Mass and weightGravitational fields
Density
MASS, WEIGHT & DENSITY
Mass, Weight & Density 1
The mass of an object is a measure of the amount substance in the object.
All bodies with mass posses a property known as inertia.
The inertia of an object is the reluctant of the object to change either its state of rest, or if it is moving, its motion in a straight line.
Inertia depends on mass and not weight.The greater the mass of a body the greater
will be its inertia.
Mass, Weight & Density 2
Mass & Inertia
Gravitational field is a region in which the mass of an object experiences a force due to gravitational attraction.
Gravitational field strength, g, is defined as gravitational force per unit mass.
Mass, Weight & Density 3
Gravitational Field and Field Strength
Any object placed around the Earth experiences a force pulling it towards the Earth.
The force is stronger on the surface of the Earth and gets weaker as we go farther away.
Gravitational field strength (Nkg-1) is the same as the acceleration due to gravity, g, (ms-2).
The weight of an object is the force of gravity acting upon the object.
The greater the mass of an object, the greater is its weight.
Weight = Mass × Acceleration due to gravityW = mg
Weight
Mass, Weight & Density 4
Measuring Mass & Weight
Mass, Weight & Density 5
triple beam balance
electronic balance
Spring balance
1. A hammer has a mass of 1 kg. What is its weight (i) on Earth (ii) on the Moon (iii) in outer space.
2. The weight of an object on Earth is 55 N. The gravitational field strength on Earth is 10 N/kg. What is the mass of the object.
3. A man has a mass of 70 kg. What is his weight on Jupiter where the field strength is 26 N/kg.
Mass, Weight & Density 6
Example
4. A spacecraft travels from Earth to Mars, where the gravitational field strength near the surface is 3.7 N/kg. The spacecraft is carrying a probe which has a mass of 100 kg when measured on Earth. Assuming that g = 10 N/kg on Earth
a) What is the probe’s weight on Earth?b) What is the probe’s mass in space?c) What is the probe’s mass in Mars?d) What is the probe’s weight on Mars?e) When the probe is falling, near the surface of
Mars, what is its acceleration?Mass, Weight & Density 7
5. What is the acceleration of the rocket on the right?
Mass, Weight & Density 8
weight
3000 N force from rocket enginemass
200 kg
Mass Weight1 is the amount of
substance in the bodyis the force of gravity acting on the body
2 is constant at any location
depends on acceleration due to gravity at the location
3 is a scalar quantity is a vector quantity
4 is measured in kilograms
is measured in newtons
5 is measured using a beam balance or electronic balance (pan balance)
is measured using a spring balance
6 can never be zero can be zeroMass, Weight & Density 9
1. The mass of a full bottle of cooking oil is 1.30 kg.
2. When exactly half of the oil has been used, the mass of the bottle plus the remaining oil is 0.90 kg.
Mass, Weight & Density 10
1. What is the mass of the empty bottle?A. 0.40 kg B. 0.50 kg C. 0.65 kg D. 0.80 kg
Mass, Weight & Density 11
2. 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 gravityC. the mass of the matter it containsD. the pressure it exerts on the floor
Mass, Weight & Density 12
3. What is the gravitational force that the Earth exerts on an object?
A. the density of the objectB. the mass of the objectC. the volume of the objectD. the weight of the object
Mass, Weight & Density 13
4. Which relationship defines gravitational field strength?
A. mass x 10B. mass x weightC. mass / weightD. weight / mass
Mass, Weight & Density 14
5. On the Earth, the gravitational field strength is 10 N/kg. On the Moon, the gravitational field strength is 1.6 N/kg.
If an object has a weight of 50 N on Earth, what is its weight on the Moon?
A. 1.6 N B. 5.0 N C. 8.0 N D. 80 N
Mass, Weight & Density 15
6. At a point on the surface of the Earth, the gravitational field strength is 9.8 N / kg.
Which pair of values for mass and weight are correct for an object placed at this point?
