When heat is supplied to a body,

The increase in temperature when heat is supplied to a body can be explained by

Specific heat capacity is defined as

A 2.00 kg block of iron has an immersion heater and a thermometer inserted into its body as an experimental set-up for determining the specific heat capacity of iron. The iron block is also well lagged with an insulator.

The heater is set at 100 W. The initial temperature of the iron block is 25°C. After two minutes, its temperature is measured to be 38°C. What is the specific heat capacity of iron?

A 300 g block of lead, with a specific heat capacity of 130 J kg^–1 K^–1, is heated to a temperature of 50°C.  It is then dropped into a well insulated beaker of water at 30°C. Take the heat capacity of the water and beaker to be 300 J K^–1, and assume that there is no heat loss to the surroundings.

Determine the heat capacity of this block of lead.

A 300 g block of lead, with a specific heat capacity of 130 J kg^–1 K^–1, is heated to a temperature of 50°C.  It is then dropped into a well insulated beaker of water at 30°C. Take the heat capacity of the water and beaker to be 300 J K^–1, and assume that there is no heat loss to the surroundings.

When the block of lead is dropped into the water, its temperature decreases, while that of water (and the beaker) increases until they are at the same temperature. Using the Principle of Conservation of Energy, determine the final temperature of the block of lead and the water.

Why does a pure substance melt at a constant temperature?