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Physics Module Form 4 Chapter 4: Heat
CHAPTER 4: HEAT 4.1 : UNDERSTANDING THERMAL EQUILIBRIUM By the end of this subtopic, you will be able to •
Explain thermal equilibrium
•
Explain how a liquid-in glass thermometer works
Thermal equilibrium :Keseimbangan terma
………….. rate of energy transfer A Hot object
B
Equivalent to
Equivalent to
Cold object No net heat transfer
………….. rate of energy transfer
1.
The net heat will flow from A to B until the temperature of A is the ( same, zero as the temperature of B. In this situation, the two bodies are said to have reached thermal equilibrium.
2.
When thermal equilibrium is reached, the net rate of heat flow between the two bodies is (zero, equal)
3.
There is no net flow of heat between two objects that are in thermal equilibrium. Two objects in thermal equilibrium have the ……………… temperature.
4.
The liquid used in glass thermometer should …………………………………………………………………………….. (a) Be easily seen ………………………………………………………………………………. (b) Expand and contract rapidly over a wide range of temperature …………………………………………………………………………….. (c) Not stick to the glass wall of the capillary tube
5.
List the characteristic of mercury …………………………………………………………………………………….. (a) Opaque liquid ……………………………………………………………………………………. (b) Does not stick to the glass ……………………………………………………………………………………. (c) Expands uniformly when heated ……………………………………………………………………………………. (d) Freezing point -390C ……………………………………………………………………………………. (e) Boiling point 3570C
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Physics Module Form 4 Chapter 4: Heat
6.
( Heat, Temperature ) is a form of energy. It flows from a hot body to a cold body.
7.
The SI unit for ( heat , temperature) is Joule, J.
8.
( Heat , Temperature ) is the degree of hotness of a body
9.
The SI unit for (heat , temperature) is Kelvin, K.
10.
……………………………..… : the temperature of pure melting ice/00C Lower fixed point (l 0 )/ ice point ………………………………… Upper fixed point( l 100)/steam point: the temperature of steam from water that is boiling
11.
under standard atmospheric pressure /1000C
Temperature, θ =
l0 l100 lθ
lθ - l0 x 1000C l100 - l0
: length of mercury at ice point : length of mercury at steam point : length of mercury at θ point
Exercise 4.1 Section A: Choose the best answer 1.
The figure shows two metal blocks. Which the following statement is false?
A. B. C. D. 2.
A. It warms the surroundings B. It warms the water of the tea C. It turns into heat energy and disappears. 3.
Which of the following temperature corresponds to zero on the Kelvin scale? A. 2730 C B. 00C C. -2730 C D. 1000 C
4.
How can the sensitivity of a liquid- in –glass thermometer be increased?
P and Q are in thermal contact P and Q are in thermal equilibrium Energy is transferred from P to Q Energy is transferred from Q to P
When does the energy go when a cup of hot tea cools?
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Physics Module Form 4 Chapter 4: Heat
A. Using a liquid which is a better conductor of heat B. Using a capillary tube with a narrower bore. C. Using a longer capillary tube D. Using a thinner-walked bulb 5.
6.
Which instrument is most suitable for measuring a rapidly changing temperature? A. Alcohol-in –glass thermometer B. Thermocouple C. Mercury-in-glass thermometer D. Platinum resistance thermometer
When shaking hands with Anwar, Kent Hui niticed that Anwar’s hand was cold. However, Anwar felt that Kent Hui hand was warm. Why did Anwar and Kent Hui not feel the same sensation? A. Both hands in contact are in thermal equilibrium. B. Heat is flowing from Kent Hui’s hand to Anawr’s hand C. Heat is following from Anwar’s hand to Kent Hui hand.
Section B: Answer all the questions by showing the calculation 1.
The length of the mercury column at the ice point and steam point are 5.0 cm and 40.0cm respectively. When the thermometer is immersed in the liquid P, the length of the mercury column is 23.0 cm. What is the temperature of the liquid P?
2.
