Temperature of two moles of an ideal gas is increased by 300K in a process `V=a/T`, where a is positive constant. Find work done by the gas in the given process.

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 . (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.

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.

Temperature of four moles of a monoatomic gas is increased by 300K in isochoric process. Find W, Q and DeltaU .

Temperature of four moles of a monoatomic gas is increased by 300K in isochoric process. Find W, Q and DeltaU .

The temperature of n moles of an ideal gas is increased from T to 4T through a process for which pressure P=aT^(-1) where a is a constant .Then the work done by the gas is

The temperature of n moles of an ideal gas is increased from T to 4T through a process for which pressure PaT^(-1) where a is a constant .Then the work done by the gas is

Temperature of two moles of a monoatomic gas is increased by 600 K in a given process. Find change in internal energy of the gas.

The temperature of n-moles of an ideal gas is increased from T_0 to 2T_0 through a process p=alpha/T . Find work done in this process.