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Thermal properties of matter
? ? Solids  closely packed
? ? Liquids  loosely packed
? ? Gases  very loosely packed, far apart from each other
? Brownian motion
? It is a random, zig-zag motion of the particles
? Smoke in the air, pollen particles dusted into water they move in a random or zig-zag
motion
? Conditions for brownian motion
? Have to be light particles
? Medium in which particles are suspended have to move randomly
? How brownian motion occurs
? Bits of smoke and pollen grains are little in mass hence they are jostled around by air
molecules
? When they push the smoke molecules randomly, the motion is called Brownian motion
? Internal energy
? It is the total kinetic and potential energy of the object
? Kinetic energy
? Higher temperature results in more kinetic energy, directly proportional
? Potential energy
? Inter-particle space, greater the distance, the more the potential energy. Less distance,
less energy
? Temperature
? The degree of hotness or coldness of an object
? S.I unit is Kelvin(K)
? Measure of average kinetic energy of the individual particles
? More the temperature, higher the internal and kinetic energy
? Heat energy
? It is the energy transferred from higher temperature to lower temperature object
? Temperature and kinetic energy are directly proportional
? Pure ice melts at 0 degree celsius
Page 2


Thermal properties of matter
? ? Solids  closely packed
? ? Liquids  loosely packed
? ? Gases  very loosely packed, far apart from each other
? Brownian motion
? It is a random, zig-zag motion of the particles
? Smoke in the air, pollen particles dusted into water they move in a random or zig-zag
motion
? Conditions for brownian motion
? Have to be light particles
? Medium in which particles are suspended have to move randomly
? How brownian motion occurs
? Bits of smoke and pollen grains are little in mass hence they are jostled around by air
molecules
? When they push the smoke molecules randomly, the motion is called Brownian motion
? Internal energy
? It is the total kinetic and potential energy of the object
? Kinetic energy
? Higher temperature results in more kinetic energy, directly proportional
? Potential energy
? Inter-particle space, greater the distance, the more the potential energy. Less distance,
less energy
? Temperature
? The degree of hotness or coldness of an object
? S.I unit is Kelvin(K)
? Measure of average kinetic energy of the individual particles
? More the temperature, higher the internal and kinetic energy
? Heat energy
? It is the energy transferred from higher temperature to lower temperature object
? Temperature and kinetic energy are directly proportional
? Pure ice melts at 0 degree celsius
? Pure water boils at 100 degree celsius
Temperature scales
? Celsius temperature scale
? Human creation
? Divides the graduations between the freezing and boiling temperatures of water by 100
? So water freezes at 0 degree celsius and boils at 100 degree celsius
? Fahrenheit temperature scale
? Freezing point of water is 32 degree fahrenheit
? Boiling point of water is 212 degree fahrenheit
? Kelvin temperature scale
? 100 divisions
? Lower fixed point (freezing point of water) = 273K
? Upper fixed point (boiling point of water) = 373K’
? Conversions
? Fahrenheit(F)
¦ F = 9/5 C + 32
¦ F = 9/5(K-273) +32
? Celsius(C)
¦ C = 5/9(F-32)
¦ C = K - 273
? Kelvin(K)
¦ K = C + 273
¦ K = 5/9 (F -32) + 273
Thermometer
? Instrument used to measure the temperature of an object
? Clinical thermometer
? Range is from 35 to 42 degree celsius
? Laboratory thermometer
? Range is from -10 to 110 degree celsius
? Liquid in glass thermometer
? Has a bulb, capillary tube(Bore), and the alcohol and mercury is in the bulb
? Put it in melting ice and mark as 1 degree
? After marking the fixed points, there are 100 equal graduations that you
mark
Page 3


Thermal properties of matter
? ? Solids  closely packed
? ? Liquids  loosely packed
? ? Gases  very loosely packed, far apart from each other
? Brownian motion
? It is a random, zig-zag motion of the particles
? Smoke in the air, pollen particles dusted into water they move in a random or zig-zag
motion
