decreases increases
C stays the same decreases
D stays the same increases
14 A telephone engineer connects a wire between two poles when the weather is very cold.
He makes the wire very loose. The wire passes over a road.
pole pole
very loose wire
The weather changes and it becomes very hot. What could happen to the wire and why?
what could happen why
A it breaks it contracts
B it breaks it expands
C it sags and touches cars on the road it contracts
D it sags and touches cars on the road it expands
8
© UCLES 2014 0625/11/M/J/14
15 In an experiment, a thermometer is placed in a test-tube of hot liquid. The temperature of the liquid is recorded every half minute. The table shows the results.
time / minutes 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5
temperature / °C 73 65 59 55 55 55 51 48 45 42 40 38 36 35 34 33
What is the melting point of the substance?
A 0 °C B 33 °C C 55 °C D 73 °C 16 Which statement about the transfer of thermal energy is correct?
A All metals conduct thermal energy equally well.
B Convection can only occur in solids or liquids.
C Convection occurs in liquids because hot liquid is more dense than cold liquid.
D The radiation that transfers thermal energy is a type of electromagnetic radiation. 17 The diagram shows a heater above a thermometer. The thermometer bulb is in the position
shown.
thermometer thermometer bulb
air
heater
Which row shows how the heat energy from the heater reaches the thermometer bulb?
conduction convection radiation
A yes yes no
B yes no yes
C no yes no
D no no yes
9
© UCLES 2014 0625/11/M/J/14 [Turn over
18 Scout P signals to scout Q on the other side of a valley by using a mirror to reflect the Sun’s rays.
mirror
scout P Sun’s rays
scout Q
Which mirror position would allow the Sun’s rays to be reflected to scout Q?
Sun’srays
Sun’srays
Sun’srays
Sun’srays
mirrorA B C D
19 A small boat in a harbour is protected from waves on the sea by harbour walls.
seasealand sea
smallboat
harbour
harbourwalls
waves
Some waves can curve round the harbour walls and reach the boat.
What is the name of this effect?
A diffraction
B dispersion
C reflection
D refraction
10
© UCLES 2014 0625/11/M/J/14
20 Which list shows electromagnetic waves in order of increasing frequency?
A visible light, X-rays, γ-rays
B visible light, γ-rays, X-rays
C X-rays, γ-rays, visible light
D γ-rays, X-rays, visible light 21 Which statement about a converging lens is not correct?
A A ray parallel to the principal axis of the lens is refracted through the principal focus.
B All rays of light refracted by the lens pass through the principal focus.
C The distance between the centre of the lens and the principal focus is the focal length.
D The principal focus of the lens is a point on the principal axis. 22 Rays of light enter and leave a box.
ray 1
ray 2
ray 1
ray 2
What could be inside the box to make the rays behave as shown?
A a converging lens
B a parallel-sided glass block
C a plane mirror
D a triangular prism 23 A boy blows a whistle that has a frequency of 10 000 Hz. The boy’s friend cannot hear the sound
from the whistle. The friend has normal hearing.
What could be a reason why he cannot hear the sound?
A The amplitude is too large.
B The amplitude is too small.
C The frequency is too high.
D The frequency is too low.
11
© UCLES 2014 0625/11/M/J/14 [Turn over
24 A lighted candle is placed in front of a loudspeaker that is making a loud, steady note. The candle flame vibrates because of the sound wave.
candle flameloudspeaker
Which type of waves are sound waves and in which direction does the flame vibrate?
type of wave direction of vibration
A longitudinal
B transverse
C longitudinal
D transverse
25 Two iron nails hang from a bar magnet.
Which diagram shows the magnetic poles induced in the nails?
A
N
N
N
S
S
S
B
N
S
N
S
N
S
C
N
N
S
S
S
N
D
N
S
S
S
N
N
barmagnet
12
© UCLES 2014 0625/11/M/J/14
26 A steel magnet is placed inside a coil of wire. There is a large alternating current in the coil. The magnet is slowly moved out of the coil to position P.
steel magnet movedout of coil
12 V a.c.
P
coil of wire
How has the steel changed, if at all, when it reaches position P?
A It has become a stronger magnet.
B It has become demagnetised.
C The poles have changed ends.
D There has been no change. 27 A plastic rod and a dry cloth are uncharged.
The rod is now rubbed with the cloth and they both become charged. The rod becomes negatively charged because some charged particles move from the cloth to the rod.
What is the charge on the cloth and which particles moved in the charging process?
charge on
cloth particles that
moved
A negative electrons
B negative neutrons
C positive electrons
D positive neutrons
13
© UCLES 2014 0625/11/M/J/14 [Turn over
28 The diagram shows an incomplete circuit.
AX Y
Four wires of different length and thickness are connected in turn between point X and point Y. All four wires are made of the same metal.
Which wire will cause the greatest reading on the ammeter?
A long and thick
B long and thin
C short and thick
D short and thin 29 The diagram shows a circuit containing a battery, a lamp, a switch and another component X.
The switch is initially closed and the lamp is lit.
The switch is now opened and the lamp remains lit for several seconds before slowly going out.
component X
What is component X?
A a capacitor
B a light-dependent resistor
C a thermistor
D a variable resistor
14
© UCLES 2014 0625/11/M/J/14
30 The diagram shows a circuit containing three lamps and three switches S1, S2 and S3.
lamp 1
lamp 2
lamp 3
S1 S2
S3
Lamp 1 and lamp 3 are lit, but lamp 2 is not lit.
Which switch or switches is/are closed?
A S1 only
B S1 and S2
C S1 and S3
D S2 and S3 31 The diagram shows part of an electric circuit.
12 V
0 V
V
The light falling on the light-dependent resistor (LDR) increases in brightness. What happens to the resistance of the LDR and what happens to the reading on the voltmeter?
resistance of
LDR reading on voltmeter
A decreases decreases
B decreases increases
C increases decreases
D increases increases
15
© UCLES 2014 0625/11/M/J/14 [Turn over
32 Which labelled component in the circuit shown controls the brightness of lamp X?
V
A
B
D
C
X
33 An appliance is connected to a mains supply. Its circuit also contains a switch and a fuse.
Which circuit shows the fuse in the correct position?
live
neutral
appliance
live
neutral
appliance
live
neutral
appliance
live
neutral
appliance
A B
C D
16
© UCLES 2014 0625/11/M/J/14
34 An electric current is passed through a coil of wire.
coil of wire
Which diagram shows the shape of the magnetic field produced in the middle of the coil?
A B
C D
17
© UCLES 2014 0625/11/M/J/14 [Turn over
35 When a wire is moved upwards between the poles of a magnet, an electromotive force (e.m.f.) is induced across the ends of the wire.
wire
motionof wire
N
S
Which device uses a moving wire to induce an e.m.f.?
A a cathode-ray tube
B a generator
C a transformer
D an electromagnet 36 An input voltage of 10 V is supplied to the primary coil of a transformer. An output voltage of 40 V
is produced across the secondary coil.
The 10 V supply at the primary coil is now replaced with a 40 V supply.
What is the new output voltage across the secondary coil?
A 10 V B 40 V C 70 V D 160 V 37 A beam of cathode rays passes between two parallel metal plates connected to a high-voltage
d.c. power supply.
Which path does the beam follow?
+ + +
cathode
rays
D
C
B
A
+ + +
metal plate
metal plate
18
© UCLES 2014 0625/11/M/J/14
38 The table shows the results of an experiment to find the half-life of a radioactive substance.
time / s second/counts
substance from rate count
0 150
60 120
120 95
180 75
240 60
What is the half-life of the substance?
A 60 seconds
B 120 seconds
C 180 seconds
D 240 seconds 39 The diagram shows a box used for storing radioactive sources.
Which material is best for lining the box to prevent the escape of most radioactive emissions?
A aluminium
B copper
C lead
D steel 40 A lithium nucleus contains 3 protons and 4 neutrons.
What is its nuclide notation?
A Li3
4 B Li
4
3 C Li
7
3 D Li
7
4
20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2014 0625/11/M/J/14
BLANK PAGE
This document consists of 20 printed pages.
IB08 11_0625_01/3RP © UCLES 2008 [Turn over
*7002360314*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/01
Paper 1 Multiple Choice October/November 2008
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
www.xtremepapers.net
2
© UCLES 2008 0625/01/O/N/08
1 Two digital stopwatches X and Y, which record in minutes and seconds, are used to time a race.
The readings of the two stopwatches, at the start and at the end of the race, are shown.
start
00:00
end
start end
00:40stopwatch X
01:30 02:20stopwatch Y
Which statement about the time of the race is correct?
A Both stopwatches record the same time interval.
B Stopwatch X recorded 10 s longer than stopwatch Y.
C Stopwatch Y recorded 10 s longer than stopwatch X.
D Stopwatch Y recorded 50 s longer than stopwatch X. 2 A tennis player hits a ball over the net.
P
Q
R
In which position is the ball accelerating?
A P and Q only
B P and R only
C Q and R only
D P, Q and R
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© UCLES 2008 0625/01/O/N/08 [Turn over
3 A car travels at various speeds during a short journey.
The table shows the distances travelled and the time taken during each of four stages P, Q, R and S.
stage P Q R S
distance travelled / km 1.8 3.6 2.7 2.7
time taken / minutes 2 2 4 3
During which two stages is the car travelling at the same speed?
A P and Q B P and S C Q and R D R and S 4 What is the meaning of the weight of an object?
A the density of the material from which it is made
B the force exerted on it by gravity
C the mass of the matter it contains
D the pressure it exerts on the floor 5 The weight of an object is to be found using the beam balance shown in the diagram.
?object
The object is put in the left-hand pan and various standard weights are put in the right-hand pan, with the following results.
weights in the right hand pan effect
0.1 N, 0.1 N, 0.05 N, 0.02 N balance tips down slightly on the left-hand side
0.2 N, 0.1 N, 0.01 N balance tips down slightly on the right-hand side
What is the best estimate of the weight of the object?
A 0.27 N B 0.29 N C 0.31 N D 0.58 N
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6 A student needs to find the density of a cubic block of wood.
Which two pieces of apparatus should she use?
A balance and metre rule
B balance and thermometer
C measuring cylinder and metre rule
D measuring cylinder and thermometer 7 Two identical measuring cylinders containing different liquids are placed on a simple balance.
They balance as shown.
liquid Xvolume = 200 cm3 liquid Y
volume = 100 cm3
How does the density of X compare with the density of Y?
A density of X = 2
1 × density of Y
B density of X = density of Y
C density of X = 2 × density of Y
D density of X = 4 × density of Y
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© UCLES 2008 0625/01/O/N/08 [Turn over
8 The diagrams show a uniform rod with its midpoint on a pivot.
Two equal forces F are applied to the rod, as shown.
Which diagram shows the rod in equilibrium?
A
F
F
pivot
BFF
pivot
C
F Fpivot
D
F
F
pivot 9 A train is travelling along a horizontal track at constant speed. Two of the forces acting on the
train are shown in the diagram.
force from engine60 000 Nfriction
20 000 N
forwards
A force of air resistance is also acting on the train to give it a resultant force of zero.
What is this air resistance force?
A 40 000 N backwards
B 80 000 N backwards
C 40 000 N forwards
D 80 000 N forwards
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10 The diagram shows water stored behind a dam.
water
dam
turbine
generator
water
The water flows to a turbine and turns a generator.
Which sequence for the conversion of energy is correct?