Mass, Weight & Density 16
C
7. A body of mass 10 kg falling freely in the gravitational field close to the Moon’s surface has an acceleration of 1.6 m / s2.
What is the gravitational field strength on the Moon?
A. 0 N / kgB. 1.6 N / kgC. 10 N / kgD. 16 N / kg
Mass, Weight & Density 17
8. An object that has a mass of 15 kg on the Earth is taken to the Moon.
The gravitational field strength on the Earth is 10 N / kg and on the Moon is 1.6 N / kg.
What are the mass and the weight of the object on the Moon?
Mass, Weight & Density 18A
9. The table shows the weight of a 10 kg mass on each of five planets.
Mass, Weight & Density 19
1. On which planets would an astronaut have a smaller weight than on Earth?
A. Mercury, Mars and JupiterB. Mercury, Venus and MarsC. Mercury, Venus and JupiterD. Venus, Mars and Jupiter
Mass, Weight & Density 20
10. Which statement is correct?A. Mass is a force, measured in kilograms.B. Mass is a force, measured in newtons.C. Weight is a force, measured in kilograms.D. Weight is a force, measured in newtons.
Mass, Weight & Density 21
11. Which of the following statements is correct?
A. Mass and weight are different names for the same thing.
B. The mass of an object is different if the object is taken to the Moon.
C. The weight of a car is one of the forces acting on the car.
D. The weight of a chocolate bar is measured in kilograms.
Mass, Weight & Density 22
12. Which statement is correct?A. The mass of a bottle of water at the North
Pole is different from its mass at the Equator.B. The mass of a bottle of water is measured in
newtons.C. The weight of a bottle of water and its mass
are the same thing.D. The weight of a bottle of water is one of the
forces acting on it.
Mass, Weight & Density 23
13. A brick is placed on a newton balance X and then on a beam balance Y.
What is measured by each balance?
Mass, Weight & Density 24C
14. In a laboratory on Earth, balances show that an object has a mass of 2 kg and a weight of 20 N.
The same balances and object are then taken to the Moon, where the gravitational field strength is less than on the Earth.
Are the mass and weight of the object the same, or less, than before?
Mass, Weight & Density 25C
15. A stone is weighed using a newtonmeter (spring balance) and a pair of scales (pan balance).
This experiment is repeated on the Moon. Are the readings for each balance the same or
different when taken on Earth and on the Moon?
Mass, Weight & Density 26B
16. When two blocks X and Y are placed on a uniform beam, the beam balances on a pivot at its centre as shown.
Mass, Weight & Density 27
1. 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.
Mass, Weight & Density 28
17. The weight of an object is to be found using the beam balance shown in the diagram.
Mass, Weight & Density 29
1. The object is put in the left-hand pan and various standard weights are put in the right-hand pan, with the following results.
Mass, Weight & Density 30
1. What is the best estimate of the weight of the object?
A. 0.27 NB. 0.29 NC. 0.31 ND. 0.58 N
Mass, Weight & Density 31
The density of a substance is defined as its mass per unit volume.
The SI unit for density is kilogram per cubic metre (kgm-3) but other units like gram per cubic centimeter (gcm-3) is also commonly used.
1 gcm-3 = 1000 kgm-3
Mass, Weight & Density 32
Density
Volume
Mass Density
1. A cylinder has a base of area 100 cm2 and contains water to a height of 10 cm. A piece of rock mass 600 g is lowered into the water and the water level rises to a height of 12 cm.
a. What is the volume of the piece of rock?b. Calculate the density of the rock.
2. The density of a solid is 4 g/cm3. What is the volume of 200 g of the solid.
3. An empty measuring cylinder has a mass of 200 g. A liquid is poured into the measuring cylinder until the liquid is at the 80 cm3 mark. The total mass is now 272 g. What is the density of the liquid in g/cm3? Mass, Weight & Density 33
Example
4. A sample of ethanol has a volume of 240 cm3. Its mass is found to be 190.0 g. What is the density of ethanol.
5. Calculate the density of mercury if 500 cm3 has a mass of 6.60 kg. Give your answer in g/cm3.
6. A steel block has a mass of 40 g. It is in the form of a cube. Each edge of the cube is 1.74 cm long. Calculate the density of the steel.