? Conditions for brownian motion
? Have to be light particles
? Medium in which particles are suspended have to move randomly
? How brownian motion occurs
? Bits of smoke and pollen grains are little in mass hence they are jostled around by air
molecules
? When they push the smoke molecules randomly, the motion is called Brownian motion
? Internal energy
? It is the total kinetic and potential energy of the object
? Kinetic energy
? Higher temperature results in more kinetic energy, directly proportional
? Potential energy
? Inter-particle space, greater the distance, the more the potential energy. Less distance,
less energy
? Temperature
? The degree of hotness or coldness of an object
? S.I unit is Kelvin(K)
? Measure of average kinetic energy of the individual particles
? More the temperature, higher the internal and kinetic energy
? Heat energy
? It is the energy transferred from higher temperature to lower temperature object
? Temperature and kinetic energy are directly proportional
? Pure ice melts at 0 degree celsius
? Pure water boils at 100 degree celsius
Temperature scales
? Celsius temperature scale
? Human creation
? Divides the graduations between the freezing and boiling temperatures of water by 100
? So water freezes at 0 degree celsius and boils at 100 degree celsius
? Fahrenheit temperature scale
? Freezing point of water is 32 degree fahrenheit
? Boiling point of water is 212 degree fahrenheit
? Kelvin temperature scale
? 100 divisions
? Lower fixed point (freezing point of water) = 273K
? Upper fixed point (boiling point of water) = 373K’
? Conversions
? Fahrenheit(F)
¦ F = 9/5 C + 32
¦ F = 9/5(K-273) +32
? Celsius(C)
¦ C = 5/9(F-32)
¦ C = K - 273
? Kelvin(K)
¦ K = C + 273
¦ K = 5/9 (F -32) + 273
Thermometer
? Instrument used to measure the temperature of an object
? Clinical thermometer
? Range is from 35 to 42 degree celsius
? Laboratory thermometer
? Range is from -10 to 110 degree celsius
? Liquid in glass thermometer
? Has a bulb, capillary tube(Bore), and the alcohol and mercury is in the bulb
? Put it in melting ice and mark as 1 degree
? After marking the fixed points, there are 100 equal graduations that you
mark
? ? Principal  liquid expands on heating and contracts on cooling
? 0 degree is called ICE point and 100 degree is STEAM point
? Thermistor thermometer
? It has a prove, digital display and a battery
? ? Principal  it is a device which becomes a much better electrical
conductor, when temperature rises
? This means that the higher current flows from the battery causing
the higher reading on the digital meter
? Greater the temp, greater the conductivity hence resistance will
reduce
? The current doesn’t run out as long as there is a battery
? Thermocouple thermometer
? It has copper wires, constantan, milli ammeter/ voltmeter/ galvanometer, hot and cold
junction
? On the 2 sides of the junctions the same wire has to be there
? Difference in temperature between the 2 junctions causes a tiny voltage to form
? You can measure this voltage using a milli voltmeter as there is less current
? Cold junction is kept inside the meter and is at constant temperature
? The hot junction has a probe, the material has to be touched to the probe to measure the
temperature.
? 2 different metals are joined at the ends to form 2 junctions. One of them forms the hot
junction, the other forms the cold junction. Difference in temperature causes voltage
which makes current flow. The ammeter, voltmeter and galvanometer are calibrated to
read temperature
? Greater difference, results in greater current and this greater reading
? Advantages
¦ It is robust(won't break easily)
¦ They are quick to respond
¦ It has a wide range (-200 and 1100 degree)
¦ It can be linked to other electrical circuits or computers
Page 4


Thermal properties of matter
? ? Solids  closely packed
? ? Liquids  loosely packed
? ? Gases  very loosely packed, far apart from each other
? Brownian motion
? It is a random, zig-zag motion of the particles
? Smoke in the air, pollen particles dusted into water they move in a random or zig-zag
motion
? Conditions for brownian motion
? Have to be light particles
? Medium in which particles are suspended have to move randomly
