16802886 Analysing Linear Motion
Transcript of 16802886 Analysing Linear Motion
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Name : __________________________________ Form :___________Date : _____________
LESSON 1 - LINEAR MOTION
A) Introduction
1. Linear motion___________________________________________________________________
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2. Kinematics_____________________________________________________________________
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3. Dynamics_____________________________________________________________________.
4. Distance ,d and Displacement, s
* Distance ,dis________________________________________________________________or the
length of the path of an object. Distance is __________________ and the value________________.The unif of distance is ___________________.
* Displacement , s ___________________________________________.Displacement ,s = final position initial position. Displacement is
_______________________ and the value can be positive and negative dependon their directions. The unif of dispacement is ____________
Diagram below shows the difference between distance and displacement.
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Distance = Length of the roadDisplacement = Length of the line AB
If the motion in a straight line and in one direction, the magnitude of
distance is same as the magnitude of displacement .
5. Speed and Velocity ,v
* Speedis the rate of change of distance.
Speed = ________________________
Average speed = _________________________
Speed is a scalar quantity and the value always positive. The unif of speedis metre per second (m s-1)
* Velocityis the rate of change of displacement.
Velocity = ______________________
v = st
Average velocity = __________________________
Velocity is ______________________ and the value can be positive andnegative depend on their directions. The unit of velocity is_____________________________________
If an object moves in a circle with constant speed , it has different velocitiesat different points along the circle because the direction and hence thevelocity of the object is always changing as shown in the following diagram.
6. Acceleration,a and Deceleration(Retardation)
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* Acceleration is the rate of change of velocity.Acceleration = change in velocity
time takenAcceleration = final velocity initial velocity
time takena = v - ut
Negative acceleration is called as deceleration (retardation). Acceleration isa vector quantityThe unif of acceleration or deceleration is metre per second per second (ms -2)
Extra notes1 uniform = constant = same2 increasing velocity = acceleration
3 decreasing velocity (slow down) = deceleration4 zero velocity = the object is stationary (at rest)5 negative velocity = the object moves in opposite
direction6 uniform velocity = zero acceleration7 negative acceleration = deceleration (retardation)
Example 1
A boy walks finish the following path AB. Solution
Find(a) total dinstance traveled(b) displacement
Example 2 Solution
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Figure above shows runner runs 500 m towards east in 2 minutes and1200m towards north in 4 minutes.Calculate his(a) average speed(b) average velocity
Example 3
An object accelerates uniformly along a straight line from a velocity of 10m s-1 until 25 m s-1 in 5 s.Calculate(a) the acceleration of the object(b) the velocity of the object during the first 10 s of motion(c) the time taken to reach a final velocity 50 ms-1
Solutiona) b)
c)
B) Ticker Timer
1. Using a ticker timer to analyzing the motion
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A ticker timer is connected to an alternating electricity supply (a.c.) anduses the mains electricity frequency of 50 Hz to make 50 ticks or vibrationsevery second. 1 tick is the time interval between one dot and the next doton the tape.
50 ticks = 1 s
1 tick = 0.02sExample 4 Solutiona)
Based on the ticker tape above calculate(a) time taken b)
(b) average volocity
Example 5
Based on the figure above, calculate the acceleration .
Solution
Example 6
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The figure above shows a ticker tape contains 5 ticks for every intervalAB.BC.CD and DE .Calculatethe acceleration.
Solution
Example 7
The following figure shows a tape chart.
