An ideal diatomic gas is expanded so tha...

An ideal diatomic gas is expanded so that the amount of heat transferred to the gas is equal to the decrease in its internal energy.
If in the above process, the initial temperature of the gas be `T_(0)` and the final volume by 32 times the initial volume, the work done `(` in joules `)` by the gas during the process will be

Similar Questions

Explore conceptually related problems

An ideal diatomic gas is expanded so that the amount of heat transferred to the gas is equal to the decrease in its internal energy. If in the process, the initial temperature of the gas be T_(0) and the final volume by 32 times the initial volume, the work done ( in Joules ) by the gas during the process will be

An ideal diatomic gas is expanded so that the amount of heat transferred to the gas is equal to the decrease in its internal energy. The molar specific heat of the gas in this process is given by C whose value is

An ideal diatomic gas is expanded so that the amount of heat transferred to the gas is equal to the decrease in its internal energy. The process can be represented by the equation TV^(n) = constant, where the value of n is

An ideal gas of adiabatic exponent gamma is expanded so that the amount of heat transferred to the gas is equal to the decrease of its internal energy. Then, the equation of the process in terms of the variables T and V is

An ideal gas (C_(P)//C_(V)=gamma) is expanded so that the amount of heat transferred to the gas the is equal to the decrease in its internal energy . What is the molar heat capacity of gas in this process ?

Similar Questions

Recommended Questions