? How brownian motion occurs
? Bits of smoke and pollen grains are little in mass hence they are jostled around by air
molecules
? When they push the smoke molecules randomly, the motion is called Brownian motion
? Internal energy
? It is the total kinetic and potential energy of the object
? Kinetic energy
? Higher temperature results in more kinetic energy, directly proportional
? Potential energy
? Inter-particle space, greater the distance, the more the potential energy. Less distance,
less energy
? Temperature
? The degree of hotness or coldness of an object
? S.I unit is Kelvin(K)
? Measure of average kinetic energy of the individual particles
? More the temperature, higher the internal and kinetic energy
? Heat energy
? It is the energy transferred from higher temperature to lower temperature object
? Temperature and kinetic energy are directly proportional
? Pure ice melts at 0 degree celsius
? Pure water boils at 100 degree celsius
Temperature scales
? Celsius temperature scale
? Human creation
? Divides the graduations between the freezing and boiling temperatures of water by 100
? So water freezes at 0 degree celsius and boils at 100 degree celsius
? Fahrenheit temperature scale
? Freezing point of water is 32 degree fahrenheit
? Boiling point of water is 212 degree fahrenheit
? Kelvin temperature scale
? 100 divisions
? Lower fixed point (freezing point of water) = 273K
? Upper fixed point (boiling point of water) = 373K’
? Conversions
? Fahrenheit(F)
¦ F = 9/5 C + 32
¦ F = 9/5(K-273) +32
? Celsius(C)
¦ C = 5/9(F-32)
¦ C = K - 273
? Kelvin(K)
¦ K = C + 273
¦ K = 5/9 (F -32) + 273
Thermometer
? Instrument used to measure the temperature of an object
? Clinical thermometer
? Range is from 35 to 42 degree celsius
? Laboratory thermometer
? Range is from -10 to 110 degree celsius
? Liquid in glass thermometer
? Has a bulb, capillary tube(Bore), and the alcohol and mercury is in the bulb
? Put it in melting ice and mark as 1 degree
? After marking the fixed points, there are 100 equal graduations that you
mark
? ? Principal  liquid expands on heating and contracts on cooling
? 0 degree is called ICE point and 100 degree is STEAM point
? Thermistor thermometer
? It has a prove, digital display and a battery
? ? Principal  it is a device which becomes a much better electrical
conductor, when temperature rises
? This means that the higher current flows from the battery causing
the higher reading on the digital meter
? Greater the temp, greater the conductivity hence resistance will
reduce
? The current doesn’t run out as long as there is a battery
? Thermocouple thermometer
? It has copper wires, constantan, milli ammeter/ voltmeter/ galvanometer, hot and cold
junction
? On the 2 sides of the junctions the same wire has to be there
? Difference in temperature between the 2 junctions causes a tiny voltage to form
? You can measure this voltage using a milli voltmeter as there is less current
? Cold junction is kept inside the meter and is at constant temperature
? The hot junction has a probe, the material has to be touched to the probe to measure the
temperature.
? 2 different metals are joined at the ends to form 2 junctions. One of them forms the hot
junction, the other forms the cold junction. Difference in temperature causes voltage
which makes current flow. The ammeter, voltmeter and galvanometer are calibrated to
read temperature
? Greater difference, results in greater current and this greater reading
? Advantages
¦ It is robust(won't break easily)
¦ They are quick to respond
¦ It has a wide range (-200 and 1100 degree)
¦ It can be linked to other electrical circuits or computers
Name Description Factors affecting it
Sensitivity Change in length per unit
rise of temperature
? narrow diameter; ?
sensitivity
? larger bulb; ? sensitivity
? liquid with greater
expansivity; ? sensitivity
Linearity Uniform expansion of liquid
per unit rise of temperature
? linear scale: equal distance
between 2 consecutive
graduations on the
thermometer scale
? use liquid with uniform
expansion
Responsiveness How quick the thermometer
responds top change in
temperature
? thinner the bulb; ?
responsiveness
? smaller bulb; ?