Calcluate(a) the acceleration
(b) the average velocity
Solution
a) b)
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2. The type of motion based on ticker tape or tape chart
(i)
The type of motion is ____________________________________________
(ii)
The type of motion is
velocity acceleration
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(iii)
The type of motion isvelocity acceleration
(iv)
The type of motion is
velocity acceleration
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(v)
The type of motion isvelocity acceleration
C) Using a stroboscopic photograph to analyzing the motion
Stroboscopic photograph is the taking of very short exposure pictures ofmoving objects using a camera and a stroboscope. A stroboscope is adevice for making a moving body intermittently visible in order to makeappear stationary. The moving object appear freeze when thestroboscope frequency at the same frequency of moving object. Thereare two types of stroboscopes:
(i) Mechanical stroboscope
Stroboscopic photograph frequency = stroboscope frequency xnumber of slits or f = np
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(ii) Electronic stroboscope ( multiflash stroboscope )
Stroboscopic photograph frequency = light flashes frequency
Example 8
The following figure a stroboscopic photograph shows a metal ballmoves along a horizontal plane. The photograph is taken by by using acamera and a mechanical stroboscope rotates with frequency 5 Hz.
(a) State the type of motion of the metal ball.(b) What is the stroboscopic fotograph frequency(c) What is the time intervals between one image and the next.(d) What is the number of images in 30 seconds.(e) Calculate the average velocity of the metal ball
Solution
a) b)
c) d)
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e)
Example 9
The following figure a stroboscopic photograph shows a trolley down aninclined plane. The photograph is taken by using a camera and an electronicstroboscope produces 20 flashes per second.
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(a) State the type of motion of the trolley.(b) What is the stroboscopic photograph frequency(c) What is the time intervals between one image and the next.(d) Calculate
(i) the initial velocity
(ii) the final velocity(iii) the accelerationSolution
a) b)
c) d) i)
ii)
iii)D)Using Equations of Linear Motion with Uniform Acceleration
The various equations of linear motions of an object with uniformacceleration are given as follows:
v = u + at .(1)
s = u + v t ..(2)2
s = ut + at2 ..(3)
v2 = u2 + 2as ..(4)
Where s :_______________________________
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u :_______________________________v :_______________________________a :_______________________________t :_______________________________
Extra notes:
moves from rest : ____________________________finally it stops/brakes:____________________________released from a height / fall freely from rest
:__________________________thrown vertically upwards:___________________________at maximum height :________________________
Example 10
A car accelerates from rest to 25 m s-1 in 4 s.Find the acceleration ofthe car.
Solution
Example 1
A bus accelerates uniformly along a straight line from a velocity 20 ms-1
until 30 ms-1 in 5 s.
Calculate,(a) the acceleration(b) the total displacement travelled by the bus
Solutiona) b)
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A negative B positiveC increased D decreased
3 The following figure shows an object moves with a constant speed 5 m s-1
in a circle.
The object is also moves with
A an accelerationB zero accelerationC constant velocity
4 The figure shows a path of a moving object.
If AB = 5m , BC = 5m and CD = 7m ,find the total displacement ofthe object if it moves fromA to D.
A 3m B 7m
C 13 m D 17 mE 20 m
5 Ali rides a motocycle with a constant speed 30 km j-1 . Bakar runs at adinstace 100 m in 15 s. Chan rides a bicycle at dinstance 240 km in 10hours. Which comparison is true?
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A Speed of Ali = speed of BakarB Speed of Ali = speed of Bakar = speed of ChanC Speed of Ali > speed of BakarD Speed of Ali =speed of Chan > speed of BakarE Speed of Bakar = Speed of Chan < speed of Ali
6 A tick on the ticker tapes is
A the speed of the ticker timerB the frequency of the ticker timerC the dinstace between two consecutive dotsD the time interval between two consecutive dots
7 The frequency of a ticker timer is 50 Hz. The time interval between twoconsecutive dots is
A 0.60 s B 0.44 sC 0.32 s D 0.30 sE 0.20 s
8 Figure shows the ticker tape for the motion of a trolly.
Which of the following statement is true?
A The volcity between in region DE is same as the velocity in region A BB Frequency in region BC is greater than frekuency in region DEC The time in region AB is same as the time in region DED The velocity between in region CD is low
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Based on the figure above, calculate the average velocity.
