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jrklx250s
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Homework Statement
Prove that the work done by an ideal gas with constant heat capacities during a quasi-static adiabatic expansion is equal to
W= (PfVf)/(Y-1)[1 - (Pi/Pf)^((Y-1)/Y)]
where Y = gamma, which is heat capacity at constant pressure over heat capacity at constant volume
Homework Equations
The Attempt at a Solution
Alright so this is my attempt and I am not sure where to go from here...
In an adiabatic quasi-static process we can write the formula
PV^Y = constant
constant = K for simplification
Since its adiabatic no heat change so Q=0
Using the first law of thermo
Q= ΔU -W
We know that W = -PdV
and P= K/V^Y
so...
W = ΔU
W = -PdV
W = -(K/V^Y)*dV
W = -K∫(1/V^Y)*dV
W = -K[V^(1-Y)/(1-Y)]*∫dV
W = -(K/(1-Y))[Vf^(1-Y) - Vi^(1-Y)]
W = -(K/(1-Y))[Vf^(-Y)*Vf - Vi^(-Y)*Vi]
W = -(1/(1-Y))[((Vf*K)/(Vf^Y)) - ((Vi*K)/(Vi^Y))]
since Pi = K/Vi^Y and Pf = K/Vf^Y sub those in
W = -(1/(1-Y))(Vf*Pf - Vi*Pi)
Times this by (-1/-1)
and we get
W = (PfVf - PiVi)/(Y-1)
This is where I get to not sure where to go from here to make this into
W= (PfVf)/(Y-1)[1 - (Pi/Pf)^((Y-1)/Y)]
Any suggestions and help would be greatly appreciative.