A gravitational energy → kinetic energy → electrical energy
B kinetic energy → gravitational energy → electrical energy
C gravitational energy → electrical energy → kinetic energy
D kinetic energy → electrical energy → gravitational energy 11 A rubber ball is dropped from a height of 2 m on to a table.
Whilst in contact with the table, some of its energy is converted into internal energy.
What is the highest possible point the ball could reach after bouncing?
ball releasedfrom this height
4 m
2 m
height
0
A
B
C
D
table
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© UCLES 2008 0625/01/O/N/08 [Turn over
12 The diagram shows a simple mercury barometer used to measure atmospheric pressure.
P
Qmercury
Which statement is correct?
A The pressure at P is atmospheric pressure.
B The pressure at P is nearly zero.
C The pressure at Q is lower than the pressure at P.
D The pressure at Q is nearly zero.
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13 A brick with rectangular sides rests on a table.
bricktable
The brick is now turned so that it rests on the table on its smallest face.
How has this change affected the force and the pressure exerted by the brick on the table?
force pressure
A unchanged unchanged
B increased unchanged
C unchanged increased
D increased increased
14 Viewed through a microscope, very small particles can be seen moving with Brownian motion.
Which line in the table is correct?
type of motion
of particles particles are suspended in
A vibration a liquid or a gas
B vibration a solid, a liquid or a gas
C random a liquid or a gas
D random a solid, a liquid or a gas
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© UCLES 2008 0625/01/O/N/08 [Turn over
15 The pressure of a fixed mass of gas in a cylinder is measured. The volume of the gas in the cylinder is then slowly decreased.
Which graph could show the change of pressure of the gas during this process?
pressure
time
A
00
pressure
time
B
pressure
time
C
pressure
time
D
00
00
00
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10
© UCLES 2008 0625/01/O/N/08
16 Equal masses of two different liquids are heated using the same heater. The graph shows how the temperature of each liquid changes with time.
temperature
time
liquid 1
liquid 2
00
What does the graph tell us about the liquids?
A Liquid 1 has a higher melting point than liquid 2.
B Liquid 1 has a higher boiling point than liquid 2.
C Liquid 1 starts to melt sooner than liquid 2.
D Liquid 1 starts to boil sooner than liquid 2. 17 An engineer wants to fix a steel washer on to a steel rod. The rod is just too big to fit into the hole
of the washer.
steel rodsteelwasher
How can the engineer fit the washer on to the rod?
A Cool the washer and put it over the rod.
B Cool the washer and rod to the same temperature and push them together.
C Heat the rod and then place it in the hole.
D Heat the washer and then place it over the rod.
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© UCLES 2008 0625/01/O/N/08 [Turn over
18 A cup with a lid contains a hot drink.
lid
hot drink
When the lid is removed, the rate of heat loss from the drink increases.
What causes this?
A convection only
B evaporation only
C both convection and evaporation
D neither convection nor evaporation 19 A cupboard is placed in front of a heater. Air can move through a gap under the cupboard.
wall
floor
heatercupboard
air moves through gap
Which line in the table describes the temperature and the direction of the air that moves through the gap?
air temperature air direction
A cool away from the heater
B cool towards the heater
C warm away from the heater
D warm towards the heater
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© UCLES 2008 0625/01/O/N/08
20 Waves in a tank pass from shallow to deep water.
The wavefront diagram is shown.
shallowwater
deepwater
wavefront
Which quantity increases as the waves enter the deep water?
A amplitude
B frequency
C wave energy
D wavelength 21 The diagrams represent water waves in a tank.
Which diagram represents waves that change speed?
D
deeperwater
shallowerwater
Abarrier
Bbarrier
Cbarrier
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13
© UCLES 2008 0625/01/O/N/08 [Turn over
22 Which diagram shows the dispersion of white light?
A B
whitelight
whitelight
C D
whitelight
whitelight
glass
glass
glass
glass
23 In the diagram, the distance OP is the focal length of the lens.
Through which point will the ray shown pass, after refraction by the lens?
O P B
C
A
D
focal lengthfocal length
lens
24 Which word correctly completes the sentence below?
An echo is a sound wave which is ………… by a large obstacle.
A absorbed
B dispersed
C reflected
D refracted
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© UCLES 2008 0625/01/O/N/08
25 In an experiment to measure the speed of sound, a student uses a stopwatch to find how long a sound takes to travel from X to Y. She does this six times.
sound travels from X to Y
X Y
The table shows her results.
time / s
first 0.5
second 0.7
third 0.6
fourth 0.4
fifth 0.9
sixth 0.5
What value for the time should be used to calculate the speed of sound?
A 0.4 s B 0.5 s C 0.6 s D 0.9 s 26 A student wishes to demagnetise a steel bar. He uses the apparatus shown.
electricalsupply
coil
steel bar
Which type of electrical supply should the student use and what should he do with the steel bar?
supply what to do with the steel bar
A a.c. keep it inside the coil
B a.c. slowly remove it from the coil
C d.c. keep it inside the coil
D d.c. slowly remove it from the coil
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15
© UCLES 2008 0625/01/O/N/08 [Turn over
27 Two metal bars are held together. At least one of the bars is a magnet. The bars repel each other.
What does this show about the bars and why?
what it shows why
A only one of the bars is a magnet two magnets always attract each other
B only one of the bars is a magnet induced magnetism in the other bar makes it repel
C they are both magnets there must be like poles facing each other
D they are both magnets there must be opposite poles facing each other
28 When there is an electric current in a metal wire, what flows through the wire?
A atoms
B electrons
C neutrons
D protons 29 The table shows the voltage and current ratings for four electric heaters.
Which heater has the least resistance?
voltage / V current / A
A 110 5.0
B 110 10.0
C 230 5.0
D 230 10.0
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© UCLES 2008 0625/01/O/N/08
30 In the circuit below, X and Y are identical 6 V lamps.
switchX
Y
6 V
What happens when the switch is closed (the current is switched on)?
A X lights more brightly than Y.
B Y lights more brightly than X.
C X and Y both light with full brightness.
D X and Y both light with half brightness. 31 The diagram shows four different circuits.
3 Ω
P
3 Ω 5 Ω
R
5 Ω
Q
S
3 Ω
5 Ω
What is the order of increasing resistance of these circuits?
lowest
resistance
highest resistance
A P Q R S
B R S P Q
C S P Q R
D P R Q S
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17
© UCLES 2008 0625/01/O/N/08 [Turn over
32 A student makes four circuits.
In which circuit are both lamps protected by the fuse?
A B
C D
33 A mains circuit can safely supply a current of 40 A.
A hairdryer takes 2 A. It is connected to the circuit by a lead which can safely carry up to 5 A.
Which fuse is best to use in the plug fitted to the hairdryer lead?
A 1 A fuse B 3 A fuse C 10 A fuse D 50 A fuse 34 Two different systems are used to transmit equal amounts of electrical power from one building to
another.
One system uses low voltage and the other uses high voltage. Both systems use identical wires.
Which line in the table is correct about which system wastes least energy and why?
least energy wasted why
A high voltage system the current in the wires is bigger
B high voltage system the current in the wires is smaller
C low voltage system the current in the wires is bigger
D low voltage system the current in the wires is smaller
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© UCLES 2008 0625/01/O/N/08
35 When the electric current in wire XY is in the direction shown, there is an upward force on the wire.
current
magnet magnet
N S
force
X
Y
If the north and south poles of the magnet exchange positions, in which direction will the force on the wire act?
A downwards
B upwards
C to the left
D to the right 36 A cathode-ray beam passes through an electric field between charged parallel plates.
cathode-ray beam
+
–
In which direction is the beam deflected?
A towards the negative plate
B towards the positive plate
C into the page
D out of the page
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19
© UCLES 2008 0625/01/O/N/08 [Turn over
37 When the thermistor in the circuit below is heated, the lamp becomes brighter.
Why does this happen?
A The resistance of the lamp decreases.
B The resistance of the lamp increases.
C The resistance of the thermistor decreases.
D The resistance of the thermistor increases. 38 The diagram shows an experiment to monitor the radiation from a radioactive gas. The counter
readings are corrected for background radiation.
counter000.0
radioactive gas
The table shows how the counter reading varies with time.
time / seconds 0 20 40 60 80 100 120 140 160 180
counter reading / counts per minute
140 105 82 61 44 36 27 20 15 10
What is the half-life of the gas?
A between 20 and 40 seconds
B between 40 and 60 seconds
C between 60 and 140 seconds
D between 140 and 180 seconds
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20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2008 0625/01/O/N/08
39 Which material is commonly used as a lining for a box for storing radioactive samples?
A aluminium
B copper
C lead
D uranium
40 A uranium U238
92 nucleus emits an α-particle.
What are the new nucleon and proton numbers?
nucleon number proton number
A 238 88
B 236 90
C 234 92
D 234 90
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This document consists of 16 printed pages.
IB09 11_0625_01/4RP
© UCLES 2009 [Turn over
*7565115686*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS
International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice October/November 2009
45 minutes
Additional Materials: Multiple Choice Answer Sheet
Soft clean eraser
Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided
unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible
answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
egyptigstudentroom.comegyptigstudentroom.com
2
© UCLES 2009 0625/11/O/N/09
1 A stopwatch is used to time an athlete running 100 m. The timekeeper forgets to reset the watch
to zero before using it to time another athlete running 100 m.
60
30
10
45
5
15
20
2535
40
50
55
seconds
60
30
10
45
5
15
20
2535
40
50
55
seconds
stopwatch atend of first
athlete’s run
stopwatch atend of secondathlete’s run
How long does the second athlete take to run 100 m?
A 11.2 s B 11.4 s C 12.4 s D 23.8 s
2 A ball is thrown upwards.
What effect does the force of gravity have on the ball?
A It produces a constant acceleration downwards.
B It produces a constant acceleration upwards.
C It produces a decreasing acceleration upwards.
D It produces an increasing acceleration downwards.
3 A car accelerates from traffic lights. The graph shows the car’s speed plotted against time.
time / s
20
100
0
speedm/s
How far does the car travel before it reaches a constant speed?
A 10 m B 20 m C 100 m D 200 m
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3
© UCLES 2009 0625/11/O/N/09 [Turn over
4 Which property of a body can be measured in newtons?
A density
B mass
C volume
D weight
5 A cup contains hot liquid.
Some of the liquid evaporates as it cools.
What happens to the mass and to the weight of the liquid in the cup as it cools?
mass weight
A decreases decreases
B decreases stays the same
C stays the same decreases
D stays the same stays the same
6 The diagrams show a rectangular box with inside measurements of 5 cm × 6 cm × 4 cm.
4cm
5cm
6cm
liquid
total mass = 220gmass = 40g
The box has a mass of 40 g when empty. When filled with a liquid, it has a total mass of 220 g.
What is the density of the liquid?
A
)46(5
220
××
g / cm3
B
)46(5
)40220(
××
−
g / cm3
C
220
)46(5 ××
g / cm3
D
40)(220
4)6(5
−
××
g / cm3
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© UCLES 2009 0625/11/O/N/09
7 Passengers are not allowed to stand on the upper deck of double-decker buses.
upper deck
lower deck
Why is this?
A They would cause the bus to become unstable.
B They would cause the bus to slow down.
C They would increase the kinetic energy of the bus.
D They would lower the centre of mass of the bus.
8 The object in the diagram is acted upon by the two forces shown.
object3N 2 N
What is the effect of these forces?
A The object moves to the left with constant speed.
B The object moves to the left with constant acceleration.
C The object moves to the right with constant speed.
D The object moves to the right with constant acceleration.