The length of the mercury column at the steam point and ice point and are 65.0 cm and 5.0cm respectively. When the thermometer is immersed in the liquid Q, the length of the mercury column is 27.0 cm. What is the temperature of the liquid Q? Temperature, θ = lθ – l0 x 1000C l100 – l0 θ = 27 – 5 x 1000C 65 - 5 θ = 36.670C
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3.
Physics Module Form 4 Chapter 4: Heat
The distance between 00C and 1000C is 28.0 cm. When the thermometer is put into a beaker of water, the length of mercury column is 24.5cm above the lower fixed point. What is the temperature of the water?
4.
The distance between 00C and 1000C is 25 cm. When the thermometer is put into a beaker of water, the length of mercury column is 16cm above the lower fixed point. What is the temperature of the water? What is the length of mercury column from the bulb at temperatures i) 300C
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Physics Module Form 4 Chapter 4: Heat
SECTION C: Structured Questions 1.
Luqman uses an aluminium can, a drinking straw and some plasticine to make a simple thermometer as shown in figure below. He pours a liquid with linear expansion into the can.
(a) Suggest a kind of liquid that expands linearly. (1m) ……………………………………………………………………………………………. (b) He chooses two fixed points of Celsius scale to calibrate his thermometer. State them (2m) ……………………………………………………………………………………………… ……………………………………………………………………………………………… (c) If the measurement length of the liquid inside the straw at the temperature of the lower fixed point and the upper fixed point are 5cm and 16 cm respectively, find the length of the liquid at 82.50C.
(d) Why should he use a drinking straw of small diameter? ……………………………………………………………………………………………… (e) What kind of action should he take if he wants to increase the sensitivity of his thermometer? ……………………………………………………………………………………………… ………………………………………………………………………………………………
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Physics Module Form 4 Chapter 4: Heat
What do you mean by heat and temperature? …………………………………………………………………………………………….... ……………………………………………………………………………………………… ………………………………………………………………………………………………
4.2
: UNDERSTANDING SPECIFIC HEAT CAPACITY By the end of this subtopic, you will be able to
1.
•
Define specific heat capacity
•
State that c = Q/MCθ
•
Determine the specific heat capacity of a liquid
•
Determine the specific heat capacity of a solid
•
Describe applications of specific heat capacity
•
Solve problems involving specific heat capacity
Heat capacity Muatan haba Specific heat capacity Muatan haba tentu
The ……………….. of a body is the …………………….. that must be supplied to the body to increase its temperature by 10C.
2.
3.
The heat capacity of an object depends on the (a)
……………………………………………………………………………………….
(b)
……………………………………………………………………………………….
(c)
………………………………………………………………………………………
The ………………………of a substance is the amount of heat that must be supplied to increase the temperature by 1 0C for a mass of 1 kg of the substance. Unit Jkg-1 K-1 Specific heat capacity , c =
Q__ m∆θ
4.
The heat energy absorbed or given out by an object is given by Q = mc∆O.
5.
High specific heat capacity absorb a large amount of heat with only a ……………temperature increase such as plastics.
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6.
Physics Module Form 4 Chapter 4: Heat
Conversion of energy Electrical energy …………energy
Heater Power = P
…………..energy
Object falls from A high position
…………..energy
7.
Moving object stopped due to friction
Heat energy Pt = mcθ
Heat energy mgh= mcθ
Heat energy ½ mv2= mcθ
Applications of Specific Heat Capacity ………. increase in temperature Small value of c
……………. increase in temperature Two object of equal mass
Big value of c
Equal rate of heat supplied
Explain the meaning of above application of specific heat capacity: (a) (i)
Water as a coolant in a car engine .................................................................................................................................... .................................................................................................................................... .................................................................................................................................... .................................................................................................................................... ....................................................................................................................................
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(b)
Physics Module Form 4 Chapter 4: Heat
Household apparatus and utensils ………………………………………………………………………………………... ………………………………………………………………………………………... ………………………………………………………………………………………... ………………………………………………………………………………………...
