Ice of mass 600 kg and at a temperature of `-10^@C` is placed in a copper vessel heated to `350^@C`. The resultant mixture is 550 g of ice and water. Find the mass of the vessel. The specific heat capacity of copper `(c)=100 cal//kg-K`

Ice with mass m_(1)=600g and at temperature t_(1)=-10^(@)C is placed into a copper vessel heated to t_(2)=350^(@)C . As a result, the vessel now contains m_(2)=550g of ice mixed with water. Find the mass of the vessel. The specific heat of copper =0.1"cal"//C^(@)g and sp. heat of ice =0.5"cal"//gC^(@) . Latent heat of ice =80"cal"//g .

A piece of ice of mass 100 g and at temperature 0^@ C is put in 200 g of water of 25^@ C . How much ice will melt as the temperature of the water reaches 0^@ C ? (specific heat capacity of water =4200 J kg^(-1) K^(-1) and latent heat of fusion of ice = 3.4 xx 10^(5) J Kg^(-1) ).

A colorimeter contains 400 g of water at a temperature of 5^(@)C . Then, 200 g of water at a temperature of +10^(@)C and 400 g of ice at a temperature of -60^(@)C are added. What is the final temperature of the contents of calorimeter? Specific heat capacity of water -1000 cal //kg//K Specific latent heat of fusion of ice =80xx1000 cal //kg Relative specific heat of ice =0.5

A copper block of mass 60kg is heated till its temperature is increased by 20^(@)C Find the head supplied to the block specific head capacity of = 0.09 cal g^(-1)^(@)C

Find the water equivalent of copper block of mass 200 g . The specific heat of copper is 0.09 cal g^(0) C .

20 g of steam at 100^@ C is passes into 100 g of ice at 0^@C . Find the resultant temperature if latent heat if steam is 540 cal//g ,latent heat of ice is 80 cal//g and specific heat of water is 1 cal//g^@C .

How much steam at 100^(@)C is needed to change 40 g of ice at -10^(@)C to water at 20^(@)C if the ice in a 50 g copper can? Assume that the can maintains the same temperature as the ice and water. Given that specific heat of copper is S_(Cu)=0.09 "cal"//gm^(@) and specific heat of ice is S_("ice")=0.5 cal /gm .^(@)C .