[" The density of a material A is "1500k...

[" The density of a material A is "1500kg/m^(3)" and that of "],[" another mateial "B" is "2000kg/m^(3)" .It is found that the heat "],[" capacity of "8" volumes of A is equal to heat capacity of "],[12" volumes of "B" .The ratio of specific heats of A and "B],[" arill be "]

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The density of a material A is 1500 kg//m^(3) and that of another material B is 2000 kg//m^(3) . It is found that the heat capacity of 8 volumes of A is equal to heat capacity of 12 volumes of B. The ratio of specific heats of A and B will be

The density of a substance is 400kgm^(-3) and that of another substance is 600kgm^(-3) . The heat capacity of 40c c of first substance is equal to that of 30c c of second substance. The ratio of their specific heats is

Density of a liquid 'A' is 0.5 g//c.c and that of liquid 'B' is 0.6 g//c.c . Heat capacity of 8 litres of 'A' is equal to that of 10 litres of 'B'. Then the specific heats ratio of A and B is

Density of a liquid 'A' is 0.5 g/c.c and that of liquid 'B' is 0.6 g/c.c. Heat capacity of 8 litres of 'A' is equal to that of 10 litres of 'B'. Then their specific heats ratio is

Density of liquid 'A' is 0.2 /C.C. and that of liquid 'B' is 0.4 g/C.C. Heat capacity of 4 litres of 'A' is equal to that of 5 litres of 'B'. Then their specific heats ratio is

Define specific heat capacity at constant volume.

[" The density of a material A is "1500kg/m^(3)" and that of "],[" another mateial "B" is "2000kg/m^(3)" .It is found that the heat "],[" capacity of "8" volumes of A is equal to heat capacity of "],[12" volumes of "B" .The ratio of specific heats of A and "B],[" arill be "]

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