(c)
Sea breeze ……………………………………………… ……………………………………………… ……………………………………………… ……………………………………………… ……………………………………………… ……………………………………………… ………………………………………………
(d)
Land breeze ……………………………………………… ……………………………………………… ……………………………………………… ……………………………………………… ……………………………………………… ………………………………………………
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Physics Module Form 4 Chapter 4: Heat
Exercise 4.2 SECTION A : Choose the best answer 1. The change in the temperature of an object does not depend on A. the mass of the object B. the type of substance the object is made of C. the shape of the object D. the quantity of heat received
3. Heat energy is supplied at the same rate to 250g of water and 250g of ethanol. The temperature of the ethanol rises faster. This is because the ethanol.. A. is denser than water B. is less dense than water C. has a larger specific heat capacity than water D. has a smaller specific heat capacity than water
2. Which of the following defines the specific heat capacity of a substance correctly? A. The amount of heat energy required to raise the temperature of 1kg of the substance B. The amount of heat energy required to raise 1kg of the substance by 10C. C. The amount of heat energy required to change 1kg of the substance from the solid state to the liquid state.
4. In the experiment to determine the specific heat capacity of a metal block, some oil is poured into the hole containing thermometer. Why is this done? A. To ensure a better conduction of heat B. To reduce the consumption of electrical energy C. To ensure the thermometer is in an upright position. D. To reduce the friction between the thermometer and the wall of the block.
SECTION B: Answer all questions by showing the calculation 1.
How much heat energy is required to raise the temperature of a 4kg iron bar from 320C to 520C? (Specific heat capacity of iron = 452 Jkg-1 0C-1).
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2.
Physics Module Form 4 Chapter 4: Heat
Calculate the amount of heat required to raise the temperature of 0.8 kg of copper from 350C to 600C. (Specific heat capacity of copper = 400 J kg-1 C-1).
3.
Calculate the amount of heat required to raise the temperature of 2.5 kg of water from 320C to 820C. (Specific heat capacity of water = 4200 J kg-1 C-1).
4.
750g block of a aluminium at 1200C is cooled until 450C. Find the amount of heat is released. . (Specific heat capacity of aluminium = 900 J kg-1 C-1).
5.
0.2 kg of water at 700C is mixed with 0.6 kg of water at 300C. Assuming that no heat is lost, find the final temperature of the mixture. (Specific heat capacity of water = 4200 J kg-1 C-1)
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Physics Module Form 4 Chapter 4: Heat
SECTION C: Structured questions 1.
In figure below, block A of mass 5kg at temperature 1000C is in contact with another block B of mass 2.25kg at temperature 200C. 5kg 2.25kg A B 1000C
200C
Assume that there is no energy loss to the surroundings. (a) Find the final temperature of A and B if they are in thermal equilibrium. Given the specific heat capacity of A and B are 900 Jkg-1 C-1 and 400 Jkg-1 C-1 respectively.
(b) Find the energy given by A during the process.
(c) Suggest one method to reduce the energy loss to the surroundings. …………………………………………………………………………………………..
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4.3
Physics Module Form 4 Chapter 4: Heat
UNDERSTANDING SPECIFIC LATENT HEAT
By the of this subtopic, you will be able to •
State that transfer of heat during a change of phase does not cause a change in temperature
•
Define specific latent heat
•
State that l = Q/m
•
Determine the specific latent heat of fusion and specific latent heat of vaporisation
•
Solve problem involving specific latent heat.
1.
Four main changes of phase. Gas Boiling Latent heat ………….
Solid
2.
Solidification Latent heat …………
Condensation Latent heat …………
Liquid
The heat absorbed or the heat released at constant temperature during a change of phase is known as latent heat. Q= ml
3.
Complete the diagrams below and summarized. (a) Melting ………………………………………
Temperature
……………………………………… ……………………………………… ……………………………………… ……………………………………… ……………………………………… ……………………………………….
Time
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Physics Module Form 4 Chapter 4: Heat
(b) Boiling
………………………………………
Temperature
……………………………………… ……………………………………… ……………………………………… ……………………………………… ……………………………………… Time
(c) Solidification Temperature
……………………………………….