7. What is the volume of a storage tank which will hold 3200 kg of petrol? Density of petrol = 800 kg/m3.
8. What mass of lead has the same volume of 1600 kg of petrol? Density of petrol = 800 kg/m3 & Density of lead = 11400 kg/m3.
Mass, Weight & Density 34
1. TO DETERMINE THE DENSITY OF WATERApparatusProcedureCalculation Precautionary Measure
EXPERIMENTAL PROCEDURE
Mass, Weight & Density 35
Apparatus electronic balanceMeasuring cylinder
Mass, Weight & Density 36
ProcedureMeasure the mass of the empty measuring
cylinder. Take the average readingFill the measuring cylinder with waterMeasure the mass of the water inside the
measuring cylinder. Take average readingRead the volume of water on the measuring
cylinder
Mass, Weight & Density 37
CalculationMass of the water = mass of measuring
cylinder & water – mass of the empty measuring cylinder
Density of water = mass of water / volume of water
Mass, Weight & Density 38
Precautionary measureAvoid parallax error when reading the
measuring cylinderTo reduce wind interferenceAlways re-zero the electronic balanceTake average reading of the mass
Mass, Weight & Density 39
2. TO DETERMINE THE DENSITY OF SOLID CUBE
Apparatus Procedure Calculation Precautionary Measure
Mass, Weight & Density 40
EXPERIMENTAL PROCEDURE
Apparatus electronic balance30 cm rule
Mass, Weight & Density 41
Procedure measure the mass of the cube using
electronic. Take average readingUsing the rule measure all the length of the
side (length, breadth & height)
Mass, Weight & Density 42
CalculationVolume of cube = length x breadth x heightDensity = mass / volume
Mass, Weight & Density 43
Precautionary measureAvoid parallax errorCheck zero errorReduce wind interferenceTake average reading of mass and length
Mass, Weight & Density 44
3. TO DETERMINE THE DENSITY OF PLASTICINE
Apparatus Procedure Calculation Precautionary Measure
Mass, Weight & Density 45
EXPERIMENTAL PROCEDURE
ApparatusElectronic balanceMeasuring cylinder
Mass, Weight & Density 46
ProcedureMeasuring the mass of the plasticine using the
electronic balance. Take average readingFill the measuring cylinder with water. Take
the initial reading of the meniscus, V1Submerged the palsticine into the cylinder.
Take the new reading of the meniscus, V2
Mass, Weight & Density 47
CalculationVolume of plasticine = V2 – V1Density of plasticine = mass / volume
Mass, Weight & Density 48
Precautionary measureAll plasticine must submergeTake average reading of mass
Mass, Weight & Density 49
4. TO DETERMINE THE DENSITY OF CORK Apparatus Procedure Calculation Precautionary Measure
Mass, Weight & Density 50
EXPERIMENTAL PROCEDURE
ApparatusElectronic balanceEureka canBeakerMeasuring cylinderSinker
Mass, Weight & Density 51
ProcedureMeasuring the mass of the cork using the
electronic balance. Take average readingTied the cork to a sinker with known volume VSubmerged the cork and sinker into the eureka
canMeasure the volume Vm of the excess water
using the measuring cylinder
Mass, Weight & Density 52
CalculationVolume of cork = Vm - VDensity of cork = mass / volume
Mass, Weight & Density 53
1. Some students measure the masses and the volumes of different sized samples of a type of wood.
Which graph shows their results?
