1 g ice at `-40^@C`. Is placed in a container having 1 g water at `1^@C`. Find equilibrium temperature. Assume heat capacity of container is negligibly small.

1 g ice at 0^@C is placed in a calorimeter having 1 g water at 40^@C . Find equilibrium temperature and final contents. Assuming heat capacity of calorimeter is negligible small.

1 g ice at 0^@C is placed in a calorimeter having 1 g water at 40^@C . Find equilibrium temperature and final contents. Assuming heat capacity of calorimeter is negligible small.

5 g of ice at 0^(@)C is dropped in a beaker containing 20 g of water at 40^(@)C . The final temperature will be

1 g steam at 100^@C is passed in an insulating vessel having 1 g ice at 0^@C . Find the equilibrium composition of the mixture. (Neglecting heat capacity of the vessel).

5 g of water at 30^@C and 5 g of ice at -20^@C are mixed together in a calorimeter Find the final temperature of the mixure. Assume water equivalent of calorimeter to be negligible, sp. Heats of ice and water are 0.5 and 1 cal//g C^@ , and latent heat of ice is 80 cal//g

5 g of water at 30^@C and 5 g of ice at -20^@C are mixed together in a calorimeter Find the final temperature of the mixure. Assume water equivalent of calorimeter to be negligible, sp. Heats of ice and water are 0.5 and 1 cal//g C^@ , and latent heat of ice is 80 cal//g

A solid of mass 250 g at 90^@C is dropped in a calorimeter containing 100 g of water at 15^@c .The resulting temperature of mixture becomes 40^@C The mass of calorimeter is 100 g and its specific heat capacity is 0.1 cal//g^@C . Find the specific heat capacity of the solid

40 g of water at 12^(@)C is kept in a container. When 50 g of water at 80^(@)C is addd to it, the final temperature becomes 46^(@)C . Find the thermal capacity of the container.

15 g ice at 0^@C is mixed with 10 g water at 40^@C . Find the temperature of mixture. Also, find mass of water and ice in the mixture.