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Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 1
4 UNDERSTANDING THERMAL EQUILIBRIUM
What is
thermal
equilibrium ?
1. ( Heat, Temperature ) is a form of energy that flows from a hot body to a cold
body.
2. The SI unit for ( heat , temperature) is Joule, J.
3. ( Heat , Temperature ) is the degree of hotness of a body
4. The SI unit for (heat , temperature) is Kelvin, K.
5. When thermal equilibrium is reached, the net rate of heat flow between the two
bodies is (zero, equal)
6. There is no net flow of heat between two objects that are in thermal equilibrium.
Two objects in thermal equilibrium have the …same… temperature irrespective
of shape, mass, size or type of surface.
Calibration of
thermometer
7. The thermometric property of an object is important in the construction of a
thermometer. It is a physical quantity which is sensitive to and changes linearly
with the change in temperature of the object.
4.1
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 2
8. Lower fixed point (l 0 )/ ice point : the temperature of pure melting ice/00C
9. Upper fixed point( l 100)/steam point: the temperature of steam from water that
is boiling under standard atmospheric pressure /1000C
10. The lengths of the mercury column in the mercury-in-glass thermometer is 2.6 cm
at 0OC and 22.6 cm at 100
OC. When the thermometer is placed in hot water, the
length of the mercury column is 16.9 cm. Calculate the temperature of the hot
water.
Liquid-in-glass
thermometer
11. 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
12. 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
13. Which modification increases the sensitivity of the thermometer ?
A. Increasing the size of the bulb
B. Increasing the thickness of the bulb
C. Reducing the diameter of the capillary tube
D. Reducing the length of the capillary tube
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 3
Check Yourself 1
1. The diagram below shows a thermometer is
used to measure the temperature of hot water.
When the thermometer and the hot water are in
thermal equilibrium, which of the following is
not correct ?
A. The temperature of hot water is equal to the
temperature of the thermometer
B. No heat flow between thermometer and hot
water
C. Heat flows from hot water to thermometer
D. Heat flows from thermometer to hot water
2. Which of the following characteristics does a
liquid-in-glass thermometer work ?
A. Volume of a fixed mass of liquid
B. Length of the liquid
C. Resistance of the liquid
D. Pressure of the liquid
3. Which of the following temperatures
corresponds to zero on the Kelvin scale ?
A. 273 O
C
B. 0 O
C
C. -273 O
C
D. 100 O
C
4. Diagram below shows the liquid levels from
the bulb in three thermometers P, Q and R at
certain temperatures.
What is the temperature reading at
thermometer R ?
A. 70.8 O
C
B. 65.4 O
C
C. 62.5 O
C
D. 57.7 O
C
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 4
4 UNDERSTANDING SPECIFIC HEAT CAPACITY
Definition of Heat Capacity
1. Quantity of heat energy required to raise the temperature of an object by
10C.
2. The unit of heat capacity is J0C-1
3. Beaker A has (greater, same, less) heat capacity than beaker B.
4. This means that the (bigger, smaller) the mass, the (larger, smaller) the
amount of heat stored.
Definition of Specific Heat
Capacity
1. Quantity of heat energy required to raise the temperature of 1 kg of a
substance by 10C.
2. The unit of specific heat capacity is Jkg-1 0C-1
3. An object with low specific heat capacity can be heated up quickly, as it
requires less heat to increase its temperature by 10C. It can be cooled quickly
due to little amount of heat stored in it.
4. An object with high specific heat capacity takes longer time to heat up, as it
requires more heat to increase its temperature by 10C. It is harder to cool
down due to larger amount of heat stored in it.
Q = Pt
Pt = mc
Q = Heat supplied
P = Power of heater
T = Time in seconds
M = mass of substance
C = Specific heat capacity
= Increase in
temperature
4.2
A
A
B
A
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 5
Determining the heat capacity
of aluminium block
1. The purpose of wrapping the aluminium blok with wool heat loss to or
absorption of heat from the surrounding.
2. Oil in the holes for housing thermometer and the immersion heater is to
improve the conduction of heat from the heater to the thermometer through
the aluminium block.
3. The immersion heater of 50 W rated power is used for 5 minutes to heat up
the aluminium block. If the mass of the alumimium block is 1.0 kg and the
rise in temperature is 160C, what is the specific heat capacity of aluminium ?
15000937.5
1 16
PtC
m
Jkg-10C-1
4. Specific heat capacity calculated is usually larger than the standard value
because some heat is lost to the surroundings.