……………………………………… ……………………………………… ……………………………………… ……………………………………… ……………………………………… ……………………………………… Time
……………………………………….
(d) Condensation ………………………………………
Temperature
……………………………………… ……………………………………… ……………………………………… ……………………………………… ……………………………………… Time
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……………………………………….
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4.
Physics Module Form 4 Chapter 4: Heat
…………………………………is the heat absorbed by a melting solid. The specific latent heat of fusion is the quantity of the heat needed to change 1kg of solid to a liquid at its melting point without any increase in ……………………….. The S.I unit of the specific latent heat of fusion is Jkg-1.
water
ice
5.
…………………………………...
is heat of vaporisation is heat absorbed during boiling.
The specific latent heat of vaporisation is the quantity of heat needed to change 1kg of liquid into gas or vapour of its boiling point without any change in …………………….. The S.I unit is Jkg-1.
gas
water
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6.
Physics Module Form 4 Chapter 4: Heat
Explain the application of Specific Latent Heat above:
: (d)
Cooling of beverage ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ………………………………………………………………………………………………
(e)
Preservation of Food ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ………………………………………………………………………………………………
(f)
Steaming Food ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ………………………………………………………………………………………………
(g)
Killing of Germs and Bacteria ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ………………………………………………………………………………………………
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Physics Module Form 4 Chapter 4: Heat
EXERCISE 4.3 Section A: 3. It is possible to cook food much faster with a pressure cooker as shown above. Why is it easier to cook food using a pressure cooker?
1. The graph in figure below shows how the temperature of some wax changes as it cools from liquid to solid. Which section of the graph would the wax be a mixture of solid and liquid?
A. B. C. D.
A. More heat energy can be supplied to the pressure cooker B. Heat loss from the pressure cooker can be reduced. C. Boiling point of water in the pressure cooker is raised D. Food absorbs more heat energy from the high pressure steam
PQ QR RS ST
2. Figure show a joulemeter used for measuring the electrical energy to melt some ice in an experiment. To find the specific latent heat of fusion of ice, what must be measured?
4. Which of the following is not a characteristics of water that makes it widely used as a cooling agent? A. Water is readily available B. Water does not react with many other substance C. Water has a large specific heat capacity D. Water has a large density A. The time taken for the ice to melt B. The voltage of the electricity supply C. The mass of water produced by melting ice D. The temperature change of the ice.
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Physics Module Form 4 Chapter 4: Heat
A. determining the rate of melting of ice B. ensuring that the ice does not melt too fast. C. determining the average value of the specific latent heat of fusion of ice. D. determining the mass of ice that melts as a result of heat from the surroundings
5. Figure below shows the experiment set up to determine the specific latent heat of fusion of ice. A control of the experiment is set up as shown in Figure (a) with the aim of
6. Scalding of the skin by boiling water is less serious then by steam. This is because… A. the boiling point of water is less than the temperature of steam B. the heat of boiling water is quickly lost to the surroundings C. steam has a high specific latent heat. D. Steam has a high specific heat capacity.
SECTION B: Answer the question by showing the calculation 1.
300g of ice at 00C melts. How much energy is required for this
Question 2-7 are based on the following information • Specific heat capacity of water = 4 200 J kg-1 C-1 • Specific heat capacity of ice = 2 100 J kg-1 C-1 • Specific latent heat of fusion of ice = 3.36 X 105J kg-1 • Specific latent heat of vaporization of water = 2.26 X 106 J kg-1 2.
An immersion heater rated at 500 W is fitted into a large block of ice at 00C. How long does it take to melt 1.5kg of ice?
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3.
Physics Module Form 4 Chapter 4: Heat
300 g of water at 400C is mixed with x g of water at 800C. The final temperature of the mixture is 700C. Find the value of x
4.
Calculate the amount of heat released when 2 kg of ice at 00C is changed into water at 00C.
5.
Calculate the amount of heat needed to convert 3 kg of ice at 00C to water at 300C.
6.
Find the amount of heat needed to convert 0.5 kg of ice at -150C into steam at 1000C
7.
