ElmorshedyDr said:
I thought increase in temp -------> increase in volume ------> increase in K.E how does the expansion let the K.E go down ??
Well, imagine a molecule hitting a wall. The molecule will bounce off the wall. If the wall is moveable, then some of the kinetic energy of the molecule will be transferred to the wall, causing the wall to move out, and therefore causing the volume to increase.
The energy [itex]\delta E[/itex] expended on pushing the wall outward is given by:
[itex]\delta E = F \delta x[/itex]
where [itex]\delta x[/itex] is the distance the wall has been pushed out, and [itex]F[/itex] is the force exerted on the wall. In the case of a gas, the force on the wall is just [itex]P \cdot A[/itex], where [itex]P[/itex] is the gas pressure, and [itex]A[/itex] is the area of the wall. Putting these facts together gives:
[itex]\delta E = P A \delta x = P \delta V[/itex]
The quantity [itex]A \delta x[/itex] is the change in volume of the box resulting from pushing the wall, of area [itex]A[/itex] out a distance [itex]\delta x[/itex].
So when the box expands, the energy transferred from the gas to the wall is given by:
[itex]\delta E = P \delta V[/itex]. That is the energy that is taken away from the kinetic energy of the gas molecules.