Aim To investigate the relationship between temperature rise and mass of water
Experiment
Hypothesis When the mass of water …increases… the temperature rise will …decrease….
Manipulated variable Mass of water
Responding variable Rise in temperature
Fixed variable Heating duration, water, weighing scale, power rating of heater used
Apparatus Thermometer, water, beaker water, weighing scale
Setup
800C 600C 800C 400C
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 6
Procedure
1. 100 ml of water is placed in a 500 ml beaker.
2. A heater is placed in the water.
3. Heating process is carried out for 1minute.
4. Highest temperature achieved is recorded.
5. Step 2 to 4 is repeated for 200ml, 300ml, 400ml and 500ml of water.
Analysis
Volume of
water used,
V (ml)
Final
temperature,
T2 (0C)
Initial
temperature,
T1 (0C)
Rise in
temperature,
= T2 – T1
(0C)
1/ (0C-1)
100
200
300
400
500
Conclusion
V
1/
Applications of specific heat capacity
Water as heating agent in
heating radiator
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 7
Water as a coolant in car
engine
Sea Breeze
(wind from the sea)
Land Breeze (wind from the
land)
2. Hot air rises up
from the land
1. During the day
land gets hotter
than the sea
because c land < c sea
3. Cold water will be
recirculated to repeat
the process continously
1. Cool water is pumped into the hot
water reservoir to absorb a large amount
of heat due to its high specific heat capacity.
1. Cool water is pumped
into the hot engine
3. Cool water is recirculated
through the engine blocks
and the process continues
while the engine is running
2. High specific heat
capacity of water allows it
to absorb a large amount of
heat from the engine
2. hot air rises
from the sea
2. Heat from hot water is
released to the cooler
surroundings of a room to
achieve thermal equilibrium
4. Hot water is
cooled by the
air from the
cooling fins
and the fan
3. Cool air
blows from
the sea to
replace the
space left by
the hot air
and
convection
currents in
the air are formed
3. Cooler
air blows
from the
land to
replace the
space left
by the hot
air and
convection
currents in
the air are
formed.
1. During the
night, the sea
is hotter than
the land
because
c land < c sea
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 8
Household apparatus and
utensils
Check Yourself 1
1. Table below shows four types of liquid with
their respective specific heat capacities and
boiling points. All the liquids have the same
mass and same temperatures of 30oC. If the
same amount of heat is supplied to them,
which liquid, A, B, C or D will boil first ?
Liquid Specific heat
capacity (Jkg-10C-1) Boiling point
(oC)
A 3.0 50
B 5.0 80
C 4.2 100
D 0.2 200
2. Table below shows the specific heat capacity
of four different metals.
Which of the following is the most suitable
metal to be used in a rice cooker for fast
heating ?
A. P
B. Q
C. R
D. S
3. Diagram below shows a bullet moving at a
velocity of 60 ms-1
is embedded in a wooden
block.
Assuming all the energy lost by the bullet is
converted to heat energy and is absorbed by
the bullet. What is the rise in temperature of
the bullet ? ( Specific heat capacity of the
bullet = 120 Jkg-10C-1)
A. 0.5 oC
B. 2.0 oC
C. 30.0 oC
D. 60.0 oC
4. Diagram below shows 200 g of water at 0 oC is
poured into a cup containing 400 g of water at
80 oC . Assuming there is no heat loss to the
surroundings.
What is the final temperature of the mixture ?
[ Specific heat capacity of water = 4200 Jkg-10
C-1]
A. 53 oC
B. 60 oC
C. 66 oC
D. 70 oC
Plastic handle High specific heat capacity
Steel High specific heat
capacity
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 9
5. Diagram below
shows the
temperature-
time graph of
two solids X
and Y of equal
mass but of
different substances are heated
simultaneously by identical heaters.
Which of the following comparison is correct?
A. Cx > Cy
B. Cx < Cy
C. Cx = Cy
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 10
4 UNDERSTANDING SPECIFIC LATENT HEAT
Definition of
Latent Heat
1. Latent Heat is the total energy absorbed or released when a substance changes its physical
state completely at a constant temperature.
2. Latent Heat of fusion is heat absorbed when solid changes into liquid or heat released when
liquid changes into solid at constant temperature.
3. Latent Heat of vaporization is heat absorbed when liquid changes into vapour or heat
released when vapour changes into liquid at constant temperature.
4. Unit for latent heat is Joule (J).
5. Process in which solid directly changes into vapour is called sublimation.
Definition of
Specific
Latent Heat
1. Specific Latent Heat of fusion is heat absorbed when1 kgsolid changes into liquid or heat
released when liquid changes into solid at constant temperature.
