1mol of an ideal gas undergoes reversibl...

`1mol` of an ideal gas undergoes reversible isothermal expansion form an initial volume `V_(1)` to a final volume `10V_(1)` and does `10kJ` of work. The initial pressure was `1xx 10^(7) Pa`.
c. Calculate `V_(2)`.
b. If there were `2mol` of gas, what must its temperature have been?

Similar Questions

Explore conceptually related problems

1 mol of an ideal gas undergoes reversible isothermal expansion from an initial volume V_1 to final volume 10 V_1 and does 10 kJ of work. The initial pressure was 1xx10^7 Pa, Calculate the value of V_1 .

1 mole of an ideal gas undergoes reversible isothermal expansion from an initial volume V_1 to a final volume 10V_1 , and does 10 kJ of work. The initial pressure was 1 xx 10^7 Pa. If there were 2 mole of gas, what must its temperature would have been ?

An ideal gas undergoes isobaric expansion at pressure P from volume V_1 to V_2 the work done is :

A certain mass of an ideal gas at pressure P_1 is adiabatically expanded from an initial volume V_1 to a final volume V_2 . The resulting pressure P_2 of the gas is given by:

Calculate entropy change when 10mol of an ideal gas expands reversible and isothermally from an initial volume of 10L to 100L at 300K .

`1mol` of an ideal gas undergoes reversible isothermal expansion form an initial volume `V_(1)` to a final volume `10V_(1)` and does `10kJ` of work. The initial pressure was `1xx 10^(7) Pa`. c. Calculate `V_(2)`. b. If there were `2mol` of gas, what must its temperature have been?

Similar Questions

Recommended Questions

`1mol` of an ideal gas undergoes reversible isothermal expansion form an initial volume `V_(1)` to a final volume `10V_(1)` and does `10kJ` of work. The initial pressure was `1xx 10^(7) Pa`.
c. Calculate `V_(2)`.
b. If there were `2mol` of gas, what must its temperature have been?