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© UCLES 2009 0625/11/O/N/09 [Turn over
9 The diagram shows a microphone being used in an interview.
microphone
Which energy change takes place in the microphone?
input energy output energy
A chemical electrical
B electrical chemical
C electrical sound
D sound electrical
10 The table shows the times taken for four children to run up a set of stairs.
Which child’s power is greatest?
mass of child / kg time / s
A 40 10
B 40 20
C 60 10
D 60 20
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© UCLES 2009 0625/11/O/N/09
11 A water manometer is used to measure the pressure of a gas supply to a house. It gives a
reading of h cm of water.
gassupply
h cm
Why is it better to use water rather than mercury in this manometer?
A h would be too large if mercury were used.
B h would be too small if mercury were used.
C The tube would need to be narrower if mercury were used.
D The tube would need to be wider if mercury were used.
12 The diagrams show two swimming pools. One contains fresh water and the other contains salt
water. Salt water is more dense than fresh water.
At which labelled point is the pressure the greatest?
A
B
fresh water (less dense)
C
D
salt water (more dense)
water surface water surface
13 Brownian motion is observed by looking at smoke particles through a microscope.
How do the smoke particles move in Brownian motion?
A all in the same direction
B at random
C in circles
D vibrating about fixed points
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© UCLES 2009 0625/11/O/N/09 [Turn over
14 A small amount of air is introduced into the vacuum above the mercury in a mercury barometer
tube.
The mercury level goes down.
Why does the mercury level go down?
A The air molecules cool the mercury and make it contract.
B The air molecules decrease the pressure above the mercury.
C The air molecules heat the mercury and make it expand.
D The air molecules increase the pressure above the mercury.
15 To mark a temperature scale on a thermometer, standard temperatures known as fixed points are
needed.
Which of these is a fixed point?
A room temperature
B the temperature inside a freezer
C the temperature of pure melting ice
D the temperature of pure warm water
16 The table gives the melting points and boiling points of glycerine and benzene.
melting point boiling point
glycerine 18 °C 290 °C
benzene 5.4 °C 80 °C
At which temperature will both glycerine and benzene be liquid?
A 0 °C B 50 °C C 100 °C D 150 °C
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© UCLES 2009 0625/11/O/N/09
17 A beaker contains water at room temperature.
X
Y
water
How could a convection current be set up in the water?
A cool the water at X
B cool the water at Y
C stir the water at X
D stir the water at Y
18 A student warms her hands near a fire.
Which waves carry most heat to her hands and are these waves electromagnetic?
waves electromagnetic
A infra-red no
B infra-red yes
C visible light no
D visible light yes
19 The drawing shows a wave.
Which labelled distance is the wavelength?
AB
C
D
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© UCLES 2009 0625/11/O/N/09 [Turn over
20 Sound waves travel from a point X to another point Y.
X Y
Which diagram represents the movement of the air molecules, caused by the sound waves, in the
region between X and Y.
X Y
DCBA
21 A ray of light in glass is incident on a boundary with air.
Which path does the ray of light take when the angle of incidence i is less than the critical angle?
A
B
CD
airglass
i
ray oflight
22 An object O is placed in front of a converging lens of focal length f.
At which point will the top of the image be seen?
O
ff
AB
CD
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© UCLES 2009 0625/11/O/N/09
23 Which range of frequencies typically can be heard by a 10 year-old child?
A 20 Hz – 2000 Hz
B 20 Hz – 20 000 Hz
C 200 Hz – 2000 Hz
D 200 Hz – 20 000 Hz
24 Astronaut 1 uses a hammer to mend a satellite in space. Astronaut 2 is nearby. There is no air in
space.
astronaut 1 astronaut 2hammer
Compared with the sound heard if they were working on Earth, what does astronaut 2 hear?
A a louder sound
B a quieter sound
C a sound of the same loudness
D no sound at all
25 A permanent magnet is brought near to a piece of copper. The copper is not attracted by the
magnet.
Why is there no attraction?
A Copper is ferrous but is only attracted by an electromagnet.
B Copper is ferrous but is not attracted by any type of magnet.
C Copper is not ferrous and is only attracted by an electromagnet.
D Copper is not ferrous and is not attracted by any type of magnet.
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© UCLES 2009 0625/11/O/N/09 [Turn over
26 Four plotting compasses are placed in the magnetic field of two identical bar magnets as shown
in the diagram.
Which compass is shown pointing in the wrong direction?
S N N S
A
C
D
B
27 A pupil measures the potential difference across a device and the current in it.
Which calculation gives the resistance of the device?
A current + potential difference
B current ÷ potential difference
C potential difference ÷ current
D potential difference × current
28 A student uses a length of wire as a resistor. He discovers that the resistance of the wire is too
small.
To be certain of making a resistor of higher value, he should use a piece of wire that is
A longer and thicker.
B longer and thinner.
C shorter and thicker.
D shorter and thinner.
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© UCLES 2009 0625/11/O/N/09
29 The diagram shows a battery connected to two identical resistors. Three ammeters M1, M
2 and
M3 are connected in the circuit.
M1
M2
M3A
A
A
Meter M1 reads 1.0 A.
What are the readings on M2 and on M
3?
reading on M2
/ A reading on M3
/ A
A 0.5 0.0
B 0.5 0.5
C 0.5 1.0
D 1.0 1.0
30 The diagram shows a torch containing two cells, a switch and a lamp.
plasticcase
brassconnecting
stripswitch
lamp
What is the circuit diagram for the torch?
CBA D
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© UCLES 2009 0625/11/O/N/09 [Turn over
31 An electrical component X is placed in water, as shown.
X
thermometer
water
A
When the temperature of the water is increased, the reading on the ammeter increases.
What is component X?
A a capacitor
B a light-dependent resistor
C a relay
D a thermistor
32 A certain electrical appliance is powered from a mains supply. The appliance normally uses a
current of 3 A, but the current briefly rises to 4 A at the instant the appliance is switched on. The
cable to the appliance is designed for currents up to 6 A.
The fuses available to protect the cable are rated at 1 A, 3 A, 5 A and 13 A.
Which fuse should be used?
A 1 A B 3 A C 5 A D 13 A
33 On a building site, metal scaffolding is firmly embedded in the damp ground. A builder holds a
mains-operated electric drill in one hand. With his other hand he holds on to the scaffolding.
The power cable of the drill is damaged where it enters the metal casing of the drill.
What danger does this present to the builder?
A A current could pass through the builder and electrocute him.
B A current in the scaffolding could heat it up and burn him.
C The large current could blow the fuse and damage the drill.
D The large current could make the motor spin too quickly.
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14
© UCLES 2009 0625/11/O/N/09
34 Which device is designed to allow a small direct current (d.c.) to control a large direct current
(d.c.)?
A a generator
B a motor
C a relay
D a transformer
35 A transformer is to be used to provide a 10 V output from a 100 V supply.
10V100V
primary coil secondary coil
What are suitable numbers of turns for the primary coil and for the secondary coil?
number of turns on
the primary coil
number of turns on
the secondary coil
A 100 1000
B 200 110
C 400 490
D 800 80
36 The diagram shows a beam of cathode rays entering an electric field.
–
+
beam
In which direction is the beam deflected by the field?
A downwards
B upwards
C into the page
D out of the page
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15
© UCLES 2009 0625/11/O/N/09 [Turn over
37 To create cathode rays in a vacuum, what might be a suitable potential difference to connect
between the cathode and anode?
A 6 V a.c.
B 6 V d.c.
C 600 V a.c.
D 600 V d.c.
38 Which statement explains the meaning of the half-life of a radioactive substance?
A half the time taken for half the substance to decay
B half the time taken for the substance to decay completely
C the time taken for half the substance to decay
D the time taken for the substance to decay completely
39 The diagram shows the paths of three different types of radiation, X, Y and Z.
X
Y
Z
2mm ofplastic
10 mmof aluminium
lead
Which row in the table correctly identifies X, Y and Z?
X Y Z
A α-particles β-particles γ-rays
B β-particles α-particles γ-rays
C β-particles γ-rays α-particles
D γ-rays α-particles β-particles
Question 40 is on the next page.
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Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every
reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the
publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of
Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2009 0625/11/O/N/09
40 How many neutrons and how many protons are contained in a nucleus of U
238
92?
neutrons protons
A 92 146
B 146 92
C 146 238
D 238 92
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This document consists of 18 printed pages and 2 blank pages.
IB10 11_0625_11/3RP
© UCLES 2010 [Turn over
*0588341704*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS
International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice October/November 2010
45 minutes
Additional Materials: Multiple Choice Answer Sheet
Soft clean eraser
Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided
unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible
answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
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2
© UCLES 2010 0625/11/O/N/10
1 The diagrams show an experiment to determine the volume of a stone.
cm3 cm310 9 8 7 6 5 4 3 2 1
10 9 8 7 6 5 4 3 2 1
without stone with stone
stone
What is the volume of the stone?
A 3 cm3
B 4 cm3
C 7 cm3
D 11 cm3
2 Four athletes run twice around a track. The table shows their times at the end of each lap.
Which athlete runs the second lap the fastest?
athlete time at end of first lap / s time at end of second lap / s
A 22.99 47.04
B 23.04 47.00
C 23.16 47.18
D 23.39 47.24
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© UCLES 2010 0625/11/O/N/10 [Turn over
3 The diagram shows the speed / time graph for an object moving at constant speed.
2
00 3 4
time / s
speedm / s
1
1 2
What is the distance travelled by the object in the first 3 s?
A 1.5 m B 2.0 m C 3.0 m D 6.0 m
4 A car travels along the route PQRST in 30 minutes.
P
Q
R
S
T
10 km
5 km
5 km 10 km
What is the average speed of the car?
A 10 km / hour B 20 km / hour C 30 km / hour D 60 km / hour
5 Which list contains the name of a force?
A acceleration, charge, temperature
B density, resistance, speed
C distance, frequency, mass
D energy, power, weight
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6 The reading on a spring balance with a holder and eight identical discs is 3.0 N.
Six discs are removed and the reading becomes 1.2 N.
0
1
2
3
4
N springbalance
holderfor discs
eightdiscs
two discs
0
1
2
3
4
N
What is the weight of one disc?
A 0.2 N B 0.3 N C 0.5 N D 0.6 N
7 A student is trying to find the density of water and of a large, regularly shaped concrete block.
Which apparatus is needed to find the density of both the water and the concrete block?
A balance, clock, measuring cylinder
B balance, clock, ruler
C balance, measuring cylinder, ruler
D clock, measuring cylinder, ruler
8 A force acts on a moving rubber ball.
Which of these changes could not happen to the ball because of the force?
A a change in direction
B a change in mass
C a change in shape
D a change in speed
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© UCLES 2010 0625/11/O/N/10 [Turn over
9 The extension / load graph for a spring is shown. The unloaded length of the spring is 15.0 cm.
3
2
1
00 1 2 3 4 5
load / N
extension / cm
When an object of unknown weight is hung on the spring, the length of the spring is 16.4 cm.
What is the weight of the object?
A 0.55 N B 0.67 N C 3.5 N D 4.1 N
10 Which of these is designed to change electrical energy into kinetic energy?
A a capacitor
B a generator
C a motor
D a transformer
11 A car is driven on a long journey along a flat, horizontal road. The car stops several times on the
journey and its engine becomes hot.
Which type of energy does not change during the journey?
A the chemical energy in the fuel tank
B the gravitational energy of the car
C the internal (thermal) energy of the engine
D the kinetic energy of the car
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12 What is a simple mercury barometer designed to measure?
