In a container of negligible heat capaci...

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)`
What is the final temperature of the system ?

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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 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 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) What is the final temperature of the system ?

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) Amount of the steam left in the system, is equal to

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 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 os the total water present in the system, is

Latent heat of vaporisation of water is 540 cal/gm.Explain the meaning of the statement.

What is the meant by the statement, 'Latent heat of fusion of ice is 80cal/gm ?

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