Calculate the amount of heat needed to convert 100 g of ice at 00C into steam at 1000C.
8.
The specific latent heat of vaporization of water is 2300 kJ kg-1. How much heat will be absorbed when 3.2 kg of water is boiled off at its boiling point.
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4.4
Physics Module Form 4 Chapter 4: Heat
UNDERSTANDING THE GAS LAW
By the end of this subtopic; you will be able to : •
Explain gas pressure, temperature and volume in terms of the behaviour of gas molecules.
•
Determine the relationship between (i)
pressure and volume
(ii)
volume and temperature
(iii)
pressure and temperature
•
Explain absolute zero and the absolute/Kelvin scale of temperature
•
Solve problems involving pressure, temperature and volume of a fixed mass of gas
1.
Complete the table below. Explanation
Property of gas Volume,V •
m3
Temperature,T •
K (Kelvin)
Pressure,P •
2.
Pa(Pascal)
The kinetic theory of gas is based on the following assumptions: ................................................................................................................................................ ................................................................................................................................................ ................................................................................................................................................ ................................................................................................................................................
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4.4.1
Physics Module Form 4 Chapter 4: Heat
Boyle’s Law
Pα1 V That is PV = constant Or P1V1 = P2V2
Small volume molecules hit wall more often, greater pressure
Relationship between pressure and volume
1.
Boyle’s law states that……………………………………………………………………...
……………………………………………………............................................................................ 2.
Boyle’s law can be shown graphically as in Figure above P
P
0
0
V
(a) P inversely proportional to V
1/V
(b) P directly proportional to 1/V
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3.
Physics Module Form 4 Chapter 4: Heat
The volume of an air bubble at the base of a sea of 50 m deep is 250cm3. If the atmospheric pressure is 10m of water, find the volume of the air bubble when it reaches the surface of the sea. P2= 10m PI=50m + 10m V1=250cm3
4.4.2
Charles’s Law
VαT that is V = constant T
Relationship between volume and temperature
Higher temperature, faster molecules, larger volume to keep the pressure constant
Lower temperature
1.
Charles’ law states ……………………………………………………………………….
…………………………………………………………………………………………… ……… The temperature -2730C is the lowest possible temperature and is known as the absolute zero of temperature.
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2.
Physics Module Form 4 Chapter 4: Heat
Fill the table below. Temperature
Celsius scale (0C)
Kelvin Scale(K)
Absolute zero Ice point Steam point Unknown point 3.
Complete the diagram below.
-273
4.4.3
100
θ/0C
Pressure’s Law
PαT That is P = constant T
Relationship between pressure and temperature
1.
Higher temperature molecules move faster, greater pressure
The pressure law states ………………………………………………………………....
………………………………………………………………………………………………..
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Physics Module Form 4 Chapter 4: Heat
EXERSICE 4.4:Gas Law 1. A mixture of air and petrol vapour is injected into the cylinder of a car engine when the cylinder volume is 100 cm3. Its pressure is then 1.0 atm. The valve closes and the mixture is compressed to 20 cm3. Find the pressure now.
2. The volume of an air bubble at the base of a sea of 50 m in deep is 200 cm3. If the atmospheric pressure is 10 m of water, find the volume of the air bubble when it reaches the surface of the sea.
3. The volume of an air bubble is 5 mm3 when it is at a depth of h in below the water surface. Given that its volume is 15 mm3 when it is at a depth of 2 in, find the value of h. (Atmospheric pressure = 10 m of water)
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Physics Module Form 4 Chapter 4: Heat
4. An air bubble has a volume of V cm3 when it is released at a depth of 45m from the water surface. Find its volume (V) when it reaches the water surface. (Atmospheric pressure = 10 m of water)
5. A gas of volume 20m3 at 370C is heated until its temperature becomes 870C at constant pressure. What is the increase in volume?
6. The air pressure in a container at 330C is 1.4 X 1O5 N m2. The container is heated until the temperature is 550C. What is the final air pressure if the volume of the container is fixed?