A the pressure beneath a liquid
B the pressure of a gas supply
C the pressure of car tyres
D the pressure of the atmosphere
13 Liquid X has a density of 1010 kg / m3
. Liquid Y has a density of 950 kg / m3
.
The liquids are poured into tubes as shown.
Which tube has the greatest pressure on its base?
A
liquid X
B
liquid Y
C
liquid X
D
liquid Y
14 Some gas in a sealed plastic bag is cooled.
How do the gas molecules behave when this happens?
A They move more quickly and become closer together.
B They move more quickly and become further apart.
C They move more slowly and become closer together.
D They move more slowly and become further apart.
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© UCLES 2010 0625/11/O/N/10 [Turn over
15 A block of ice cream is prevented from melting by wrapping it in newspaper soaked in water. The
water evaporates from the newspaper.
Which molecules escape from the water and what happens to the average speed of the water
molecules that remain in the newspaper?
escaping molecules
average speed of the
remaining water molecules
A the more energetic ones decreases
B the more energetic ones increases
C the less energetic ones decreases
D the less energetic ones increases
16 Which change is condensation?
solid liquid gas
A
C
B
D
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17 A beaker containing ice and a thermometer is left in a warm room for 15 minutes.
No water is visible in the beaker until 5 minutes has passed. After 15 minutes some ice is still
visible.
start ofexperiment
after 5 minutes
after15 minutes
water
ice ice
Which graph shows how the thermometer reading changes?
5 10 15
0
temperature/ °C
time / min
A
5 10 15
0
temperature/ °C
time / min
B
5 10 15
0
temperature/ °C
time / min
C
5
0 0
0 0 10 15
0
temperature/ °C
time / min
D
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© UCLES 2010 0625/11/O/N/10 [Turn over
18 A piece of wood has some iron nails pushed through it. One side of the wood is covered with heat
sensitive paper which turns from pink to blue when heated. The wood is heated as shown for a
few minutes and blue dots appear on the heat sensitive paper where it touches the nails.
heat sensitive paperwood
heat ironnails
bluedots
This experiment shows that, compared to wood, iron is a good
A absorber of heat.
B conductor of heat.
C convector of heat.
D emitter of heat.
19 An electric heater is placed inside a metal box which has one side open. The diagram shows four
possible positions for the box.
The heater is switched on for several minutes.
In which position does the box become the hottest?
A B C D
heater
box
heater
box
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20 Which group contains only transverse waves?
A infra-red waves, light waves, sound waves
B infra-red waves, light waves, ultra-violet waves
C infra-red waves, ultra-violet waves, sound waves
D light waves, sound waves, ultra-violet waves
21 Water waves in a tank pass over a thin plastic block as shown.
tank
plastic block
What happens to the waves as they reach the plastic block?
A They are diffracted because they slow down.
B They are diffracted because they speed up.
C They are refracted because they slow down.
D They are refracted because they speed up.
22 A girl writes the word LEFT on a piece of card.
LEFT
She looks at the image of this card, made by reflection by a plane mirror.
What does she see?
A B C D
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© UCLES 2010 0625/11/O/N/10 [Turn over
23 A scientist is trying to direct a ray of light through a glass block without any light leaving the top of
the block. However, some light does leave the top.
X glass block
ray of light
top of block light leaving top
The scientist changes angle X and stops the ray of light leaving the top.
Which row in the table describes the change to angle X and the name of the effect produced?
change to angle X name of effect produced
A decrease total internal reflection
B decrease total internal refraction
C increase total internal reflection
D increase total internal refraction
24 The diagrams represent two different sound waves.
wave P wave Q
time time
displacement displacement
How do the frequency and pitch of P compare with the frequency and pitch of Q?
frequency of P pitch of P
A greater than Q higher than Q
B greater than Q same as Q
C same as Q higher than Q
D same as Q same as Q
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25 A ship sends a pulse of sound vertically downwards to the sea bed. An echo is heard
0.4 seconds later.
If the speed of sound in the water is 1200 m / s, how deep is the water below the ship?
A 240 m B 480 m C 1500 m D 3000 m
26 Which statement about a magnet is not correct?
A It can attract another magnet.
B It can attract an unmagnetised piece of iron.
C It can repel another magnet.
D It can repel an unmagnetised piece of iron.
27 A chain of steel nails and a chain of iron nails hang from a strong magnet. The chains are then
carefully removed from the magnet.
magnet
steel iron
What happens to the chains?
A Both chains fall apart.
B Both chains stay together.
C Only the chain of iron nails falls apart.
D Only the chain of steel nails falls apart.
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© UCLES 2010 0625/11/O/N/10 [Turn over
28 A potential difference (p.d.) across a resistor causes a current in it.
current
resistor
p.d.
The p.d. and the resistance of the resistor can both be changed.
Which row shows two changes that will both increase the current in the resistor?
change change
A decrease p.d. decrease resistance
B decrease p.d. increase resistance
C increase p.d. decrease resistance
D increase p.d. increase resistance
29 The diagram shows a circuit containing two ammeters and three resistors.
R1 R2 R3
ammeter X
ammeterYA A
Which of the ammeters will show the current in resistor R2?
A ammeter X only
B ammeter Y only
C both ammeter X and ammeter Y
D neither ammeter X nor ammeter Y
30 Which component can store energy and can be used in time-delay circuits?
A a capacitor
B a potentiometer
C a resistor
D a thermistor
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© UCLES 2010 0625/11/O/N/10
31 A circuit contains two resistors connected in parallel with a battery.
2 Ω
4 Ω
RP
Q
Which of the following statements about the currents at P, Q and R is true?
A The current at P is the greatest.
B The current at Q is the greatest.
C The current at R is the greatest.
D The current is the same at points P, Q and R.
32 The potential divider shown is connected across a constant 12 V supply.
V1
V2
20 Ω
12 V
R
When R has a value of 20 Ω, the voltmeter readings are equal.
How do these readings change when the value of R is reduced to 10 Ω?
reading on V1 reading on V
2
A decreases decreases
B decreases increases
C increases decreases
D increases increases
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© UCLES 2010 0625/11/O/N/10 [Turn over
33 A fuse is a safety device for use in an electrical appliance.
How does a fuse affect a circuit when the current in it becomes higher than the correct value for
the appliance?
A It completely stops the current.
B It reduces the current to the correct value for the appliance.
C It sends the current to the outer case of the appliance.
D It sends the excess current to the earth wire.
34 Some electrical equipment is connected to a 230 V supply. It is kept inside a metal case which is
not earthed. The case is fixed to a plastic support. A strand of wire has become loose and
touches the metal case as shown.
electrical equipment
cable
metal case on plastic support
strand of wire
Which statement about this situation is correct?
A An electric current is passing through the metal case.
B A fuse in the live wire will blow.
C Someone touching the case would receive an electric shock.
D The metal case is at 0 V.
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© UCLES 2010 0625/11/O/N/10
35 A coil is rotated steadily between the poles of a magnet. The coil is connected to an oscilloscope.
N S
contact contact
oscilloscope
Which graph shows the output voltage V against time t ?
B C DA
V
t
V
t
V
t
V
t
36 A village has to be supplied with electricity from a power station that is a long way from the
village.
Which type of current should be used, and at which voltage?
type of current voltage
A alternating current high voltage
B alternating current low voltage
C direct current high voltage
D direct current low voltage
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© UCLES 2010 0625/11/O/N/10 [Turn over
37 An electric field is set up between two parallel plates.
Cathode rays are directed into this field, parallel to the plates.
cathoderays
+
–
In which direction are the cathode rays deflected by the electric field?
A downwards
B upwards
C into the page
D out of the page
38 A radioactive element has a half-life of 70 s.
The number of emissions per second, N, of a sample of the element is measured at a certain
time.
What was the number of emissions per second 70 s earlier?
A 0 B N / 2 C N D 2N
39 S is a radioactive source emitting α-particles, β-particles and γ-rays. A detector is placed 5 cm
away from S. A thin sheet of paper is placed as shown in the diagram.
S
5 cm
thin sheet of paper
detector
Which radiations can be detected?
A α-particles and β-particles only
B α-particles and γ-rays only
C β-particles and γ-rays only
D α-particles, β-particles and γ-rays
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© UCLES 2010 0625/11/O/N/10
40 In the atomic model, an atom consists of a central mass, orbited by much smaller particles.
central mass
orbiting particles
What is the name of the central mass and of the orbiting particles?
central mass orbiting particles
A neutron α-particles
B neutron electrons
C nucleus α-particles
D nucleus electrons
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Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every
reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the
publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of
Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2010 0625/11/O/N/10
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This document consists of 20 printed pages.
IB11 11_0625_11/3RP © UCLES 2011 [Turn over
*1240126518*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice October/November 2011
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
www.XtremePapers.com
2
© UCLES 2011 0625/11/O/N/11
1 A ruler is used to measure the length of an object.
1 2 3 4 5 6 7 8 9 10cm
object
What is the length of the object?
A 3.0 cm B 4.0 cm C 5.0 cm D 6.5 cm 2 The graph shows how the speed of a car changes with time.
speed
U V W X Y time
0
Between which two times is the car stationary?
A U and V B V and W C W and X D X and Y 3 A child is standing on the platform of a station.
A train travelling at 30 m / s takes 3.0 s to pass the child.
What is the length of the train?
A 10 m B 27 m C 30 m D 90 m
3
© UCLES 2011 0625/11/O/N/11 [Turn over
4 The weight of an object is to be found using the balance shown in the diagram.
object
The object is put in the left-hand pan and various standard weights are put in the right-hand pan. These are the results.
weights in the right-hand pan effect
0.1 N, 0.1 N, 0.05 N, 0.02 N balance tips down slightly on the left-hand side
0.2 N, 0.1 N, 0.01 N balance tips down slightly on the right-hand side
What is the best estimate of the weight of the object?
A 0.27 N B 0.29 N C 0.31 N D 0.58 N
4
© UCLES 2011 0625/11/O/N/11
5 The diagrams show four blocks with the same mass.
Which block is made from the least dense material?
A B
C D
2 cm
1 cm
8 cm
2 cm
3 cm
3 cm
3 cm
2 cm4 cm
2 cm
5 cm
2 cm
6 A student is told to measure the density of a liquid and also of a large cube of metal.
Which pieces of equipment are sufficient to be able to take the measurements needed?
A balance, measuring cylinder and ruler
B balance and thermometer
C measuring cylinder and ruler
D measuring cylinder, ruler and thermometer
5
© UCLES 2011 0625/11/O/N/11 [Turn over
7 A uniform rod rests on a pivot at its centre. The rod is not attached to the pivot. Forces are then applied to the rod in four different ways, as shown. The weight of the rod can be ignored.
Which diagram shows the rod in equilibrium?
A
100 N
100 N
B
100 N 100 N
C
100 N 100 N
D
100 N 100 N
100 N
8 Which combination of forces produces a resultant force acting towards the right?
A
10 N5 N
2 N
B
5 N4 N
3 N
C
7 N5 N
3 N
10 N6 N
4 N
D
9 A student adds weights to an elastic cord. He measures the length of the cord for each weight.
He then plots a graph from the results, as shown.
0
0
1 2 3 4 weight / N
Which length has he plotted on the vertical axis?
A measured length
B original length
C (measured length – original length)
D (measured length + original length)
6
© UCLES 2011 0625/11/O/N/11
10 A force F moves a load from the bottom of a slope to the top.
q
r
pF
load
The work done by the force depends on the size of the force, and on a distance.