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A 0.2 ms-1 B 0.3 ms-1
C 0.4 ms-1 D 0.5 ms-1
E 0.5 ms-1
10 What is the average velocity between PQ in the above figure?
A 85 cms-1 B 170 cms-1
B 200 cms-1 C 240 cms-1
E 500 cms-1
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What is the final velocity as shown in figure above?
A 40 cms-1 B 120 cms-1
C 150 cms-1 D 267 cms-1 E 420 cms-1
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Based on the figure above , calculate the acceleration.
A 2 ms-2 B 4 ms-2
C 5 ms-2 D 8 ms-2
E 10 ms-2
14 Based on the figure above , calculate the acceleration.
A -5 ms-2 B - 50 ms-2
C - 500 ms-2 D 50 ms-2
E 500 ms-2
15 The following figure shows a tape chart.
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Based on figure , which of the following is true?
At the beginning ofmotion
At the end ofmotion
A the velocity unchanged the accelerationincreases
B the velocity increases the accelerationincreases
C the velocity increases the accelerationunchanged
D the velocity unchanged the accelerationunchanged
16 Which of the following shows an object moving with decreasingacceleration ?
17 The following figure is a stroboscopic photograph shows a ball moveson a smooth table.
Which of the following is true?A The acceleration is constantB The velocity is increasingC The acceleration is zeroD The velocity is zero
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18 A stroboscope has 4 slits and rotates with frequency 5 Hz. The timeintervals between two successive images is
A 40.0 s B 2.0 sC 1.0 s D 0.4 s
E 0.05 s
19The following figure a stroboscopic photograph shows an ice cubemoves along a horizontal plane. The photograph is taken by using acamera and a mechanical stroboscope has 2 slits and rotates withfrequency 25 Hz.
What is the velocity of the ice cube?
A 5 cms-1 B 25 cms-1
C 100 cms-1 D 250 cms-1
E 500 cms-1
20The following figure a stroboscopic photograph shows a ball movesalong a horizontal plane. The photograph is taken by by using a cameraand an electronicstroboscope produces 50 flashes per second.
Calculate the average velocity of the ball.
A 0. 5 ms-1 B 1.0 ms-1
C 1.5 ms-1 D 2.0 ms-1
E 3.0 ms-1
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21The following figure a stroboscopic photograph shows a boy down aninclined plane. The photograph is taken by using a camera and an
electronic stroboscope produces 4 flashes per second.
The acceleration of the boy is
A 6ms-2 B 12 ms-2
C 24 ms-2 D 32 ms-2
E 48 ms-2
22 A cyclist riding at a velocity 8 ms-1 and is accelerating with 4 ms-2 .What is the velocity of the cyclist after 5 s .
A 16 ms-1 B 20ms-1C 24 ms-1 D 28 ms-1
E 32 ms-1
23 A rocket starts at velocity 2500 ms-1 and accelerates uniformly upwardsat 20 ms-2 . What is the velocity of the rocket after 4 minutes.
A 4800 ms-1 B 5000 ms-1C 6800 ms-1 D 7300 ms-1
E 7500 ms-1
24 A trolley starts from rest and is uniformly accelerated to speed of 12cms-1 in 5 . What is the distance traveled by the trolley?
A 16 cm B 24 cmC 28 cm D 30 cmE 42 cm
25 A car starts from rest and accelerates uniformly and after travels atdistance 45m the velocity of the car is 20 ms-1 . What is the timetaken?
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A 4.5 s B 9.0 sC 13.5 s D 18.0 sE 22.4 s
26 A airplane accelerates at 40 ms-2
in 10 s to take off. What is theminimum length of the runway on the airfield?
A 1000 m B 2000 mC 3000 m D 4000 m
E 5000 m
27 A car starts from rest and accelerates uniformly . If the distance reachedis 900 m after travels in 30 s, calculate the acceleration of the car.
A 5 ms -2 B 4 ms-2
C 3 ms-2
D 2 ms-2
E 1 ms-2
28 A lorry start from rest and accelerates at 10 ms-2. What is the velocity ofthe lorry after travels for a distance 20m ?