responsiveness
Range Difference between the
highest and lowest reading
on the thermometer scale
? larger the bore; ? range
? Thermal expansion
? When materials are heated, they expand
? This expansion happens because the molecules start to move around(or vibrate) faster,
which causes them to knock into each other and push each other apart
? Thermal expansion in states
? ? Solids  expands slightly (due to the strong bonds holding the molecules together)
? ? Liquids  Expand more than solids (due to the weaker bonds between the molecules)
? ? Gases  expand significantly (due to there being no bonds holding the molecules together)
? Application of thermal expansion
? It is used in thermometers to measure temperatures
? A bimetallic strip, consisting of 2 metals that expand at different rates, can be made to
bend at a given temperature, forming a temperature-activated switch
? Consequences of thermal expansion
? The expansion of solid materials can cause them to buckley if they get too hot
? This could include - metal railway tracks, road surfaces and bridges
? Things that are prone to buckling usually have a gap built into them providing some room
for them to expand
Page 5


Thermal properties of matter
? ? Solids  closely packed
? ? Liquids  loosely packed
? ? Gases  very loosely packed, far apart from each other
? Brownian motion
? It is a random, zig-zag motion of the particles
? Smoke in the air, pollen particles dusted into water they move in a random or zig-zag
motion
? Conditions for brownian motion
? Have to be light particles
? Medium in which particles are suspended have to move randomly
? How brownian motion occurs
? Bits of smoke and pollen grains are little in mass hence they are jostled around by air
molecules
? When they push the smoke molecules randomly, the motion is called Brownian motion
? Internal energy
? It is the total kinetic and potential energy of the object
? Kinetic energy
? Higher temperature results in more kinetic energy, directly proportional
? Potential energy
? Inter-particle space, greater the distance, the more the potential energy. Less distance,
less energy
? Temperature
? The degree of hotness or coldness of an object
? S.I unit is Kelvin(K)
? Measure of average kinetic energy of the individual particles
? More the temperature, higher the internal and kinetic energy
? Heat energy
? It is the energy transferred from higher temperature to lower temperature object
? Temperature and kinetic energy are directly proportional
? Pure ice melts at 0 degree celsius
? Pure water boils at 100 degree celsius
Temperature scales
? Celsius temperature scale
? Human creation
? Divides the graduations between the freezing and boiling temperatures of water by 100
? So water freezes at 0 degree celsius and boils at 100 degree celsius
? Fahrenheit temperature scale
? Freezing point of water is 32 degree fahrenheit
? Boiling point of water is 212 degree fahrenheit
? Kelvin temperature scale
? 100 divisions
? Lower fixed point (freezing point of water) = 273K
? Upper fixed point (boiling point of water) = 373K’
? Conversions
? Fahrenheit(F)
¦ F = 9/5 C + 32
¦ F = 9/5(K-273) +32
? Celsius(C)
¦ C = 5/9(F-32)
¦ C = K - 273
? Kelvin(K)
¦ K = C + 273
¦ K = 5/9 (F -32) + 273
Thermometer
? Instrument used to measure the temperature of an object
? Clinical thermometer
? Range is from 35 to 42 degree celsius
? Laboratory thermometer
? Range is from -10 to 110 degree celsius
? Liquid in glass thermometer
? Has a bulb, capillary tube(Bore), and the alcohol and mercury is in the bulb
? Put it in melting ice and mark as 1 degree
? After marking the fixed points, there are 100 equal graduations that you
mark
? ? Principal  liquid expands on heating and contracts on cooling
? 0 degree is called ICE point and 100 degree is STEAM point
? Thermistor thermometer
? It has a prove, digital display and a battery
? ? Principal  it is a device which becomes a much better electrical
conductor, when temperature rises
? This means that the higher current flows from the battery causing
the higher reading on the digital meter
? Greater the temp, greater the conductivity hence resistance will
reduce
? The current doesn’t run out as long as there is a battery
? Thermocouple thermometer
? It has copper wires, constantan, milli ammeter/ voltmeter/ galvanometer, hot and cold
junction
? On the 2 sides of the junctions the same wire has to be there
? Difference in temperature between the 2 junctions causes a tiny voltage to form
? You can measure this voltage using a milli voltmeter as there is less current
? Cold junction is kept inside the meter and is at constant temperature
? The hot junction has a probe, the material has to be touched to the probe to measure the
temperature.
? 2 different metals are joined at the ends to form 2 junctions. One of them forms the hot
junction, the other forms the cold junction. Difference in temperature causes voltage
which makes current flow. The ammeter, voltmeter and galvanometer are calibrated to
read temperature
? Greater difference, results in greater current and this greater reading
? Advantages
¦ It is robust(won't break easily)
¦ They are quick to respond
¦ It has a wide range (-200 and 1100 degree)
¦ It can be linked to other electrical circuits or computers
Name Description Factors affecting it
Sensitivity Change in length per unit
rise of temperature
? narrow diameter; ?