7. The volume of a gas is 1 cm3 at 150C. The gas is heated at fixed pressure until the volume becomes triple the initial volume. Calculate the final temperature of the gas.
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Physics Module Form 4 Chapter 4: Heat
8. An enclosed container contains a fixed mass of gas at 250C and at the atmospheric pressure. The container is heated and temperature of the gas increases to 980C. Find the new pressure of the gas if the volume of the container is
constant.(Atmospheric pressure = 1.0 X 105N
rn2)
9. The pressure of a gas decreases from 1.2 x 105 Pa to 9 x 105 Pa at 400C. If the volume of the gas is constant, find the initial temperature of the gas.
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Physics Module Form 4 Chapter 4: Heat
PART A: CHAPTER 4 1.
A 5kg iron sphere of temperature 500C is put in contact with a 1kg copper sphere of temperature 273K and they are put inside an insulated box. Which of the following statements is correct when they reach thermal equilibrium? D. A iron sphere will have a temperature of 273K E. The copper sphere will have a temperature of 500C. F. Both the sphere have the same temperature. G. The temperature of the iron sphere will be lower than 500C
2.
In the process to transfer heat from one object to another object, which of the following processes does not involve a transfer to material? A. Convection B. Vaporisation C. Radiation D. Evaporation
3.
When we use a microwave oven to heat up some food in a lunch box, we should open the lid slightly. Which of the following explanations is correct? A. To allow microwave to go inside the lunch box B. To allow the water vapors to go out, otherwise the box will explode C. To allow microwave to reflect more times inside the lunch box D. To allow microwave to penetrate deeper into the lunch box.
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4.
Water is generally used to put out fire. Which of the following explanation is not correct? A. Water has a high specific heat capacity B. Steam can cut off the supply of oxygen C. Water is easily available D. Water can react with some material
5.
Given that the heat capacity of a certain sample is 5000 J0C-1. Which of the following is correct? A. The mass of this sample is 1kg. B. The energy needed to increase the temperature of 1 kg of this sample is 5000 J. C. The energy needed to increase the temperature of 0.5kg of this sample is 2500J. D. The temperature of this sample will increase 10C when 5 000 J energy is absorbed by this sample.
6.
Which of the following statement is correct? A. The total mass of the object is kept constant when fusion occurs. B. The internal energy of the object is increased when condensation occurs C. Energy is absorbed when condensation occurs. D. Energy is absorbed when vaporization occurs.
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7.
8.
9.
Physics Module Form 4 Chapter 4: Heat
B. the number of gas molecules increases C. the average distance between the gas molecules increases D. the rate of collision between the gas molecules and the walls increases
Water molecules change their states between the liquid and gaseous states A. only when water vapour is saturated B. at all times because evaporation and condensation occur any time C. only when the vapour molecules produce a pressure as the same as the atmospheric pressure D. only when the water is boiling
10.
Based on the kinetic theory of gas which one of the following does not explain the behaviour of gas molecules in a container? A. Gas molecules move randomly B. Gas molecules collide elastically with the walls of the container C. Gas molecules move faster as temperature increases D. Gas molecules collide inelastically with each other
A plastic bag is filled with air. It is immersed in the boiling water as shown in diagram below.
Which of the following statements is false? A. The volume of the plastic bag increases. B. The pressure of air molecules increases C. The air molecules in the bag move faster D. The repulsive force of boiling water slows down the movement of air molecule
A cylinder which contains gas is compressed at constant temperature of the gas increase because A. the average speed of gas molecules increases
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Physics Module Form 4 Chapter 4: Heat
PART B; 1.
A research student wishes to carry out an investigation on the temperature change of the substance in the temperature range -500C to 500C. The instrument used to measure the temperature is a liquid in glass thermometer. Thermometer
A
B
C
D
Liquid
Mercury
Mercury
Alcohol
Alcohol
Freezing point of liquid (0C)
-39
-39
-112
-112
Boiling point of liquid (0C)
360
360
360
360
Diameter of capillary tube
Large
Small
Large
Small
Cross section
Table 1 (a) (i) State the principle used in a liquid- in –glass thermometer.(1m) ........................................................................................................................................ (ii) Briefly explain the principle stated in (a)(i) (3m) …………………………………………………………………………………………. …………………………………………………………………………………………. …………………………………………………………………………………………. (b) Table 1 shows the characteristic of 4 types of thermometer: A,B C and D. On the basis of the information given in Table 1, explain the characteristics of, and suggest a suitable thermometer for the experiment.(5 m) ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………… ……………………………………………………………………………………………..
