A copper block of mass `2.5 kg` is heated in a furnace to a temperature of `500^(@)C` and then placed on a large ice block. What is the maximum amount (approx.) of ice that can melt? (Specific heat copper `= 0.39 J//g^(@)C` heat of fusion of water `= 335 J//g`).

A copper block of mass 60kg is heated till its temperature is increased by 20^(@)C . Find the heat supplied to the block. Specific heat capacity of = 0.09 cal g^(-1)-C .

True or False: The specific heat capacity of water is 1.0 cal//g^(@)C

A body of mass 750 g requires 13,500 J of heat eneragy in order to raise its temperature from 25^@C to 55^@C . Calculat its specific heat capacity.

A copper sphere of mass 500 g is heated to 100^(@)C and then introduced into a copper calorimeter containing 100 g of water at 20^(@)C . Find the maximum temperature of the mixture, if the mass of calorimeter is 100g and specific heat capacity is 0.1 cal//g^(@)C .

The initial temperature of 40 g copper ball is 24^(@)C . When 200 cal heat is supplied, the temperature rises to 74^(@)C . Find the specific heat capacity of copper?

A piece of ice of mass of 100g and at temperature 0^(@)C is put in 200g of water of 25^(@) How much ice will melt as the temperature of the water reaches 0^(@)C ? The specific heat capacity of water = 4200 J kg ^(-1)K^(-1) and the latent heat of ice = 3.36 xx 10^(5)J kg^(-1)

Calculate the amount of heat absorbed by 100 g of ice to change into water of 30^(@)C . (Specific heat capacity of water is 1 cal//g^(@)C )

500 g of water is heated from 30^(@)C to 60^(@)C . Ignoring the slight expansion of water, calculate the change in internal energy of the water? ("Specific heat of water "4184 J// kg K) .