RP1 - Specifc Heat Capacity

Question 1

Define the ‘Specific Heat Capacity’ of a substance.

Answer 1

The amount of energy needed to raise the temperature of 1 kilogram of a substance by 1 degree Celsius.

Question 2

State the units for Specific Heat Capacity.

Answer 2

J/°C/kg

Joules/Degree Celsius/Kilogram

Question 3

State the equation used to calculate the temperature change when a substance is heated. Give appropriate units.

Answer 3

● ΔE = m c Δ𝛉
● Energy (J), Mass (kg), Specific Heat
Capacity (J/kg/°C), Temperature (°C)

Question 4

If the power of the heater being used isn’t given, how can you calculate it?

Answer 4

By connecting it in parallel with a voltmeter, and in series with an ammeter, and then applying the equation:

P= I x V

Question 5

Why do the metal blocks used in the experiment have two holes in them?

Answer 5

One for is for the heater and one is for the thermometer.

Question 6

What can be done to improve the reading given by the thermometer?

Answer 6

Add a few drops of water in the hole with the thermometer to improve the thermal contact and ensure even heating.

Question 7

What reading do you record during the experiment and how frequently?

Answer 7

You record the temperature value every 10 minutes from when the heater is inserted and switched on.

Question 8

What graph do you plot with the data?

Answer 8

A graph of temperature against work done by the heater.

Question 9

How do you calculate the work done by the heater?

Answer 9

Using the equation:

Energy = Power of heater x Time

Where energy is equivalent to the work done.

Question 10

Once the block has initially warmed up, describe the graph of temperature against work done by the heater that should be obtained.

Answer 10

It should be a linear relationship and so should produce a straight line.

Question 11

If you start timing from when you switch on the heater, why may the graph not initially be linear?

Answer 11

There will initially be some thermal inertia whilst the block and heater warm up.

Question 12

What does the gradient of the graph represent?

Answer 12

The inverse of the heat capacity for the metal block.

Question 13

How do you obtain the specific heat capacity for the metal you are measuring?

Answer 13

Divide the inverse of the gradient by the mass of the metal block used.

Question 14

What is the difference between heat capacity and specific heat capacity?

Answer 14

Specific heat capacity is the heat capacity measured for a mass of 1 kg.

Question 15

Why should you wrap insulation around the outside of the metal block?

Answer 15

To reduce the heat loss to the environment and ensure the temperature reading is as accurate as possible.

Question 16

What safety precautions should be taken when carrying out this experiment?

Answer 16

● Avoid touching the metal
● Use a heatproof mat
● Avoid spilling water near the power supply when adding drops to the thermometer hole