Derive the expression for the amount of work done in changing the volume of a system
Answers
Answer:
Consider a gas contained in the cylinder fitted with a movable piston. Suppose the gas is expanded quasistatically by pushing the piston by a small distance dx. Since the expansion occurs quasi-statically the pressure, temperature and internal energy will have unique values at every instant.
Explanation:
The small work done by the gas on the piston dW = Fdx …(1) The force exerted by the gas on the piston F = PA. Here A is area of the piston and P is pressure exerted by the gas on the piston. Equation (1) can be rewritten as Work done by the gas dW = PA dx …(2) But Adx = dV= change in volume during this expansion process. So the small work done by the gas during the expansion is given by dW = PdV ….(3) dV is positive since the volume is increased. Here, dW is positive. In general the work done by the gas by increasing the volume from Vi to Vf is given by Suppose if the work is done on the system, then Vi > Vf. Then, W is negative. Note here the pressure P is inside the integral in equation (4). It implies that while the system is doing work, the pressure need not be constant. To evaluate the integration we need to first express the pressure as a function of volume and temperature using the equation .
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Explanation:
derive the expression for the amount of work done in changing the volume of a system