With same initial conditions , an ideal gas expands from volume `V_(1)" to "V_(2)` in three different ways . The work done by the gas is `W_(1)` if the process is isothermal , `W_(2)` if isobaric and `W_(3)` if adiabatic , then

Starting from the same initial conditions, an ideal gas expands from volume V_(1) to V_(2) in three different ways. The work done by the gas is W_(1) if he process is purely isothermal, W_(2) if purely isobaric and W_(3) if purely adiabatic. Then

Starting with the same initial conditions an ideal gas expands from volume V_(1)" to "V_(2) in three different ways. The work done by the gas is W_(1) if the process is purely isothermal, W_(2) if purely isobaric and W_(3) if purely adiabatic. then

Starting with same initial conditions, an ideal gas expands from volume V_1 to V_2 in three different ways. The work done by the gas is W_1 if the process is purely isothermal, W_2 if purely isobaric and W_3 if purely adiabatic. Then

Starting with the same initial conditions, an ideal gas expands from volume V_1 to V_2 in three different ways, the work done by the gas is W_1 if the process is purely isothermal, W_2 if purely isobaric and W_3 if purely adiabatic, then

Starting with the same initial conditions, an ideal gas expands from volume V_1 to V_2 in three different ways, the work done by the gas is W_1 if the process is purely isothermal, W_2 if purely isobaric and W_3 if purely adiabatic, then

Starting with the same initial conditions, an ideal gas expands from volume V_1 to V_2 in three different ways. The work done by the gas is W_1 if the process is purely isothermal, W_2 if purely isobaric and W_3 if purely adiabatic. Then