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Physics Module Form 4 Chapter 4: Heat
(c) The length of the mercury column in uncalibrated thermometer is 6.0cm and 18.5 cm at 00C and 1000C. respectively. When the thermometer is placed in a liquid, the length of the mercury column is 14.0cm (i)
Calculate the temperature of the liquid
(ii)
State two thermometric properties which can be used to calibrate a thermometer. (6m) ……………………………………………………………………………………………… ……………………………………………………………………………………………… ………………………………………………………………………………………………
2.
A metal block P of mass 500 g is heated is boiling water at a temperature of 1000C. Block P is then transferred into the water at a temperature of 300C in a polystyrene cup. The mass of water in the polystyrene cup is 250 g. After 2 minutes, the water temperature rises to 420C.
Figure 2
Assuming that the heat absorbed by the polystyrene cup and heat loss to the surroundings are negligible.{Specific heat capacity of water 4 200 j kg-1 C-1) Calculate (a)
the quantity of heat gained by water the polystyrene cup
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3.
Physics Module Form 4 Chapter 4: Heat
(b)
the rate of heat supplied to the water
(c)
the specific heat capacity of the metal block P
A student performs an experiment to investigate the energy change in a system. He prepares a cardboard tube 50.0 cm long closed by a stopper at one end. Lead shot of mass 500 g is placed in the tube and the other end of the tube is also closed by a stopper. The height of the lead shot in the tube is 5.0 cm as shown in Figure 3.1. The student then holds both ends of the tube and inverts it 100 times (Figure 3.2).
Figure 3.1
Figure 3.2
(a) State the energy change each time the tube is inverted. ………………………………………………………………………………………….. ………………………………………………………………………………………….. (b) What is the average distance taken by the lead shot each time the tube is inverted?
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Physics Module Form 4 Chapter 4: Heat
(c) Calculate the time taken by the lead shot to fall from the top to the bottom of the tube.
(d) After inverting the tube 100 times, the temperature of the lead shot is found to have increased by 30C. i.
Calculate the work done on the lead shot.
ii.
Calculate the specific heat capacity of lead.
iii.
State the assumption used in your calculation in (d)ii.
……………………………………………………………………………………………... ……………………………………………………………………………………………… ………………………………………………………………………………………………. PART C: EXPERIMENT 1.
Before travelling on a long journey, Luqman measured the air pressure the tyre of his car as shown in Figure (a) He found that the air pressure of the tyre was 200 kPa. After the journey, Luqman measured again the air pressure of the tyre as shown in Figure (b) He found that the air pressure had increase to 245 kPa. Luqman also found that the tyre was hotter after the journey although the size of the tyre did not change. Using the information provided by Luqman and his observations on air pressure in the tyre of his car:
Figure (a)
Figure (b)
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JPN Pahang Student’s Copy
Physics Module Form 4 Chapter 4: Heat
(a) State one suitable inference that can be made. [1 mark] (b) State appropriate hypothesis for an investigation.
[1 mark]
(c) Design an experiment to investigate the hypothesis stated in (b). Choose suitable apparatus such as pressure gauge, a round-bottomed flask and any other apparatus that may he necessary. 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 including the method of controlling the manipulated variable and the method of measuring the responding variable,
vi.
The way you would tabulate the data,
vii. The way you would analyse the data. Inference Hypothesis Aim Variable
Constant variable
:
Manipulate variable : Responding variable : Material and Apparatus
Arrangement of apparatus
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[10 marks]
JPN Pahang Student’s Copy
Physics Module Form 4 Chapter 4: Heat
Procedure
Tabulation of Data
Analysis of Data
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