2. Specific Latent Heat of vaporization is heat absorbed when1 kgliquid changes into vapour or
heat released when vapour changes into liquid at constant temperature.
3. Unit for latent heat is Jkg-1
.
4. When temperature remain constant, kinetic energy of the molecules remain constant.
However energy absorbed is used to overcome forces of attraction and atmospheric pressure.
4.3
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 11
Heating curve Fill the empty boxes for the heating curve below with the following words
Calculation
of specific
latent heat of
fusion
1. Calculate energy supplied by the heater.
Q = Pt = (80)(3x60) = 14400 J
2. What is the mass of ice melted due to the heat absorbed from the surroundings?6.4 g
3. Determine the specific latent heat of fusion of ice.
L = m
Pt=
3
(80)(3 60)
(49.2 6.4) 10
=
3
14400
42.8 10= 3.364×10
5Jkg
-1
Solid, liquid, gas, boiling point, melting point,
latent heat of fusion, latent heat of vaporization
Mass of water collected in Set A = 49.2 g
Mass of water collected in Set B = 6.4 g
Power of heater = 80 W
Time interval of switching on the heater = 3 minutes
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 12
Check Yourself 1
1. Diagram below shows the cooling curve of a
Gas. Temperatures T1 and T2 represents
T1 T2
A. Solidification Room temperature
B. Boiling Point Solidification point
C. MeltingPoint Freezing Point
D. Melting Point Room temperature
2. Diagram below shows the heating curve of a
solid Y of mass 2 kg which is heated by a
heater of 70 W power. Which statement
below is NOT true ?
A. Specific latent heat of Y is 10500 Jkg-1
.
B. Specific heat capacity of solid Y and
liquid Y are the same
C. Total heat used is 1120 J
D. Melting point of Y is 10oC
3. Diagram below shows the arrangement of
apparatus used to determine the specific latent
heat of vaporization of water. The water in the
beaker is heated by an immersion heater with a
power of 1 kW. The beaker and its content is
resting on an electronic balance which
measures the mass of the beaker and its
content.
When the water is boiling, it is found that 80 g
of water is boiled away in 3 minutes.
What is the specific latent heat of vaporization
of water ?
A. 2.10 x 106 Jkg
-1
B. 2.15 x 106 Jkg
-1
C. 2.20 x 106 Jkg
-1
D. 2.25 x 106 Jkg
-1
4. Diagram below shows the arrangement of
apparatus used to determine the specific latent
heat of fusion of ice. There are two identical
sets. One of the sets is called a control set
which is without a power supply.
The aim of the control set is
Physics Module Form 4 Chapter 4 - Heat GCKL 2011
4 - 13
A. To find the mass of ice melted due to the
heat absorbed from the surroundings
B. To find the mass of water formed by
condensation from the vapour in the air
C. To detect any changes in the melting point
of the ice
D. To find the mass of water evaporated
5.
Heat produced in an engine block of car needs to be transferred out promptly to prevent overheating. This is
done by circulating a suitable cooling liquid through the engine block.
(a) What is meant by ‘specific heat capacity of water is 4200 Jkg-1o
C-1
?
4200 J of heat is required to raise the temperature of 1 kg of water by 1oC.
(b) Based on the table above,
(i) Explain the suitable characteristics of the cooling liquid to extract heat out of an engine block.
High Specific Heat Capacity More heat can be extracted from the engine
High specific latent heat of
vaporization
More heat can be extracted from the engine
High boiling point Do not vaporize fast and cause unnecessary pressure to engine
Low rusting rate Engine can last longer
(ii) Decide which liquid is the most suitable and give reasons for your choice.
Liquid B, high specific heat capacity, high specific latent heat of vaporization, high boiling point and
low rusting rate.
(c) Total energy released by an engine in 1 hour = 9.0 x 107 J
Energy breakdown : mechanical 40% and heat 60%
Mass of cooling liquid circulating in 1 hour = 150 kg
Temperature of water entering the engine = 30oC
Temperature of water exiting the engine = 60oC
Based on the information above,
(i) Calculate the power of the engine
P = 9.0 x 107 J/3600 s = 2.5 x 10
7 W
(ii) Calculate the amount of heat produced by the engine in one hour.
Q = (60%)(9.0 x 107 J) = 5.4 x 10
7 J
(iii) Calculate the specific heat capacity of the cooling liquid.
Q = mc
5.4 x 107 J= 150(c)(60-30)
c = 12,000 Jkg-1o
C-1