Temperature of 4 moles of gas increases from 300 K to 500 K find `C_v` if `DeltaU = 5000 J`.

In a thermodynamic process two moles of a monatomic ideal gas obeys PV^(–2)=constant . If temperature of the gas increases from 300 K to 400 K, then find work done by the gas (Where R = universal gas constant)

Temperature of 1 mole of an ideal gas is increased from 300K to 310K under isochoric process. Heat supplied to the gas in this process is Q=25R, where R=universal gas constant. What amount of work has to be done by the gas if temperature of the gas decreases from 310K to 300K adiabatically?

The temperature of 10 moles of a gas is increased from 30^(@)C to 80^(@)C at constant pressure. If R = 8.2 J/mole K, then the external work done in this process is

4 moles of a monoatomic gas are filled in a rigid container. Temperature of the gas increases from 27^(@)C to 127^(@)C by heating. Let Q, DeltaU and W represent heat, change in internal energy and work done, then

Method 1 of Q Temperature of two moles of a monoatomic gas is increased by 300 K in the process p prop V . (a) Find molar heat capacity of the gas in the given process. (b) Find heat given to the gas in that.

Temperature of two moles of a monoatomic gas is increased by 300 K in the process p prop V . Find (a) molar heat capacity of the gas in the given process (b) heat required in the given process.

At constant volume , 4 moles of an ideal gas when heated from 300 K to 500 K change its internal energy by 5000 J. The molar heat capacity at constant volume is ?