Density, specific heat and thermal capacity of a substance is `d_1,s_1` and `c_1` respectively. For another substance these are `d_2,s_2` and`c_2` respectively. Then the relation between them is

Specific heat capacity of a substance is x cal *g^(-1)*""^(@)C^(-1) . Specific heat capacity of 100g of that substance will be _____.

Three liquids of equal masses are mixed. The specific heats are S_1, S_2 and S_3 respectively and their Initial temperatures are Q_1, Q_2 and Q_3 (Q_1 gt Q_2 gt Q_3) respectively. What is the temperature of the mixture?

Ratio between the densities and specific heats of the materials of two bodies are 2:3 and 0.12 : 0.09 respectively . If their volumes are in the ratio 7:8, what is the ratio of thermal capacities?

Three liquids of the same amount are mixed. The specific heats of these liquids are s_(1),s_(2) and s_(3) and their initial temperature are theta_(1),theta_(2) and theta_(3) , respectively. Find out the final temperature of the mixture.

Specific heat capacity of a substance is 0.12 cal/(gm @C ), mass is 10 gm. If there is 20^@C increase in temperature then how much heat is required?

The molecular weight of a gas is M. If the specific heat and molar specific heat at constant volume of the gas is c_(v) and C_(v) respectively. Write down the relation between c_(v) . C_(v) and M.

If the specific heat capacity and molecular mass ofa gas are c_(P) and M respectively then what will be the molar heat capaciity of the gas?

If the mean and variance of one set of values be barx_1 and s_1^2 and those of another set be barx_2 and s_2^2 respectively and each set has values 2, then prove that the variance (s^2) of the combined set of values is given by 4s^2 = 2(s_1^2 + s_2^2) + d^2 where d = (barx_1 - barx_2) .

Thermal capacity of a body of mass 10 g is "8 cal ".^(@)C^(-1) . The specific heat of the material of the body is