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Answer to Question #308896 in Civil and Environmental Engineering for Sonnie

Question #308896

0.1m3 of gas is compressed from pressure of 120KN/m2 and temperature 250C to a pressure of 1.2MN/maccording to the law PV1.2 = constant.

Determine,

(a) The work transferred during the compression,

(b) The change in internal energy,

(c) The heat transferred during the compression

Assume , cv=0.72kJ/kgK         and           R=0.285KJ/kgK


1
Expert's answer
2022-03-10T10:49:17-0500

cv=0.72kJ/kgK


R=0.285KJ/kgK


a.) work=PΔVwork = − P Δ V


For PVγ^{\gamma} = constant


work done by the gas = (P2V2P1V1)(1γ)\frac{(P_2V_2-P_1V_1)}{(1-\gamma)} where γ=1.2\gamma = 1.2

for calculation of P2=P1(V1V2)1.2P_2 = P_1(\frac{V_1}{V_2})^{1.2}


=1.2(1.2120)120= 1.2(\frac{1.2}{120})^{120}


P2= 3.175


hence work done=3.175×1×0.051.21\frac{3.175\times1\times0.05}{1.2-1}


work done by gas = 0.794 m3


b.) ΔU=QWΔU = Q − W


ΔU=ΔU = 18J - 7.125J


= 10.875 J


c.) ΔH=qpΔH=qp


= 25×1.2120\frac{25\times1.2}{120}


= 30120\frac{30}{120}


= 0.25


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