Mass, Weight & Density 54
B
2. Which of the following is a unit of density?A. cm3/ gB. g/cm2
C. g/cm3
D. kg /m2
Mass, Weight & Density 55
3. What apparatus is needed to determine the density of a regularly-shaped block?
A. a balance and a rulerB. a balance and a forcemeter (spring balance)C. a measuring cylinder and a rulerD. a measuring cylinder and a beaker
Mass, Weight & Density 56
4. A student does an experiment to estimate the density of an irregularly-shaped stone.
5. Which items of equipment are needed?A. a balance and a measuring cylinder
containing waterB. a balance and a rulerC. a ruler and a measuring cylinder containing
waterD. only a measuring cylinder containing water
Mass, Weight & Density 57
5. A student is trying to find the density of water and of a large, regularly-shaped solid.
6. Which apparatus is needed to find the density of both?
A. balance, clock, rulerB. balance, measuring cylinder, rulerC. balance, measuring cylinder, stringD. clock, ruler, string
Mass, Weight & Density 58
6. A student needs to find the density of a cubic block of wood.
7. Which two pieces of apparatus should she use?
A. balance and metre ruleB. balance and thermometerC. measuring cylinder and metre ruleD. measuring cylinder and thermometer
Mass, Weight & Density 59
7. A student is trying to find the density of a stone, but he has mixed up the instruction cards.
Mass, Weight & Density 60
What order should the cards be in?A. 5 → 3 → 6 → 2 → 1 → 4→ 7B. 1 → 5 → 3 → 6 → 2 → 7 → 4C. 5 → 6 → 3 → 2 → 1 → 7 → 4D. 1 → 4 → 5 → 3 → 6 → 2 → 7
Mass, Weight & Density 61
8. A person measures the length, width, height and mass of a rectangular metal block.
Which of these measurements are needed in order to calculate the density of the metal?
A. mass onlyB. height and mass onlyC. length, width and height onlyD. length, width, height and mass
Mass, Weight & Density 62
9. A student pours liquid into a measuring cylinder.
10. The student records the volume of the liquid from the scale on the measuring cylinder. He then puts the measuring cylinder containing the liquid on a balance and records the mass.
11. What else needs to be measured before the density of the liquid can be calculated?
A. the depth of the liquid in the measuring cylinderB. the mass of the empty measuring cylinderC. the temperature of the liquid in the measuring cylinderD. the volume of the empty measuring cylinder
Mass, Weight & Density 63
10. A student tries to find the density of a metal block. First he measures the weight with a forcemeter (spring balance). Next he measures the sides of the block using a rule, in order to calculate the volume of the block. Finally he divides the weight by the volume to find the density.
The student has made a mistake. Why does his method not give the density?
A. Density is volume divided by weight.B. He should have measured the surface area, not the
volume.C. He should have used the mass in his calculation, not the
weight.D. Weight is not measured with a forcemeter (spring
balance).Mass, Weight & Density 64
11. Ten identical steel balls, each of mass 27 g, are immersed in a measuring cylinder containing 20 cm3 of water.
The reading of the water level rises to 50 cm3.
What is the density of the steel?A. 0.90 g/cm3 B. 8.1 g/cm3
C. 9.0 g/cm3
D. 13.5 g/cm3
Mass, Weight & Density 65
12. A measuring cylinder containing some water stands on a scale pan. A solid ball is lowered into the water.
The water level rises from the 30 cm3 mark to the 40 cm3 mark. The scale reading increases from 100 g to 180 g. What is the density of the material of the ball?
A. 2.0 g / cm3 B. 4.5 g / cm3
C. 8.0 g / cm3
D. 18 g / cm3 Mass, Weight & Density 66
13. The masses of a measuring cylinder before and after pouring some liquid are shown in the diagram.
What is the density of the liquid?
Mass, Weight & Density 67
D
14. The masses of a measuring cylinder before and after pouring some liquid into it are shown in the diagram.
What is the density of the liquid?
Mass, Weight & Density 68B
15. The mass of a measuring cylinder is measured before and after pouring a liquid into it.
Mass, Weight & Density 69
1. What is the density of the liquid?A. 0.79 g / cm3
B. 1.3 g / cm3
C. 1.4 g / cm3 D. 2.2 g / cm3
Mass, Weight & Density 70
16. An object of mass 100 g is immersed in water as shown in the diagram.
What is the density of the material from which the object is made?