A 10 ms-1 B 20ms-1C 40 ms-1 D 80 ms-1
E 100 ms-1
29 A car travels with a velocity 15 ms-1 . It then accelerates uniformly andtravels a distance of 12.5 m. If the velocity reached is 10 ms -1 find the
acceleration of the car.
A 5.0 ms-2 B 2.5 ms-2C 2.5 ms-2 D 5.0 ms-2
E 7.5 ms-2
30 A car moves with a velocity 40 ms-1 . After the brakes of the car isapplied ,it moves 100 m more before coming to rest. Calculate thedeceleration of the car.
A 4 ms-2 B 8 ms-2
C 12 ms-2 D 16 ms-2E 20 ms-2
31 A lorry moves with a velocity 20 ms-1. After the brakes of the car isapplied it moves for a distance 4 m before coming to rest. What is thetime taken before it stops?
A 10 s B 8 s
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C 6 s D 4 sE 2 s
32 A stone fall freely from rest through a height of 5 m. What is the velocityof the stone when it hits the ground.
A 5 ms-1 B 10 ms-1C 15 ms-1 D 20ms-1E 30 ms-1
33 A coconut falls vertically to the ground. If the coconut takes 1.5 s to fallto the ground, calculate the height from which it fell.
A 8.45 m B 11.25 mC 15.00 m D 22.50 m
E 31.25m
34 A metal sphere falls 125m vertically to the ground. What is the time themetal sphere takes to reach the ground?
A 2 s B 4s
C 5 s D 8sE 10 s
35 A ball is thrown vertically upwards from the ground with a velocity of 20ms-1. Calculate the maximum height reached.
A 60 m B 40 mC 30 m D 20 mE 10 m
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36The table (a) and (b) shows the distances traveled and the times takenfor four students in a competition
Student Distance/m
Time/ s
P 100 20
Q 120 20Table (a)
Student Distance/m
Time/ s
R 100 20S 100 15
Table (b)
(a) Compare the speeds of the
(i) student P dan student Q
(ii) student R dan student S
(b) State the relationship between(i) the speed and the distance in table (a)
(ii) the speed and the distance in table (b)
(c) Based on the relationship in (b),state the definition of speed.
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38The following figure shows a tape chart . The chart is produced by themotion of a trolly.The ticker timer used a supply voltage 12 V a.c. at 50
Hz.
(a) Describe the type of motion is shown in the tape chart.
(b) What ishe time interval between two consecutive dots ?
(c) Calculate
(i) the minimum velocity
(ii) the maximum velocity
(iii) the average velocity.
(iv) the acceleration.
39The following equation shows the equations of linear motion of an objectwith uniform acceleration.
v = u + at
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(a) (i) What is meant by the symbol ofa
(ii) Give the definition of the symbol ofa
(b) (i) What is the information can you get from the term ofat
(ii) What is the S.I. units for the term ofat
(c)The above equation can also be used for an object in state of free-fall. A stone fall freely to the ground from rest in 4 s.(i) What is meant by fall freely?
(ii) Calculate the velocity of the stone when it hits the ground.
40 Each figure below shows two positions of a student on a swing. Theinitial position in each figure is different.
Observe the positions of each of the swing in each diagram and theappearance of the student when she swings. Based on the observations:
(a) State one suitable inference that can be made.(b) State one appropriate hypothesis for an investigation.
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(c) With the use of apparatus such as trolley, ticker timer and otherapparatus, describe an experimental framework to test yourhypothesis.In your description, state clearly the following:
(i) Aim of the experiment(ii) Variables in the experiment(iii) List of apparatus and materials(iv) Arrangement of the apparatus(v) The procedure of the experiment which include the
method of controlling the manipulated variable and themethod of measuring the responding variable.
(vi) Way you would tabulate the data(vii) Way you would analysis the data