What is this distance?
A p B q C r D p + q 11 A water manometer is used to measure the pressure of a gas supply.
initial level
of water 10 cm
10 cm
gas
supply
water
When it is attached to the gas supply, the water falls on the left side and rises on the right side. The difference in the levels of water on the two sides is now 20 cm.
What is the pressure of the gas supply?
A the pressure due to 10 cm depth of water
B the pressure due to 20 cm depth of water
C the pressure due to 10 cm depth of water plus atmospheric pressure
D the pressure due to 20 cm depth of water plus atmospheric pressure
7
© UCLES 2011 0625/11/O/N/11 [Turn over
12 A chair is placed on protective cups to prevent damage to the carpet underneath it.
chair
carpet
protective cups
How do the cups change the area of contact with the carpet and the pressure on it?
area of contact pressure
A decreased decreased
B decreased increased
C increased decreased
D increased increased
13 Evaporation occurs when molecules escape from a liquid surface into the air above it. During this
process the temperature of the liquid falls.
Why does the temperature of the liquid fall?
A The molecules in the vapour expand because the pressure is less.
B The molecules left in the liquid have more space to move around.
C The molecules move more slowly when they escape into the air.
D The molecules with the highest energies escape into the air.
8
© UCLES 2011 0625/11/O/N/11
14 The pressure of a fixed mass of gas in a cylinder is measured. The volume of the gas in the cylinder is then slowly decreased. The temperature of the gas does not change.
Which graph could show the change of pressure of the gas during this process?
pressure
time
A
00
pressure
time
B
pressure
time
C
pressure
time
D
00
00
00
15 To mark the lower fixed point of a Celsius scale on a thermometer, the thermometer should be
placed in
A pure alcohol.
B pure distilled water.
C pure melting ice.
D pure mercury.
9
© UCLES 2011 0625/11/O/N/11 [Turn over
16 The diagram shows an electric heater being used to heat a beaker of water and an identical beaker of oil for several minutes.
water oil
electric heater
The temperature of the water and the temperature of the oil increase constantly. The rise in temperature of the oil is much greater than that of the water.
Why is this?
A The oil has a higher boiling point than water.
B The oil has a higher thermal capacity than water.
C The oil has a lower boiling point than water.
D The oil has a lower thermal capacity than water. 17 The diagram shows a cooling unit in a refrigerator.
cooling
unit
Why is the cooling unit placed at the top?
A Cold air falls and warm air is displaced upwards.
B Cold air is a bad conductor so heat is not conducted into the refrigerator.
C Cold air is a good conductor so heat is conducted out of the refrigerator.
D Cold air remains at the top and so prevents convection.
10
© UCLES 2011 0625/11/O/N/11
18 Two identical copper cans are filled with boiling water.
uninsulated can insulated can
copper can
wool
hot water
thermometer
One can is insulated with wool. The temperature of the water in each can is taken every minute for several minutes. Graphs of the results are plotted. Which graph shows the results obtained?
A
temperature
time
insulated
uninsulated
B
temperature
time
insulated
uninsulated
C
temperature
time
insulated
uninsulated
D
temperature
time
uninsulated
insulated
19 Which of these waves is longitudinal?
A infra-red
B radio
C sound
D water
11
© UCLES 2011 0625/11/O/N/11 [Turn over
20 Radio waves are received at a house at the bottom of a hill.
hill
radio
waves
house
The waves reach the house because the hill has caused them to be
A diffracted.
B radiated.
C reflected.
D refracted. 21 The diagram shows a ray of light travelling from X. Angle P is less than the critical angle.
In which direction does the ray continue?
A
C
B
D
air
glass
X
P
22 The diagram shows the image of a clock in a plane mirror.
What time is shown?
A 02:25 B 02:35 C 09:25 D 09:35
12
© UCLES 2011 0625/11/O/N/11
23 A student wishes to measure the speed of sound in air. She plans to measure the time between making a sound and hearing the echo from a cliff.
student
cliff
She will use the equation: speed = time
distance.
Which type of sound should she make and which distance should she use in her calculation?
type of sound distance to use
A continuous sound 2
cliff to distance
B continuous sound distance to cliff × 2
C short, sharp sound 2
cliff to distance
D short, sharp sound distance to cliff × 2
24 The diagrams show the wave shapes of two different sounds. The scales are the same in each
diagram.
sound 1 sound 2
time time
How does sound 2 compare with sound 1?
A Sound 2 is louder than sound 1.
B Sound 2 is quieter than sound 1.
C Sound 2 has a higher pitch than sound 1.
D Sound 2 has a lower pitch than sound 1.
13
© UCLES 2011 0625/11/O/N/11 [Turn over
25 A horseshoe magnet is brought near to an unmagnetised iron bar.
iron bar
N S
Which row in the table shows the magnetic poles induced in the iron bar and the direction of the forces between the bar and the magnet?
magnetic poles induced
in iron bar force between iron bar
and magnet
A N S
attraction
B N S
repulsion
C S N
attraction
D S N
repulsion
14
© UCLES 2011 0625/11/O/N/11
26 Four nails, A, B, C and D, are tested to find which makes the strongest permanent magnet.
N S
nail
bar magnet
paper clips
One of the nails is placed against a bar magnet and the number of paper clips which the nail can support is recorded. The bar magnet is then removed and the number of paper clips remaining attached to the nail is recorded. Each nail is tested in turn.
Which nail becomes the strongest permanent magnet?
number of paper clips attached to the nail nail
bar magnet present bar magnet removed
A 2 0
B 2 1
C 4 3
D 5 2
27 Which symbols are used for the units of current and of resistance?
unit of current unit of resistance
A A W
B A Ω
C C W
D C Ω
15
© UCLES 2011 0625/11/O/N/11 [Turn over
28 The diagram shows a lamp in a circuit.
P
Which change to the circuit would increase the current in the lamp?
A adding another resistor in parallel with the one in the circuit
B adding another resistor in series with the one in the circuit
C decreasing the electromotive force (e.m.f.) of the battery in the circuit
D moving the lamp to point P in the circuit 29 The diagram shows an electric circuit containing three meters, X, Y and Z, all connected
correctly.
X Z
Y
What are meters X, Y and Z?
X Y Z
A ammeter ammeter ammeter
B ammeter voltmeter ammeter
C voltmeter ammeter voltmeter
D voltmeter voltmeter voltmeter
16
© UCLES 2011 0625/11/O/N/11
30 The diagrams show four arrangements of resistors.
Which arrangement has the smallest total resistance?
4 Ω
A
C
2 Ω
B 2 Ω
4 Ω 4 Ω
D
4 Ω
4 Ω
31 The diagram shows a potential divider circuit with two identical lamps L1 and L2.
L1
L2
X
K
Y
The contact K is halfway between X and Y and the lamps are equally bright.
What will happen to the brightness of the lamps when contact K is moved a short distance towards X?
lamp L1 lamp L2
A brighter brighter
B brighter dimmer
C dimmer brighter
D dimmer dimmer
17
© UCLES 2011 0625/11/O/N/11 [Turn over
32 A fuse and a relay each use an effect of an electric current.
Which effect of an electric current is used by a fuse and which effect is used by a relay?
effect used by
a fuse effect used by
a relay
A heating effect heating effect
B heating effect magnetic effect
C magnetic effect heating effect
D magnetic effect magnetic effect
33 Which diagram represents the direction of the magnetic field around a straight wire carrying a
current out of the page?
A B
current out
of page
C D
current out
of page
18
© UCLES 2011 0625/11/O/N/11
34 The diagram shows an a.c. generator.
N S
coil
output voltage
rotation
of coil
With the coil in the position shown, the output voltage is +10 V.
When does the output voltage become –10 V?
A when the coil has turned 90°
B when the coil has turned 180°
C when the coil has turned 270°
D when the coil has turned 360° 35 The diagram shows a simple transformer.
core
outputinput
From which material should the core be made?
A aluminium
B copper
C iron
D steel
19
© UCLES 2011 0625/11/O/N/11 [Turn over
36 Cathode rays are emitted in a vacuum tube. They consist of particles that are found in atoms.
What is the name of the particles and how are the cathode rays produced?
name of particles how the cathode rays
are produced
A electrons electromagnetic induction
B electrons thermionic emission
C protons electromagnetic induction
D protons thermionic emission
37 Two parallel metal plates in a vacuum are connected to the terminals of a high-voltage power
supply. A beam of cathode rays is passed into the space between the two plates, as shown.
In which direction does the beam of cathode rays deflect?
+ –
high-voltage
power supply
A
B
C
Dcathode rays
metal plate
metal plate
38 A scientist needs to use a source of γ-rays as safely as possible.
Which action will not reduce the amount of radiation that reaches the scientist?
A keeping the distance between the source and the scientist as large as possible
B keeping the temperature of the source as low as possible
C keeping the time for which the scientist uses the source as small as possible
D placing a lead screen between the scientist and the source
20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2011 0625/11/O/N/11
39 The graph shows the activity of a radioactive source over a period of time.
2000
1500
1000
500
0 0 1 2 3
time / hour
activity
/ counts per
second
What is the half-life of the source?
A 2
1 hour B 1 hour C 1
2
1 hours D 3 hours
40 A nuclide of substance X has the symbol X26
12.
How many electrons are there in a neutral atom of substance X?
A 12 B 14 C 26 D 38
This document consists of 18 printed pages and 2 blank pages.
IB12 11_0625_11/3RP © UCLES 2012 [Turn over
*8913251826*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice October/November 2012
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
www.XtremePapers.com
2
© UCLES 2012 0625/11/O/N/12
1 A pendulum is set in motion and timed. The time measured for 20 complete swings is 30 s.
What is the time for one complete swing of the pendulum?
A 0.67 s B 0.75 s C 1.5 s D 3.0 s 2 Two stones of different weight fall at the same time from a table. Air resistance may be ignored.
What will happen and why?
what will happen why
A both stones hit the floor at the same time acceleration of free fall is constant
B both stones hit the floor at the same time they fall at constant speed
C the heavier stone hits the floor first acceleration increases with weight
D the heavier stone hits the floor first speed increases with weight
3 The speed-time graph shown is for a bus travelling between stops.
Where on the graph is the acceleration of the bus greatest?
speed
time
A
B
C
D
3
© UCLES 2012 0625/11/O/N/12 [Turn over
4 A large bag of feathers and a steel block balance each other on some scales.
bag offeathers
steel block
What does this show about the masses and the weights of the bag of feathers and the steel block?
A It shows that the masses are equal and the weights are equal.
B It shows that the masses are equal, but the weights might be different.
C It shows that the masses might be different and the weights might be different.
D It shows that the weights are equal, but the masses might be different. 5 A parachutist inside an aeroplane has a mass of 70 kg.
What is his mass after he has jumped from the aeroplane?
A 0 kg
B between 0 kg and 70 kg
C 70 kg
D greater than 70 kg
4
© UCLES 2012 0625/11/O/N/12
6 A liquid has a density of 0.80 g / cm3.
Which could be the volume and mass of this liquid?
volume / cm3 mass / g
A 2.0 16
B 8.0 10
C 10 8.0
D 16 2.0
7 The diagram shows sections of four objects of equal mass. The position of the centre of mass of
each object has been marked with a cross.
Which object is the most stable?
A B C D
8 A see-saw is made by resting a long plank of wood with its centre of mass on a barrel.
A boy sits on one side of the barrel and a girl sits on the other side so that the see-saw is balanced.
boy’s weight girl’s weight
x yboy girl
Which statement must be true?
