In SI system specific heat capacity of water is

A scientist proposes a new temperature scale in which the ice point is 25 X(X is the new unit of ternperature) and the steam point is 305 X. The specific heat capacity of water in this new scale is (in Jkg^(-1)X^(-1) )

Water, flowing through a pipe at the rate of "0.15 kg.min"^(-1) , is heated by a 25.2 W heater. Temperature of the incoming and the outgoing water are 15.2^(@)C and 17.4^(@)C respectively. When the rate of flow of water is increased to "0.2318 kg.min"^(-1) and rate of heating to 37.8W, temperature of incoming and outgoing water remain the same. Find the specific heat capacity of water and the rate of loss of heat through the pipe.

A sample of 100 gm of water is slowly heated from 27^(@)C to 87^(@)C . Calculate the change in the entropy of water. Specific heat capacity of water = 4200 J cdot kg^(-1) cdot K^(-1)

5 gm of ice at -10^@C are mixed with 20 gm of water at 39^@C . Will whole of the ice melt? If so, what is the final temperature of the mixture? Specific heat capacity of ice = 0.5 cal gm^-1 "^@C^-1 and latent heat of fusion of ice = 80 cal gm^-1 , specific heat capacity of water = 1cal gm^-1 "^@C^-1 .

A solid of mass 70 g is heated and dropped in a calorimeter of water equivalent 10 g conaining 116 g of water. If the fall in temperature of the solid is 15 times the rise in temperature of water, find the specific heat capacity of the solid .

The molar specific heat capacity at constant volume of a mono atomic gas is (3//2) R, where R is universal gas constant. Find the value of molar specific heat capacity of the gas at constant pressure.

How could you find out specific heat capacity of a substance?