09 Changes of State and SHC - 4th Form

Question 1

If the specific heat capacity of water is 4200 J/kg°C, how much energy is needed to raise 1 kg of

water by 2°C?

Answer 1

8400 J

Question 2

What is the unit for Energy?

Answer 2

Joules

Question 3

The total energy which matter possesses is called its internal energy.

This is the total kinetic and potential energy of all the particles.

Which state of matter possesses the most energy?

Answer 3

gas

Question 4

Which material has the lowest specific heat capacity? How do you know?

Answer 4

aluminium

It requires less energy for the same temperature change as water.

Question 5

Which state of matter has a fixed volume but an indefinite shape?

Answer 5

liquid - it has a fixed volume but can take the shape of its container

Question 6

Describe the particle movement in a solid

Answer 6

• vibrating in fixed positions

Question 7

How does the specific heat capacity of water and sand help create sea breeze shown during the daytime?

Answer 7

• Radiated heat from the Sun is absorbed by sand and water.
• Sand has a much lower specific heat capacity than water and so the sand heats up more than the water.
• The hot sand heats the air above it, this hot air expands and becomes less dense and rises
• Cool air above water moves across to replace it
• A convection current is set-up

Question 8

One pan is filled with 500 g of water and the other with 1000g of cooking oil.

Both pans receive the same amount of energy.

If both the water and oil undergo the same temperature change, what does this tell you about the specific heat capacity of cooking oil?

specific heat capacity of water = 4200 J/kg°C

Answer 8

specific heat capcity of cooking oil = 2100 J/kg°C

It must be twice that of water, as twice the mass of oil requires the same energy to increase in temperature by the same amount.

Question 9

What is the equation linking energy, mass, specific heat capactiy and change in temperature?

Answer 9

Question 10

If the force of attraction between particles in a liquid is moderate, how does this change when in gaseous form?

Answer 10

• the force of attraction between particles is very weak or negligible, the particles move freely and are far apart in a gas.

Question 11

What safety precautions must be taken when finding the specific heat capacity of water?

Answer 11

• heater and water will be hot- handle with care, let cool before clearing away
• water and electricity may lead to an electric shock- do not operate equipment with wet hand, check insulation on wires is intact before using.

Question 12

Sketch a typical heating curve for a substance.

Answer 12

Question 13

Name the three states of matter

Answer 13

solid, liquid and gas

Question 14

gas to solid

Name the change of state

Answer 14

deposition

Question 15

If ice from a cold freezer is put in a warm room, it absorbs thermal energy.

The ice warms up and begins to melt.

How does the temperature vary with time while the ice warms from -4°C to 4°C?

Answer 15

• as the ice warms up the temperature rises from -4°C to 0°C.
• at 0°C the temperature of the ice remains constant while the ice melts.
• when all the ice has melted the temperature begins rise again from 0°C to 4°C

Question 16

How is kinetic energy of a substance related to its temperature?

Answer 16

Kinetic energy is proportional to the average kinetic energy of the particle in the substance

Question 17

gas to liquid

Name the change of state

Answer 17

condensation

Question 18

Describe the particle movement in a gas

Answer 18

• moving fast and moving freely

Question 19

How is the energy supplied to the water calculated when finding the specific heat capacity of water?

Answer 19

E = IVt

Energy = Current (A) x voltage (V) x time (s)

Question 20

How do you improve accuracy when measuring the mass of a metal block using a balance?

Answer 20

• tare balance before use
• place balance on level surface

Question 21

Which state of matter possesses the most potential energy?

Answer 21

gas - particles are the furthest apart

Question 22

solid to liquid

Name the change of state

Answer 22

melting

Question 23

Which state of matter possesses the most kinetic energy?

Answer 23

gas - particles are moving the fastest

Question 24

If the specific heat capacity of water is 4200 J/kg°C, how much energy is needed to raise 2 kg of

water by 2°C?

Answer 24

4200 x 4 = 16 800 J

Question 25

How do you improve the reliability of your result when measuring the specific heat capacity of a metal block?

Answer 25

Repeat the experiment 3 times to see if similar results are obtained

Question 26

What can be done to obtain a more accurate value for the specific heat capacity of a metal?

Answer 26

• lagging, lid and insulating mat- reduces energy loss to surrounding.
• Turn on heater and allow it to heat up before placing it in the block- reduces energy lost to heating up heater
• turn off heater and stopwatch but continue to record temperature until peak temperature of block is reached

Question 27

Which state of matter possesses the most kinetic energy?

Answer 27

gas - particles are moving the fastest

Question 28

If 1 kilogram of alcohol at 20°C lost 5000 J of energy, what would its final temperature be?

Specific heat capacity of alcohol = 2500J/kg°C

Answer 28

change in temperature = E / mc

= 5000J / (1 kg x 2500 J/kg°C)

= 2 °C

20 -2 = 18°C

Question 29

The internal energy of a substance is a measure of two properties. Describe these two properties.

Answer 29

Kinetic energy (KE) or movement of particles

Potential energy (PE) or position of particles with respect to each other

internal energy = KE + PE

Question 30

Explain the temperature change in the graph below.

Answer 30

• Q-R the energy supplied increases the kinetic energy of the particles- temperature increases
• R-S all the energy supplied goes into weakening intermolecular bonds to induce the state change- temperature stays constant
• S-T - the state change is completed- energy supplied increases the kinetic energy of the particles- raising the temperature once again.

