The volume of a mixture of ice and water is found to decrease by `0.125xx10^(-6)m^(3)` without change in temperature when `10xx10^(-3)kg` of a metal at `100^(@)C` is immersed into it. The relative density of ice is `0.917`. Find the specific heat capacity of the metal.

What would be the final temperature of the mixture when 1kg of ice at -10^(@)C is mixed with 4.4kg of water of 30^(@)C ? (Specific heat capacity of ice =2100Jkg^(-1)K^(-1))

A 2.00 kg metal object requires 5.02 xx 10^(3) J of heat to raise its temperature from 20.0^(@)C to 40.0^(@)C . What is the specific heat capacity of the metal ?

A metal piece weighing 15 g is heated to 100^(@)C and then immersed in a mixture of ice and water at the thermal equilibrium. The volume of the mixture is found to be reduced by 0.15 cm^(3) with the temperature of mixture remaining constant. Find the specific heat of the metal. Given specific gravity of ice = 0.92 , specific gravity of water at 0^(@)C = 1.0 , latent heat of fusion of ice = 80 cal-g^(-1) .

The R.D of a metal block is 2.7xx10^(3) kg//m^(3) . It is immersed in water. Then the block

The amount of heat required to raise the temperature of 75 kg of ice at 0°C to water at 10°C is (latent heat of fusion of ice is 80 cal/g, specific heat of water is 1 cal/g °C)

If 2g ice at 0^(0)C is dropped into 10g water at 80^(0)C then temperature of mixture is

A calorimeter of negligible heat capacity contains ice at 0^(@)C . 50 g metal at 100^(@)C is dropped in the calorimeter. When thermal equilibrium is attained the volume of the content of the calorimeter was found to reduce by 0.5 xx 10^(-6) m^(3) . Calculate the specific heat capacity of the metal. Neglect the change in volume of the metal. Specific latent heat of fusion of ice is L = 300 xx 10^(3) J kg^(-1) and its relative density is 0.9.

An ice block of volume 3.2xx10^(-5)m^(3) and at temperature 0^(@)C is put in 200 gm water at 10^(@)C . Find the temperature and composition of mixture when thermal equilibrium is attained. Given that density of ice is 900 kg//m^(3) , specific heat of water is 4200 J//kg^(@) C and latent heat of fusion of ice .4xx10^(-5)J//kg