A block of ice at `-20^(@)C` having a mass of 2kg is added to a 3kg water at `15^(@)C`. Neglecting heat losses and the heat capacity of the container

4 kg of ice at -15^(@)C are added to 5 kg of water at 15^(@)C . The temperature of the mixture equals

4 kg of ice at -15^(@)C are added to 5 kg of water at 15^(@)C . The temperature of the mixture equals

2 kg water at 80^@C is mixed with 3 kg water at 20^@C . Assuming no heat losses, find the final temperature of the mixture

2 kg of ice at -20^(@) is mixed with 5 kg of water at 20^(@)C in an insulating vessel having a negligible heat capacity . Calculate the final mass of water remaining in the container .

2 kg of ice at -20^@C is mixed with 5 kg of water at 20^@C in an insulating vessel having a negligible heat capacity. Calculate the final mass of water (in kg) remaining in the container.

2 kg of ice at -20^@C is mixed with 5 kg of water at 20^@C in an insulating vessel having a negligible heat capacity. Calculate the final mass of water remaining in the container. It is given that the specific beats of water and ice are 1 (kcal)/(kg^@C) and 0.5 (kcal)/(kg^@C) while she latent heat of fusion of ice is 80 (kcal)/(kg)

Calcuate the heat required to convert 0.6 kg of ice at - 20^(@)C , kept in a calorimeter to steam at 100^(@)C at atmospheric pressure. Given the specific heat capacity of ice =2100 j kg^(-1) K^(-1) , specific heat capacity of water =4186 j kg^(-1) K^(-1) latent heat ice =3.35xx10^(5) j kg^(-1) and latent heat of steam =2.256xx10^(6)j kg^(-1)