A boy’s weight = girl’s weight
B distance x = distance y
C total downward force = total moment about the barrel
D resultant force and resultant moment are both zero
5
© UCLES 2012 0625/11/O/N/12 [Turn over
9 A power station uses nuclear fission to obtain energy.
In this process, nuclear energy is first changed into
A chemical energy.
B electrical energy.
C gravitational energy.
D thermal (heat) energy. 10 A person lifts boxes of equal weight on to a platform.
boxes
platform
Which quantity will not affect the work done by the person?
A the height of the platform above the ground
B the number of boxes lifted
C the time taken to lift the boxes
D the weight of the boxes 11 A skier walks from the bottom of a ski slope to the top and gains 10 000 J of gravitational potential
energy.
She skis down the slope. At the bottom of the slope, her kinetic energy is 2000 J.
How much energy was converted into thermal energy and sound energy as the skier moved down the slope?
A 2000 J B 8000 J C 10 000 J D 12 000 J
6
© UCLES 2012 0625/11/O/N/12
12 The diagram shows a mercury barometer.
25 cm
5 cm
75 cm
mercury
Which distance is used to calculate the pressure of the atmosphere?
A 25 cm B 75 cm C 80 cm D 100 cm 13 A heavy table has six legs. The area of cross-section of each leg is X.
The legs of the table make marks in a carpet. These marks become deeper with increased pressure.
What would reduce the depth of the marks for a table of a fixed weight?
A using three legs, each of an area smaller than X
B using four legs, each of an area the same as X
C using six legs, each of an area smaller than X
D using eight legs, each of an area the same as X
7
© UCLES 2012 0625/11/O/N/12 [Turn over
14 Very small pollen grains are suspended in water. A bright light shines from the side.
Looking through a microscope, small specks of light are seen to be moving in a random, jerky manner.
light
pollen grainsin water
microscope
eye
What are the moving specks of light?
A pollen grains being hit by other pollen grains
B pollen grains being hit by water molecules
C water molecules being hit by other water molecules
D water molecules being hit by pollen grains 15 A swimmer feels cold after leaving warm water on a warm, windy day.
Why does she feel cold even though the air is warm?
A The less energetic water molecules on her skin escape quickly.
B The more energetic water molecules on her skin do not escape quickly.
C The water on her skin does not evaporate quickly enough to keep her warm.
D The water on her skin evaporates quickly and cools her skin. 16 Which physical property is used to measure temperature in a liquid-in-glass thermometer?
A the length of the thermometer
B the thickness of the glass bulb
C the volume of the glass bulb
D the volume of the liquid
8
© UCLES 2012 0625/11/O/N/12
17 The graph shows the temperature of a substance as it is heated steadily.
In which part of the graph is the substance boiling?
temperature
time
A
B
C
D
18 A night storage heater contains a large block of material that is heated electrically during the
night. During the day the block cools down, releasing thermal energy into the room.
Which thermal capacity and which night-time temperature increase will cause the most energy to be stored by the block?
thermal capacity
of block night-time
temperature increase
A large large
B large small
C small large
D small small
19 After a sheep has its wool cut off, it is harder for it to stay warm when the air temperature falls.
How does the wool help the sheep to stay warm?
A Air can circulate between the wool fibres and heat up the skin by convection.
B Air trapped by the wool fibres reduces heat losses from the skin by convection.
C The wool fibres are curly so it takes longer for heat to be conducted away from the skin.
D The wool fibres conduct heat to the skin from the air outside.
9
© UCLES 2012 0625/11/O/N/12 [Turn over
20 A boy sits near a campfire. He pokes the fire with an iron bar. His hand becomes hot.
iron bar
In which ways does thermal energy (heat) from the fire reach his hand?
A conduction and convection only
B conduction and radiation only
C convection and radiation only
D conduction, convection and radiation 21 The diagram shows plane waves reflected by a plane surface.
Which line represents a wavefront?
B
C
DA
22 A swimmer is sitting on a rock at the sea shore looking at passing waves. He notices that five
complete wavelengths pass him in 20 s.
What is the frequency of this wave?
A 0.25 Hz B 4.0 Hz C 15 Hz D 100 Hz
10
© UCLES 2012 0625/11/O/N/12
23 A thin converging lens forms an image.
F F
object
image
What is the nature of this image and can it be formed on a screen?
nature of image can be formed on a screen?
A not real no
B not real yes
C real no
D real yes
24 A piece of paper has ‘PAL’ written on it.
A student holds the paper in front of a plane mirror.
PAL
back ofmirror
What does the student see?
PALA
PALB
PAL PALC D
11
© UCLES 2012 0625/11/O/N/12 [Turn over
25 A girl notices that when she shouts into a cave she hears an echo.
Which wave property causes the echo?
A diffraction
B dispersion
C reflection
D refraction 26 In a test, a car horn is found to be too loud and the pitch of the note is too high.
What information does this give about the amplitude and the frequency of the sound wave produced?
amplitude frequency
A too large too large
B too large too small
C too small too large
D too small too small
27 Two bars of soft iron are placed near a bar magnet.
S N P Q
soft iron soft ironbar magnet
Which row states and explains the behaviour of poles P and Q of the soft iron bars?
P and Q reason
A attract P and Q are like poles
B attract P and Q are unlike poles
C repel P and Q are like poles
D repel P and Q are unlike poles
12
© UCLES 2012 0625/11/O/N/12
28 Some electrical devices require a magnet which may be switched on and off many times in a second.
Which type of magnet may be used?
A an electromagnet only
B a permanent magnet only
C either a permanent magnet or an electromagnet
D neither a permanent magnet nor an electromagnet 29 Which of these is an electric current?
A a beam of atoms
B a beam of electrons
C a beam of molecules
D a beam of neutrons 30 The diagram shows a circuit used to find the resistance of lamp L.
Blocks P, Q and R represent the different components used.
12 V
P R
Q
L
Which is a correct possible choice of components to use for P, Q and R?
P Q R
A ammeter variable resistor voltmeter
B variable resistor voltmeter ammeter
C voltmeter ammeter variable resistor
D voltmeter variable resistor ammeter
13
© UCLES 2012 0625/11/O/N/12 [Turn over
31 A student connects the circuit shown.
1
2
3
4
Which switches must be closed for the bell to ring without lighting the lamp?
A 1 and 2 only
B 1 and 3 only
C 1, 3 and 4 only
D 2, 3 and 4 only 32 Which row shows a use of a capacitor and a use of a relay?
use of a capacitor use of a relay
A switching circuit voltage transformation
B time-delay circuit switching circuit
C voltage transformation switching circuit
D voltage transformation time-delay circuit
14
© UCLES 2012 0625/11/O/N/12
33 The diagram shows two voltmeters, P and Q, connected to a potential divider.
XV
V
voltmeter P
voltmeter Q
The sliding connection at point X is moved towards the top of the diagram.
What happens to the reading on P and to the reading on Q?
reading on P reading on Q
A decreases decreases
B decreases increases
C increases decreases
D increases increases
34 An electric oven is connected to the mains supply using insulated copper wires. The wires
become very warm.
What can be done to prevent so much heat being produced in the connecting wires?
A Use thicker copper wires.
B Use thinner copper wires.
C Use thicker insulation.
D Use thinner insulation.
15
© UCLES 2012 0625/11/O/N/12 [Turn over
35 Which graph shows how the voltage of a simple a.c. generator varies with time?
0 0
voltage voltage
voltage voltage
A
time time
time time
0 0
B
0 0
C
0 0
D
16
© UCLES 2012 0625/11/O/N/12
36 The diagram shows a wire in the magnetic field between two poles of a magnet.
N S
magnet
wire
The current in the wire repeatedly changes between a constant value in one direction and a constant value in the opposite direction. This is shown on the graph.
current
time00
What is the effect on the wire?
A The force on the wire alternates between one direction and the opposite direction.
B The force on the wire is constant in size and direction.
C There is no force acting on the wire at any time.
D There is only a force on the wire when the current reverses.
17
© UCLES 2012 0625/11/O/N/12 [Turn over
37 A beam of cathode rays passes between two parallel, charged metal plates in a vacuum.
++++++++++
––––––––––
cathode rays
In which direction is the beam deflected?
A into the page
B out of the page
C to the left of the page
D to the right of the page
38 How does the ionising effect of α-particles compare with that of β-particles and γ-rays?
compared with β-particles compared with γ-rays
A α-particles are less strongly ionising α-particles are less strongly ionising
B α-particles are less strongly ionising α-particles are more strongly ionising
C α-particles are more strongly ionising α-particles are less strongly ionising
D α-particles are more strongly ionising α-particles are more strongly ionising
39 The table shows the count rates obtained from four radioactive sources. The measurements were
taken at noon on four consecutive days.
Which source has the longest half-life?
count rate /.counts per second
day 1 day 2 day 3 day 4
A 100 48 27 11
B 200 142 99 69
C 300 297 292 290
D 400 202 99 48
18
© UCLES 2012 0625/11/O/N/12
40 Which statement about a carbon nucleus represented by C14
6 is correct?
A It contains 6 neutrons.
B It contains 6 electrons.
C It contains 8 protons.
D It contains 14 nucleons.
20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2012 0625/11/O/N/12
BLANK PAGE
This document consists of 16 printed pages.
IB13 11_0625_11/5RP © UCLES 2013 [Turn over
*8694020048*
UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice October/November 2013
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, highlighters, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
DO NOT WRITE IN ANY BARCODES.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
Electronic calculators may be used.
www.XtremePapers.com
2
© UCLES 2013 0625/11/O/N/13
1 A student uses a ruler to measure the length and the width of a small rectangular metal plate.
0 1 2 3 4 5
cm
width
0 1 2 3 4 5
cm
length
metal plate
What is the area of the plate?
A 14.0 cm2 B 14.7 cm2 C 16.0 cm2 D 16.8 cm2 2 The diagram shows the speed / time graph for a train as it travels along a track.
00
speed
time
PQ
R
S T
For which part of the graph is the train’s speed changing at the greatest rate?
A PQ B QR C RS D ST 3 A small steel ball is dropped from a low balcony.
Ignoring air resistance, which statement describes its motion?
A It falls with constant acceleration.
B It falls with constant speed.
C It falls with decreasing speed.
D It falls with increasing acceleration.
3
© UCLES 2013 0625/11/O/N/13 [Turn over
4 Which is the unit for force and which is the unit for weight?
force weight
A kg kg
B kg N
C N kg
D N N
5 A cup contains hot liquid.
Some of the liquid evaporates.
What happens to the mass and to the weight of the liquid in the cup?
mass weight
A decreases decreases
B decreases stays the same
C stays the same decreases
D stays the same stays the same
6 Four rectangular blocks, P, Q, R and S are shown. Each block is labelled with its size and its
mass.
P
2.0 cm
2.0 cm
2.0 cm
Q
2.0 cm
3.0 cm
2.0 cm
R
2.0 cm
4.0 cm
2.0 cm
S
10 g 10 g
20 g 20 g2.0 cm
2.0 cm
2.0 cm
Which two blocks have the same density?
A P and Q B P and R C Q and R D R and S
4
© UCLES 2013 0625/11/O/N/13
7 A force acting on an object causes some properties of the object to change.
Which list contains only properties that can be changed by the action of the force?
A mass, motion and shape
B mass, motion and size
C mass, shape and size
D motion, shape and size 8 A box is being moved by a fork-lift truck. The total weight of the box is 3000 N.
fork-lift truck box
The force exerted by the fork-lift truck on the box is 3500 N upwards.
