A coffee cup calorimeter initially contains 125 g of water at a temperature of `24.2^(@)C`. After adding 10.5 gm `KBr` temperature becomes `21.1^(@)C`. The heat of solution is

A coffee cup calorimeter initially contains 125 g of water , at a temperature of 24.2^(@)C .8g of ammonium nitrate (NH_(4)NO_(3) , also at 24.2^(@) , is added to the water, and the final temperature is 18.2^(@)C . What is the heat of solution fo ammonium nitreate in KJ/mol? The specfic heat capacity of the solution is 4.2 J//^(@)C g.

a Coffee cup calorimeter initially contains 125 g of water , at a temperature of 24.2^(@) C ,8 of ammonium nitrate (NH_(4)NO_(3)) also at 24.2^(@)C is added to the Water and the final temperature is 18.2^(@)c What is the heat of solution of ammonium nitrate in KJ /mol? (The specific heat capacity of the solution is 4.2J//^(@)c .)

A calorimeter contains 10 g of water at 20^(@)C . The temperature falls to 15^(@)C in 10 min. When calorimeter contains 20 g of water at 20^(@)C , it takes 15 min for the temperature to becomes 15^(@)C . The water equivalent of the calorimeter is

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 calorimeter contains 70.2 g of water at 15.3^@C . IF 143.7 g of water at 36.5^@C is mixed with it, the common temperature becomes 28.7^@C . The water equivalent of a calorimeter is

A calorimeter takes 200 cal of heat to rise its temperature through 10^@C . Its water equivalent in gm is

Water from a reservoir maintained at a constant temperature of 80^(@)C is added at a slow and steady rate of m = 3 gs^(-1) to a calorimeter initially containing 1000 g of water at 20^(@)C . The water in the calorimeter is stirred slowly to make the temperature uniform. Assume heat loss to the surrounding and work done in stirring is negligible and heat capacity of the calorimeter is negligible. Write the temperature of water in the calorimeter as a function of time.

An unknown metal of mass 192 g heated to a temperature of 100^(@)C was immersed into a brass calorimeter of mass 128 g containing 240 g of water at a temperature of 8.4^(@)C . Calculate the specific heat of the unknown metal if water temperature stabilizes at 21.5^(@)C . (Specific heat of brass is 394 J kg^(-1) K^(-1) )