`600 J` of heat is added to a monatomic gas in a process in which the gas performs a work of `150 J`. The molar heat capacity for the process is `KR`. Then find `K`.

600J of heat is added to a monoatomic gas in a process in which the gas performs a work of 150J. The molar heat capacity for the process is

600J of heat is added to a monoatomic gas in a process in which the gas performs a work of 150J. The molar heat capacity for the process is

"600J" of heat is added to a monatomic gas in a process in which the gas performs a work of "150J" .The molar specific heat capacity of the gas for the process is

An amount of heat is added to a monatomic ideal gas in a process in which the gas performs work Q/2 on its surrounding. Find the molar heat capacity for the process.

An amount of heat is added to a monatomic ideal gas in a process in which the gas performs work Q/2 on its surrounding. Find the molar heat capacity for the process.

The molar heat capacity of a gas in a process

(a) A polytropic process for an ideal gas is represented by PV^(x) = constant, where x != 1 . Show that molar specific heat capacity for such a process is given by C = C_(v) + (R)/(1-x) . (b) An amount Q of heat is added to a mono atomic ideal gas in a process in which the gas performs a work (Q)/(2) on its surrounding. Show that the process is polytropic and find the molar heat capacity of the gas in the process.

What is the molar heat capacity for the process, when 10J of heat added to a monoatomic ideal gas in a process in which the gas performs a work of 5J on its surrrounding?

An amount Q of heat is added to a mono atomic ideal gas in a process in which the gas performs a work Q//2 on its surrounding. Find equation of the process.

If Q amount of heat is given to a diatomic ideal gas in a process in which the gas perform a work (2Q)/(3) on its surrounding. Find the molar heat capacity (in terms of R ) for the process.