10 g of ice cubes at `0^(@)C` are released in a tumbler (water equivalent 55 g) at `40^(@)C`. Assuming that negligible heat is taken from the surroundings, the temperature of water in the tumbler becomes nearly (L = 80 cal/g)

In a container of negligible heat capacity 200 gm ice at 0^(@) C and 100 gm steam at 100^(@) C are added to 200 gm of water that has temperature 55^(@) C. Assume no heat is lost to the surroundings and the pressure in the container is constant of 1.0atm (L_(f)=80 cal//gm,L_(v)=540cal//gm, s_(w)=1 cal//gm^(@)C) At the final temperature, mass of the total water present in the system, is

In a container of negligible heat capacity, 200 gm ice at 0^(@)C and 100gm steam at 100^(@)C are added to 200 gm of water that has temperature 55^(@)C . Assume no heat is lost to the surroundings and the pressure in the container is constant 1.0 atm . (Latent heat of fusion of ice =80 cal//gm , Latent heat of vaporization of water = 540 cal//gm , Specific heat capacity of ice = 0.5 cal//gm-K , Specific heat capacity of water =1 cal//gm-K) What is the final temperature of the system ?

In a container of negligible heat capacity, 200 gm ice at 0^(@)C and 100gm steam at 100^(@)C are added to 200 gm of water that has temperature 55^(@)C . Assume no heat is lost to the surrpundings and the pressure in the container is constant 1.0 atm . (Latent heat of fusion of ice =80 cal//gm , Latent heat of vaporization of water = 540 cal//gm , Specific heat capacity of ice = 0.5 cal//gm-K , Specific heat capacity of water =1 cal//gm-K) Amount of the steam left in the system, is equal to

In a container of negligible mass 140 g of ice initially at -15^@C is added to 200 g of water that has a temperature of 40^@C . If no heat is lost to the surroundings, what is the final temperature of the system and masses of water and ice in mixture ?

The water equivalent of 50g of aluminium (Specific heat is 0.2 cal g^-1 °C^-1 )

In a container of negligible mass 30g of steam at 100^@C is added to 200g of water that has a temperature of 40^@C If no heat is lost to the surroundings, what is the final temperature of the system? Also find masses of water and steam in equilibrium. Take L_v = 539 cal//g and c_(water) = 1 cal//g.^@C.

In a container of negligible mass 30g of steam at 100^@C is added to 200g of water that has a temperature of 40^@C If no heat is lost to the surroundings, what is the final temperature of the system? Also find masses of water and steam in equilibrium. Take L_v = 539 cal//g and c_(water) = 1 cal//g-^@C.

120 g of ice at 0^(@)C is mixed with 100 g of water at 80^(@)C . Latent heat of fusion is 80 cal/g and specific heat of water is 1 cal/ g-.^(@)C . The final temperature of the mixture is

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.

When 1 kg of ice at 0^(@)C melts to water at 0^(@)C , the resulting change in its entropy, taking latent heat of ice to be 80 cal//g is