A. 0.4 g / cm3
B. 0.9 g / cm3
C. 1.1 g / cm3
D. 2.5 g / cm3
Mass, Weight & Density 71
17. The diagram shows an experiment to find the density of a liquid.
Mass, Weight & Density 72
1. 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
Mass, Weight & Density 73
18. The diagram shows some liquid in a measuring cylinder. The mass of the liquid is 16 g.
What is the density of the liquid?A. 320 g / cm3 B. 36 g / cm3 C. 1.25 g / cm3 D. 0.8 g / cm3
Mass, Weight & Density 74
19. The diagram shows a material with dimensions 5 cm × 4cm × 2 cm. It has a mass of 100 g.
What is the density of the material?A. 0.40 g / cm3
B. 2.5 g / cm3
C. 5.0 g / cm3
D. 10 g / cm3
Mass, Weight & Density 75
20. The diagram shows a rectangular metal block measuring 10 cm × 5.0 cm × 2.0 cm.
Mass, Weight & Density 76
1. Its mass is 250 g.2. 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
Mass, Weight & Density 77
21. A metal drum has a mass of 200 kg when empty and 1000 kg when filled with 1.0 m3 of methylated spirit.
22. What is the density of methylated spirit?A. 0.0050 kg / m3
B. 0.11 kg / m3
C. 800 kg / m3
D. 1000 kg / m3
Mass, Weight & Density 78
22. A lump of metal has a mass of 210 g. It is lowered into a measuring cylinder containing water.
23. The level of the water rises from 35 cm3 to 140 cm3.
Mass, Weight & Density 79
1. What is the density of the metal?A. 0.67 g / cm3
B. 1.5 g / cm3
C. 2.0 g / cm3
D. 6.0 g / cm3
Mass, Weight & Density 80
23. Three objects are cut from the same sheet of steel. They are different shapes but they all have the same mass.
Which object has the greatest density?A. the discB. the L-shapeC. the squareD. they all have the same density
Mass, Weight & Density 81
24. The diagram shows four blocks, each made of glass of density 2.6 g / cm3.
The top of each block has an area of 1 cm2. Which block has a mass of 13 g?
Mass, Weight & Density 82
C
25. Each of the solids shown in the diagram has the same mass.
26. Which solid has the greatest density?
Mass, Weight & Density 83
B
26. A box X full of large granite rocks is weighed. An identical box Y full of small granite chippings is then weighed.
Which box weighs more and why?
Mass, Weight & Density 84
C
27. The same mass of four different liquids is placed in some measuring cylinders.
Which measuring cylinder contains the liquid with the greatest density?
Mass, Weight & Density 85
B
28. Four blocks, each made from a different material, are placed on scales and balanced as shown in the diagrams below.
In which diagram does the block have the greatest density?
Mass, Weight & Density 86A
29. Two identical measuring cylinders containing different liquids are placed on a simple balance.
30. They balance as shown.
Mass, Weight & Density 87
1. How does the density of X compare with the density of Y?
Mass, Weight & Density 88
A
LEARNING OUTCOMES
MASS, WEIGHT & DENSITY
Mass, Weight & Density 89
State that mass is a measure of the amount of substance in a body.
State that mass of a body resists change from its state of rest or motion.
Mass & Weight
Mass, Weight & Density 90
State that a gravitational field is a region in which a mass experiences a force due to gravitational attraction.
Calculate weight from the equation weight = mass x gravitational field strength.
Explain that weights, and therefore masses, may be compared using a balance.
Describe how to measure mass and weight by using appropriate balances.
Gravitational Fields
Mass, Weight & Density 91
Describe how to use a measuring cylinder to measure the volume of a liquid or solid.
Describe how to determine the density of a liquid, of a regularly shaped solid and of an irregularly shaped solid which sinks in water (volume by displacement).
Make calculations using the formula density = mass/volume.
Density
Mass, Weight & Density 92
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