Two moles of a diatomic ideal gas is taken through `pT=` constant. Its temperature is increased from T to 2T. Find the work done by the system?

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)

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)

(a) 2 moles of an ideas gas is heated at constant pressure so that its temperature increases from 27^@C to 127^@C . Find work done by the gas. (b) In a process, the volume of gas increases from 1000 cc to 2000 cc at constant pressure 100 kPa. Find work done by the gas.

Two moles of an ideal monatomic gas is heated at constant pressure so that its temperature increases from 127^° C to 227^° C , then work done by gas

Two moles of an ideal monatomic gas is heated at constant pressure so that its temperature increases from 127^° C to 227^° C , then work done by gas

Two moles of an ideal diatomic gas is taken through a process VT^(2)= constant so that its temperature increases by DeltaT=300K . The ratio ((DeltaU)/(DeltaQ)) of increase in internal energy and heat supplied to the gas during the process is

Two moles of an ideal diatomic gas is taken through a process VT^(2)= constant so that its temperature increases by DeltaT=300K . The ratio ((DeltaU)/(DeltaQ)) of increase in internal energy and heat supplied to the gas during the process is

When an ideal diatomic gas is heated at constant pressure, its intenal energy is increased by 50cal then the work done by the gas is

When an ideal diatomic gas is heated at constant pressure, its internal energy increased by 50cal then the work done by the gas is