An iron ball at `50^@C` is dropped in a mug containing water at`50^@C` .The temperature of the mixture will be

One litre of water at 30^@C is mixed with one liter of water at 50^@C .The tempertature of the mixture will be

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.

0.1 m^(3) of water at 80^(@)C is mixed with 0.3 m^(3) of water at 60^(@)C . What is the final temperature of the mixture ?

A copper sphere of mass 500 g is heated to 100^(@)C and then introduced into a copper calorimeter containing 100 g of water at 20^(@)C . Find the maximum temperature of the mixture, if the mass of calorimeter is 100g and specific heat capacity is 0.1 cal//g^(@)C .

An aluminium vessel of mass 0.5kg contains 0.2kg of water at 20^(@)C A block of iron of mass 0.2kg at 100^(@)C is gently put into the water .Find the equilibrium temperature of the mixture, Specific heat capacities of aluminium , iron and water are 910 J kg^(-1)K^(-1) 470J kg^(-1)K^(-1) and 4200J kg^(-1)K^(-1) respectively

A metal ball of mass 1kg is heated by means of a 20W heater in a room at 20^(@)C . The temperature of the ball becomes steady at 50^(@)C . (a) Find the rate of loss of heat to the surrounding when the ball is at 50^(@)C . (b) Assuming Newton's law of cooling, calculate the rate of loss of heat to the surrounding when the ball is at 30^(@)C . (c) Assume that the temperature of the ball rises uniformly from 20^(@)C to 30^(@)C in 5 minutes. Find the total loss of heat to the surrounding during this period. (d) Calculate the specific heat capacity of the metal.

If 5 L of water at 50^(@)C is mixed with 4L of water at 30^(@)C , what will be the final temperature of water? Take the specific heat capacity of water as 4184 J kg^(-1) K^(-1)