0.5 mole of diatomic gas at `27^(@)C` is heated at constant pressure so that its volume is tripled. If R = 8.3 J `"mole"^(-1)k^(-1)` then work done is

An ideal gas has volume V_0 at 27^@C . It is heated at constant pressure so that its volume becomes 2V_0 . The final temperature is

Two moles of helium gas (gamma=(5)/(3)) at 27^(@)C is expanded at constant pressure until its volume is doubled. Then it undergoes an adiabatic change until the temperature returns to its initial value. The work done during adiabatic process is ________ (universal gas constant = 8.3 "J mol"^(-1)K^(-1) )

Work done by 0.1 mole of gas at 27^(@)C when it expands to double its volme at constant pressure is (assume R = 2 cal//mol-K )

Two moles of hydrogen is heated through 10k under constant pressure. If R = 83 J/mole K the external work done in Joule is

Four moles of a gas when heated through 20^(@)C expand by 6.3 xx 10^(-3) m^(3) under a const-ant pressure of 10^(5) N//m^(2) .. If 30 J "mole"^(-1)k^(-1) is C_(v) then the C_(p) in J "mole"^(-1)k^(-1) is,

One mole of an ideal gas for which C_(V)= 3//2R heated at a constant pressure of 1 atm from 25^(0)C "to" 100^(0)C What will be the amount of work done in the process?

One mole of an ideal gas undergoes an isothermal change at temperature "T" so that its volume v is doubled. R is the molar gas constant. Work done by the gas during this change is