What is the resultant force on the box?
A 500 N downwards
B 500 N upwards
C 6500 N downwards
D 6500 N upwards 9 Some energy sources are reliably available at all times, and some are not.
Which row shows three sources all in their correct columns?
available at all times not available at all times
A geothermal nuclear fission, solar
B geothermal, nuclear fission solar
C solar, nuclear fission geothermal
D solar nuclear fission, geothermal
5
© UCLES 2013 0625/11/O/N/13 [Turn over
10 A woman in a factory has to lift a box on to a shelf.
box
high shelf
low shelf
Which action involves the woman in doing the least amount of work?
A lifting the box quickly to the high shelf
B lifting the box slowly to the high shelf
C lifting the box to the low shelf first then lifting it to the high shelf
D lifting the box to the low shelf instead of to the high shelf 11 A drawing pin (thumb tack) has a sharp point and a flat end.
flat endsharp point
The pin is pushed into a wooden board.
How do the pressure and the force at the sharp point compare with the pressure and the force at the flat end?
force at the sharp point pressure at the sharp point
A greater than at the flat end greater than at the flat end
B greater than at the flat end less than at the flat end
C the same as at the flat end greater than at the flat end
D the same as at the flat end less than at the flat end
6
© UCLES 2013 0625/11/O/N/13
12 The diagrams show four divers at the bottom of four different swimming pools.
Two swimming pools contain fresh water and two contain salt water. Fresh water is less dense than salt water.
Which diver feels the least pressure from the water?
A B
fresh
water
fresh
water
C D
salt
water
salt
water
13 The diagram shows a sealed jar containing a gas.
gas
Which statement about the gas in the jar is correct?
A The gas molecules collide with the inside of the jar more often as the temperature increases.
B The gas molecules move more slowly as the temperature increases.
C The pressure of the gas decreases as the temperature increases.
D The pressure of the gas is higher at the top of the jar than at the bottom of the jar. 14 A block of ice cream is prevented from melting by wrapping it in newspaper soaked in water. The
water evaporates from the newspaper.
Which molecules escape from the water and what happens to the average speed of the water molecules that remain in the newspaper?
escaping molecules average speed of the
remaining water molecules
A the less energetic ones decreases
B the less energetic ones increases
C the more energetic ones decreases
D the more energetic ones increases
7
© UCLES 2013 0625/11/O/N/13 [Turn over
15 Equal masses of two different liquids are heated using the same heater. The graph shows how the temperature of each liquid changes with time.
temperature
time
liquid 1
liquid 2
00
What does the graph tell us about the liquids?
A Liquid 1 has a higher melting point than liquid 2.
B Liquid 1 has a higher boiling point than liquid 2.
C Liquid 1 starts to melt sooner than liquid 2.
D Liquid 1 starts to boil sooner than liquid 2. 16 A wooden wheel can be strengthened by putting a tight circle of iron around it.
wooden wheel
iron circle
Which action would make it easier to fit the circle over the wood?
A cooling the iron circle
B heating the iron circle
C heating the wooden wheel and cooling the iron circle
D heating the wooden wheel but not heating or cooling the iron circle
8
© UCLES 2013 0625/11/O/N/13
17 A man goes into a cold room and switches on a heater. The man then stands one metre away from the heater. He feels warmer almost immediately.
room
heater
How is thermal energy transferred from the heater to the man so quickly?
A by conduction, convection and radiation
B by conduction only
C by convection only
D by radiation only 18 A rod is made half of glass and half of copper. Four pins, A, B, C and D are attached to the rod
by wax. The rod is heated in the centre as shown.
Which pin falls off first?
heat
pin
Apin
Bpin
Cpin
D
glass copper
19 Which row shows an example of a transverse wave and an example of a longitudinal wave?
transverse longitudinal
A light radio
B radio sound
C sound water
D water light
9
© UCLES 2013 0625/11/O/N/13 [Turn over
20 A boy throws a small stone into a pond. Waves spread out from where the stone hits the water and travel to the side of the pond.
The boy notices that eight waves reach the side of the pond in a time of 5.0 s.
What is the frequency of the waves?
A 0.20 Hz B 0.63 Hz C 1.6 Hz D 40 Hz 21 The table gives common uses for three types of electromagnetic wave.
Which row correctly identifies the waves?
satellite television terrestrial television
(not satellite) television remote
controllers
A infra-red waves microwaves radio waves
B microwaves radio waves infra-red waves
C radio waves infra-red waves microwaves
D radio waves microwaves infra-red waves
22 The diagram shows a ray of light passing through a semicircular glass block into air.
P
ray of
light
glass
air
Which row gives the correct name for angle P and states how angle P compares with the critical angle?
name of angle P angle P compared with
the critical angle
A angle of incidence larger than the critical angle
B angle of incidence smaller than the critical angle
C angle of refraction larger than the critical angle
D angle of refraction smaller than the critical angle
10
© UCLES 2013 0625/11/O/N/13
23 Which diagram shows how an image of an object is formed on a screen by a converging lens?
screen
object
2 × focal length
A
screen
object
2 × focal length
focal length focal length
B
screen
object
C
screen
object
D
24 When the volcano Krakatoa erupted in 1883, it was heard 5000 km away.
Which statement about the sound from the volcano is not correct?
A If such a loud sound were to be made today, an astronaut orbiting in space (a vacuum) at a height of 400 km could hear it.
B People further from the volcano heard the sound later than people nearer to the volcano.
C The amplitude of the sound waves would have been smaller further from the volcano.
D The sound was very loud because a lot of energy was transferred to vibrations of the air.
11
© UCLES 2013 0625/11/O/N/13 [Turn over
25 A loudspeaker on a boat produces a pulse of sound in the sea. The echo of the pulse is received back at the boat after 3.0 s. The depth of the sea under the boat is 2250 m.
pulse of
sound
sea bed
boat
(not to scale)
From this information, what is the speed of sound in the sea water?
A 330 m / s B 750 m / s C 1500 m / s D 6750 m / s 26 A hard magnetic material can be used to make a permanent magnet. A soft magnetic material can be used to make a temporary magnet. Which row shows whether iron and steel are hard or soft magnetic materials?
iron steel
A hard hard
B hard soft
C soft hard
D soft soft
27 How can a permanent magnet be demagnetised?
A cool the magnet for a long time
B hit the magnet repeatedly with a hammer
C leave the magnet in a coil which is connected to a battery
D shine bright light onto the magnet 28 Which equation can be used to calculate the resistance R of a resistor?
A V = I ÷ R B I = V × R C R = V × I D V = I × R
12
© UCLES 2013 0625/11/O/N/13
29 A student wishes to measure first the electromotive force (e.m.f.) of a battery, and then the potential difference (p.d.) across a resistor.
She has the resistor, the battery and some connecting wires.
What else does she need?
A a force meter (newton meter) and a voltmeter
B an ammeter and a voltmeter
C an ammeter only
D a voltmeter only 30 Two similar balloons hang side by side, on insulating threads, a short distance apart. They are
both rubbed with the same dry cloth and become charged.
Which diagram shows how the balloons hang after charging?
A DB C
31 When the thermistor in the circuit below is heated, the current in the lamp increases.
Why does this happen?
A The resistance of the lamp decreases.
B The resistance of the lamp increases.
C The resistance of the thermistor decreases.
D The resistance of the thermistor increases.
13
© UCLES 2013 0625/11/O/N/13 [Turn over
32 A student connects various resistors in parallel pairs.
Underneath each diagram is a statement about the total resistance of each pair of resistors.
Which statement is correct?
2 Ω
A
The total resistance is 4 Ω.
2 Ω
5 Ω
B
The total resistance is between 1 Ω and 5 Ω.
1 Ω
10 Ω
C
The total resistance is less than 5 Ω.
5 Ω
20 Ω
D
The total resistance is more than 20 Ω.
10 Ω
33 The circuit shown contains a relay. Both lamps are initially off.
lamp 1
lamp 2switch S
relay
When switch S is closed, the relay operates. What is the state of the lamps?
lamp 1 lamp 2
A on on
B on off
C off on
D off off
14
© UCLES 2013 0625/11/O/N/13
34 The diagram shows the connections to an electric heater. Three fuses have been added to the circuit.
fuse 3
fuse 1
fuse 2
heater
plastic
case
live
neutral
heating element
Which of the fuses are correctly placed?
A fuse 1, fuse 2 and fuse 3
B fuse 1 and fuse 2 only
C fuse 1 only
D fuse 2 only 35 Which diagram shows a movement that will not produce the changing magnetic field needed to
induce an e.m.f. in the coil?
N S
N S
N S
N S
A
B
C
D
moving a magnet and a coil towards each other
at the same speed
moving a magnet and a coil in the same direction
at the same speed
moving a magnet away from a fixed coil
moving a coil away from a fixed magnet
15
© UCLES 2013 0625/11/O/N/13 [Turn over
36 The diagram shows a simple d.c. electric motor which is rotating.
S Nmagnet magnet
coil
Which change will make the motor rotate more quickly?
A increasing the number of turns on the coil
B removing the magnets
C reversing the battery
D reversing the polarity of the magnets 37 A transformer is needed to convert a supply of 240 V a.c. into 4800 V a.c.
NP NS
240 V a.c. 4800 V a.c.
Which pair of coils would be suitable for this transformer?
number of turns
on primary coil NP number of turns
on secondary coil NS
A 50 1000
B 240 48 000
C 480 24
D 2000 100
16
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2013 0625/11/O/N/13
38 The diagram shows a cathode-ray tube used to produce cathode rays.
––
+
+
current I
anode
filament
(cathode)
metal
plates
cathode-ray tube
power
supply
Which change would increase the deflection of the cathode rays?
A decreasing the current I in the filament
B increasing the current I in the filament
C increasing the potential difference between the filament and the anode
D increasing the potential difference between the metal plates 39 A radioactive substance emits a particle from the nucleus of one of its atoms. The particle
consists of two protons and two neutrons.
What is the name of this process?
A α-emission
B β-emission
C γ-emission
D nuclear fission 40 A nucleus X has 17 protons and 18 neutrons.
Which notation is correct for this nucleus?
A X17
18 B X
17
35 C X
18
17 D X
35
17
The syllabus is approved for use in England, Wales and Northern Ireland as a Cambridge International Level 1/Level 2 Certificate.
This document consists of 17 printed pages and 3 blank pages.
IB14 11_0625_11/3RP © UCLES 2014 [Turn over
*0254908917*
Cambridge International Examinations Cambridge International General Certificate of Secondary Education
PHYSICS 0625/11
Paper 1 Multiple Choice October/November 2014
45 minutes
Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB recommended)
READ THESE INSTRUCTIONS FIRST
Write in soft pencil.
Do not use staples, paper clips, glue or correction fluid.
Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you.
DO NOT WRITE IN ANY BARCODES.
There are forty questions on this paper. Answer all questions. For each question there are four possible answers A, B, C and D.
Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet.
Read the instructions on the Answer Sheet very carefully.
Each correct answer will score one mark. A mark will not be deducted for a wrong answer.
Any rough working should be done in this booklet.
Electronic calculators may be used.
2
© UCLES 2014 0625/11/O/N/14
1 Diagram 1 shows a measuring cylinder containing water.
Five identical steel balls are now lowered into the measuring cylinder. Diagram 2 shows the new water level in the cylinder.
cm3
diagram 1
100
90
80
70
60
50
40
30
20
10
cm3
diagram 2
100
90
80
70
60
50
40
30
20
10
steel ball
What is the volume of each steel ball?