Question 31

If 1 kilogram of alcohol at 20°C absorbed 10 000 J of energy, what would its final temperature be?

Specific heat capacity of alcohol = 2500J/kg°C

Answer 31

change in temperature = E / mc

= 10 000J / (1 kg x 2500 J/kg°C)

= 4 °C

20 + 4 = 24°C

Question 32

Which material will cool more quickly?

Answer 32

aluminium

less energy needs to be removed for the same temperature drop.

Question 33

What equipment is needed to find the specific heat capacity of an aluminium block?

Answer 33

• aluminium block, power supply, electric heater and thermometer
• stopwatch
• voltmeter
• ammeter
• lagging for top and side of block
• mat for bottom of block

Question 34

Describe the particle arrangement in a gas

Answer 34

• far apart - irregular arrangment

Question 35

Describe the particle arrangement in a solid

Answer 35

• close together - regular arrangement

Question 36

Which state of matter has an indefinite volume and indefinite shape?

Answer 36

gas - it expand to fill the volume and shape of its container.

Question 37

Describe the kinetic energy and potential energy of the particles as the substance is cooled through a phase change

Answer 37

• For the first 4 minutes the kinetic energy of the particles in the liquid decreases - there is no significant change in the potential energy of the particles.
• at 80°C, the potential energy of the particles decreases significantly as the particles form a solid- there is no significant change in the kinetic energy of the particles
• Beyond 80°C the kinetic energy of the solid decreases- there is no further significant change in the potential energy of the particles

Question 38

Samuel used the equipment below to measure the specific heat capacity of water. His value was

5100 J/kg°C.

The true value is 4200J/kg°C.

Explain why his value is too big?

Answer 38

• Not all the energy supplied by the heater goes to the water, some is lost to heating the heater and to the surroundings - Q [energy supplied] is too big

E=IVt

• as a result the temperature change is too low

A bigger than expected Q divided by a smaller than expected change in T means the specific heat capacity will always be too big!

Question 39

Describe how the temperature varies with time for the cooling curve below

Answer 39

• For the first 4 minutes the temperature drops from 88°C to 80°C at a decreasing rate.
• From 4 minutes to 11 minutes the temperature remains constant at 80°C
• At 12 minutes the temperature decreases at an increasing rate.

Question 40

Describe the particle movement in a liquid

Answer 40

• vibrating and slipping past each other

Question 41

When an object is supplied with energy the internal energy of the object increases. This means the kinetic energy of the particles increases and we see -a change in temperature.

A certain points, the energy supplied to a substance is ‘hidden’ and no temperature change is seen. Here the energy which is supplied goes to breaking the intermolecular forces/bonds between the particles.

What is happening at this point?

Answer 41

The substance is going through a change of state.

Question 42

Which material has the highest specific heat capacity? How do you know?

Answer 42

water

It requires more energy for the same temperature change as aluminium.

Question 43

solid to gas

Name the change of state

Answer 43

sublimation

Question 44

Describe the particle arrangement in a liquid

Answer 44

• close together - irregular arrangement

Question 45

liquid to solid

Name the change of state

Answer 45

freezing

Question 46

Explain the temperature change with time for the cooling curve below

Answer 46

• As the object is cooled and energy is removed from the substance the internal energy of substance decreases. Kinetic energy of particles decreases- temperature decreases with time
• At 80°C, the particles form intermolecular forces/bonds as the substance begins to solidify (freeze). This bond formation releases energy to the surroundings and maintains a temperature of 80°C until all the substance freezes.
• When all the substance is solidified, the energy removed from the substance decreases the kinetic energy of the particles and temperature continues to decrease.

Question 47

liquid to gas

Name the change of state

Answer 47

evaporation

Question 48

If 2 kilogram of steel at 20°C absorbed 1000 J of energy, what would its final temperature be?

Specific heat capacity of steel = 500J/kg°C

Answer 48

change in temperature = E / mc

= 1000J / (2 kg x 500 J/kg°C)

= 1 °C

20 + 1 = 21°C

Question 49

If the specific heat capacity of water is 4200 J/kg°C, how much energy is needed to raise 2 kg of

water by 1°C?

Answer 49

8400 J

Question 50

Define specific heat capacity

Answer 50

The energy required to heat 1 kg of a substance by 1°C

Question 51

How does the specific heat capacity of water and sand help create the land breeze during nighttime?

Answer 51

• Both sand and water are cooling
• Water has a much higher specific heat capacity than sand and so the water cools more slowly than the sand.
• The hotter water heats the air above it, this hot air expands and becomes less dense and rises
• Cool air above the sand moves across to replace it
• A convection current is set-up

Question 52

Calculate the specific heat capacity of the following object

• mass of block= 1000 g
• current = 2A
• voltage = 12 V
• time = 200 s
• temperature change = 10°C

Answer 52

E = IVt = 2A x V x 200 s = 4800 J

c = 4800 J / (1 kg x 10°C)

c = 480 J/kg°C

Question 53

If the force of attraction between particles in a solid is strong, how does this change when in liquid form?

Answer 53

• the force of attraction between particles is moderate, the particles can now slip past each other

Question 54

Which state of matter has a fixed shape and a fixed volume?

Answer 54

solid

Question 55

Most central heating systems use water to carry thermal energy. Why is water a good choice in this application?

Answer 55

Water has a very high specific heat capacity.

It is very good a storing energy, carrying it from the boiler and releasing it at the radiators