sensitivity
? larger bulb; ? sensitivity
? liquid with greater
expansivity; ? sensitivity
Linearity Uniform expansion of liquid
per unit rise of temperature
? linear scale: equal distance
between 2 consecutive
graduations on the
thermometer scale
? use liquid with uniform
expansion
Responsiveness How quick the thermometer
responds top change in
temperature
? thinner the bulb; ?
responsiveness
? smaller bulb; ?
responsiveness
Range Difference between the
highest and lowest reading
on the thermometer scale
? larger the bore; ? range
? Thermal expansion
? When materials are heated, they expand
? This expansion happens because the molecules start to move around(or vibrate) faster,
which causes them to knock into each other and push each other apart
? Thermal expansion in states
? ? Solids  expands slightly (due to the strong bonds holding the molecules together)
? ? Liquids  Expand more than solids (due to the weaker bonds between the molecules)
? ? Gases  expand significantly (due to there being no bonds holding the molecules together)
? Application of thermal expansion
? It is used in thermometers to measure temperatures
? A bimetallic strip, consisting of 2 metals that expand at different rates, can be made to
bend at a given temperature, forming a temperature-activated switch
? Consequences of thermal expansion
? The expansion of solid materials can cause them to buckley if they get too hot
? This could include - metal railway tracks, road surfaces and bridges
? Things that are prone to buckling usually have a gap built into them providing some room
for them to expand
Thermal expansion in states
? Solids
? When a is heated, its atoms vibrate faster about their fixed points. The relative solid
increase in the size of solids when heated is therefore small.
? Metal railway tracks have small gaps so that when the sun heats them, the tracks expand
into these gaps and don’t buckle.
? Liquids
? They expand for the same reason, but because the bonds between separate molecules are
usually less tight they expand more than solids.
? This is the principle behind liquid-in-glass thermometers. An increase in temperature
results in the expansion of the liquid which means it rises up the glass.
? Gases
? Molecules within are further apart and weakly attracted to each other. Heat causes gases
the molecules to move faster, (heat energy is converted to kinetic energy) which means
that the volume of a gas increases more than the volume of a solid or liquid.
? However, gases that are contained in a fixed volume cannot expand - and so increases in
temperature result in increases in pressure
? Thermal capacity
? It is the amount of heat energy required to raise the temperature of that object by 1
degree celsius
? The greater the thermal capacity of an object, the more heat energy it takes to raise its
temperature
? The thermal capacity is als equal to the amount of heat energy an object will give out when
it cools by 1 degree celsius
? ? Energy(E)  Thermal capacity x Temperature(T)
? ? Thermal capacity  mass(m) x specific heat capacity(c)
? Specific heat capacity
? The specific heat capacity of a substance in the amount of thermal energy required to
raise the temperature of 1kg of that substance by 1 degree celsius
? It is measured in joules per kilogram per degree celsius (J/kg C) °
? Thermal energy and specific heat capacity are directly proportional
? Change in (internal)energy = mass x specific heat capacity x change in temperature
? ?E = m x c x ?T
? Specific heat capacity
? Heat supplied to substance(divided by)mass x change in temperature
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FAQs on Thermal Properties & Temperature Chapter Notes - Physics for GCSE/IGCSE - Year 11

1. What are the key thermal properties of materials?
Ans. The key thermal properties of materials include thermal conductivity, specific heat capacity, and thermal expansion.
2. How does thermal conductivity affect heat transfer in materials?
Ans. Thermal conductivity is the ability of a material to conduct heat. Materials with high thermal conductivity transfer heat more efficiently than materials with low thermal conductivity.
3. What is specific heat capacity and how does it affect temperature changes in materials?
Ans. Specific heat capacity is the amount of heat required to raise the temperature of a unit mass of a substance by one degree Celsius. Materials with higher specific heat capacities require more heat to increase their temperature compared to materials with lower specific heat capacities.
4. How does thermal expansion impact the dimensions of materials with changes in temperature?
Ans. Thermal expansion is the tendency of materials to change in shape, area, and volume in response to changes in temperature. When a material is heated, it expands, and when it is cooled, it contracts.
5. How are thermal properties and temperature related in materials?
Ans. The thermal properties of materials, such as thermal conductivity, specific heat capacity, and thermal expansion, determine how they respond to changes in temperature. Understanding these properties is crucial for predicting how materials will behave under different temperature conditions.
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