A 6 cm3 B 14 cm3 C 30 cm3 D 70 cm3 2 The graph shows how the speed of a car changes with time.
speed
U V W X Y time
0
Between which two times is the car stationary?
A U and V B V and W C W and X D X and Y
3
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3 A man stands by a railway track.
A train travelling at 40 m / s takes 2.0 s to pass the man.
What is the length of the train?
A 20 m B 38 m C 40 m D 80 m
4 The mass of an astronaut is 70 kg on the Moon.
What is the mass of the astronaut on the Earth?
A 7 kg B 70 kg C 80 kg D 700 kg 5 The weight of an object is found using the balance shown in the diagram. The object is put in the
left-hand pan and various weights are put in the right-hand pan.
object weights
These are the results.
weights in the right-hand pan effect
0.1 N, 0.1 N, 0.05 N, 0.02 N balance tips down slightly on the left-hand side
0.2 N, 0.1 N, 0.01 N balance tips down slightly on the right-hand side
What is the best estimate of the weight of the object?
A 0.27 N B 0.29 N C 0.31 N D 0.58 N
4
© UCLES 2014 0625/11/O/N/14
6 The diagram shows the dimensions of a rectangular block of metal of mass m.
pq
r
Which expression is used to calculate the density of the metal?
A m × p × q
B m × p × q × r
C ) ( qp
m
×
D ) ( rqp
m
××
7 In which situation is no resultant force needed?
A a car changing direction at a steady speed
B a car moving in a straight line at a steady speed
C a car slowing down
D a car speeding up 8 Which properties of a body can be changed by applying a force to the body?
A mass, motion and shape
B mass and motion, but not shape
C mass and shape, but not motion
D motion and shape, but not mass
5
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9 The list contains three energy resources P, Q and R. P geothermal energy from hot rocks
Q nuclear fission in reactors
R sunlight on solar panels
Which of these resources are renewable?
A P and Q only
B P and R only
C Q and R only
D P, Q and R 10 The diagram shows three different containers J, K and L. Each container contains water of the
same depth.
J K L
Which statement about the pressure of the water on the base of each container is correct?
A The water pressure is greatest in container J.
B The water pressure is greatest in container K.
C The water pressure is greatest in container L.
D The water pressure is the same for all three containers. 11 Which movement will require the greatest amount of work to be done?
A a force of 10 N moving an object a distance of 3.0 m
B a force of 10 N moving an object a distance of 5.0 m
C a force of 15 N moving an object a distance of 3.0 m
D a force of 15 N moving an object a distance of 5.0 m
6
© UCLES 2014 0625/11/O/N/14
12 A water manometer is connected to a gas supply.
water
gassupply
P
Q
There is a gas leak and the pressure of the gas supply falls.
What happens to the water level at P and what happens to the water level at Q?
water level at P water level at Q
A falls falls
B falls rises
C rises falls
D rises rises
13 The diagram shows a beaker of water. Four molecules are labelled. The relative amount of
energy of each molecule is shown.
Which molecule is most likely to escape from the liquid?
molecule A(high energy) molecule B
(low energy)
molecule C(high energy)
molecule D(low energy)
7
© UCLES 2014 0625/11/O/N/14 [Turn over
14 Some gas is trapped in a container of fixed volume.
The temperature of the gas increases.
Which graph shows how the pressure of the gas changes with temperature?
00
pressure / Pa
temperature / °C
A
00
pressure / Pa
temperature / °C
B
00
pressure / Pa
temperature / °C
C
00
pressure / Pa
temperature / °C
D
15 Which points are the fixed points of the liquid-in-glass thermometer shown?
–10 0 10 20 30 40 50 60 70 80 90 100 110
°C
A the beginning and end points of the column of liquid
B the beginning and end points of the thermometer scale
C the points marked 0 °C and 100 °C
D the top and bottom points of the thermometer bulb
8
© UCLES 2014 0625/11/O/N/14
16 Equal masses of two different liquids are put into identical beakers. Liquid 1 is heated for 100 s and liquid 2 is heated for 200 s by heaters of the same power. The temperature of both liquids increases by the same amount.
liquid 1 liquid 2
heating time = 100 s heating time = 200 s
heaters of
same power
different liquids
of same mass
Which statement is correct?
A Both liquids receive the same amount of energy.
B Liquid 1 receives more energy than liquid 2.
C Both liquids have equal thermal capacity.
D The thermal capacity of liquid 1 is less than the thermal capacity of liquid 2. 17 The metal surface of a kettle is hot.
What happens to the cool air outside the kettle when it comes into contact with the hot kettle?
A The density of the air decreases and the air falls.
B The density of the air decreases and the air rises.
C The density of the air increases and the air falls.
D The density of the air increases and the air rises.
9
© UCLES 2014 0625/11/O/N/14 [Turn over
18 One type of double glazing consists of two panes of glass separated by a vacuum.
glass
vacuum
glass
Which method or methods of energy transfer are prevented by the vacuum?
A conduction and convection
B conduction and radiation
C convection and radiation
D radiation only 19 The diagram shows four waves drawn to the same scale.
00
P
distance0
0
Q
distance
00
R
distance0
0
S
distance
displacement displacement
displacement displacement
Which statement is correct?
A The amplitude of wave P is the same as the amplitude of wave R.
B The amplitude of wave S is double the amplitude of wave Q.
C The wavelength of wave Q is double the wavelength of wave P.
D The wavelength of wave S is the same as the wavelength of wave Q.
10
© UCLES 2014 0625/11/O/N/14
20 Light waves pass from air into glass and are refracted.
What always remains constant when this happens?
A direction
B frequency
C speed
D wavelength 21 Which type of electromagnetic wave is used in airport security scanners?
A infra-red
B microwaves
C radio waves
D X-rays 22 Which waves are longitudinal?
88:88
BA C D
light waves
from a lamp
microwaves
in an oven
water waves
on a pond
sound waves
from a trumpet 23 An object is placed in front of a converging lens. The lens has a focal length f.
The lens produces a real, enlarged image of the object.
In which labelled position is the object placed?
A B C D
2f
f
lens
11
© UCLES 2014 0625/11/O/N/14 [Turn over
24 A fire alarm is not loud enough and the pitch is too low. An engineer adjusts the alarm so that it produces a louder note of a higher pitch.
What effect does this have on the amplitude and on the frequency of the sound waves that the alarm produces?
amplitude frequency
A larger larger
B larger smaller
C smaller larger
D smaller smaller
25 In an experiment to measure the speed of sound, a student uses a stopwatch to find the time
taken for a sound wave to travel from X to Y. She does this six times.
sound travels from X to Y
X Y
The table shows her results.
measurement time / s
first 0.5
second 0.7
third 0.6
fourth 0.4
fifth 0.9
sixth 0.5
Which value for the time should be used to calculate the speed of sound?
A 0.4 s B 0.5 s C 0.6 s D 0.9 s
12
© UCLES 2014 0625/11/O/N/14
26 The ends of three metal rods are tested by holding end Q of rod 1 close to the others in turn.
rod 1 rod 2 rod 3
Q
R
S
T
U
The results are as follows.
End Q: attracts end R,
attracts end S,
attracts end T,
repels end U.
Which of the metal rods is a magnet?
A rod 1 only
B rod 1 and rod 2
C rod 1 and rod 3
D rod 3 only 27 A permanent magnet is made from metal and an electromagnet uses a metal core.
Which metal is suitable for each of these purposes?
permanent
magnet core of
electromagnet
A iron iron
B iron steel
C steel iron
D steel steel
28 Which row gives the unit for energy and the unit for electromotive force (e.m.f.)?
energy e.m.f.
A J N
B J V
C W N
D W V
13
© UCLES 2014 0625/11/O/N/14 [Turn over
29 A student carries out an experiment to investigate the resistance of a resistor R. She takes a series of readings of potential difference (p.d.) and current, and plots a graph of her results.
Which circuit should she use?
A
R
V
A
A
R
V
B
A
R
V
C
A
R
V
D
30 The diagram shows a circuit with a 3.0 Ω resistor and a 2.0 Ω resistor connected in parallel.
3.0 Ω
6.0 V
2.0 Ω
A
The switch is open, and the ammeter reads 2.0 A. The switch is now closed and the ammeter reads the total current in both resistors.
What is the ammeter reading with the switch closed?
A 1.2 A B 3.0 A C 4.0 A D 5.0 A
14
© UCLES 2014 0625/11/O/N/14
31 The diagram shows a torch containing two cells, a switch and a lamp.
plastic
case
brass
connecting
strip
switch
lamp
cells
Which is the circuit diagram for the torch?
C B A D
32 An engineer uses the potential divider shown in the diagram. He needs the output voltage to be
one tenth (10
1 ) of the input voltage.
X
Y output
voltage
input
voltage
Which pair of values could he use for the two resistors X and Y?
X / kΩ Y / kΩ
A 1.0 9.0
B 1.0 10.0
C 9.0 1.0
D 10.0 1.0
15
© UCLES 2014 0625/11/O/N/14 [Turn over
33 The current in a kettle is 10 A and it is protected by a 13 A fuse.
The owner of the kettle replaces the 13 A fuse with a 3 A fuse.
What happens when the kettle is switched on?
A The fuse blows and the kettle is damaged.
B The fuse blows and the kettle is undamaged.
C The fuse does not blow and the kettle works correctly.
D The fuse does not blow but the kettle fails to work. 34 The diagram shows cables used in the transmission of electrical energy. High voltages are used
for the transmission.
transmission cables
power
station
Why are high voltages used for the transmission of electrical energy?
A Fear of high voltages stops people from interfering with the cables.
B Heat loss in the cables is smaller than if low voltages are used.
C High voltages increase the current in the cables.
D High voltages produce large magnetic fields, so less insulation is needed. 35 Which diagram shows the magnetic field pattern around a wire that is carrying a current
perpendicular to the page?
A
wire wire
B C D
16
© UCLES 2014 0625/11/O/N/14
36 The diagram shows a simple transformer with an input of 240 V and an output of 40 V.
There are 600 turns on the primary coil.
output input 600
turns 240 V 40 V
primary coil secondary coil
How many turns are there on the secondary coil?
A 100 B 320 C 400 D 3600 37 In a cathode-ray tube, a hot tungsten cathode releases particles by thermionic emission.
What are these particles?
A α-particles
B electrons
C protons
D tungsten atoms 38 The diagram shows a radioactive source, a thick aluminium sheet and a radiation detector.
radioactive
source
thick aluminium
sheet
radiation detector
The radiation detector shows a reading greater than the background reading.
Which type of radiation is being emitted by the source and detected by the detector?
A α-radiation
B β-radiation
C γ-radiation
D infra-red radiation
17
© UCLES 2014 0625/11/O/N/14
39 The count rate from a radioactive isotope is recorded every hour. The count rate is corrected for background radiation.
The table shows the readings.
time / hours 0 1 2 3 4 5
s/counts
rate count corrected
800 620 480 370 290 220
What estimate of the half-life of the isotope can be obtained from the readings in the table?
A between 1 and 2 hours
B between 2 and 3 hours
C between 3 and 4 hours
D between 4 and 5 hours
40 A nuclide is represented by the symbol .XP
Q
How many neutrons are in one nucleus of the nuclide?
A P B Q C P + Q D P – Q
20
Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity.
Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.
© UCLES 2014 0625/11/O/N/14
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