As a result of the isobaric heating by `DeltaT=72K`, one mole of a certain ideal gas obtain an amount of heat `Q=1.6kJ`. Find the work performed by the gas, the increment of its internal energy and `gamma`.

As a result of the isobaric heating by `DeltaT=72K`, one mole of a cer

1.	As a result of the isobaric heating by `DeltaT=72K`, one mole of a certain ideal gas obtain an amount of heat `Q=1.6kJ`. Find the work performed by the gas, the increment of its internal energy and `gamma`.
Answer» By the first law of thermodynamics `Delta Q = Delta U + Delta W` In an isobaric process `Delta Q = C_(P)Delta T` and `Delta U = C_(V)Delta T` `:. C_(P) Delta T = C_(V) Delta T + Delta W` or `Delta W = (C_(P) - C_(V)) Delta T` or `Delta W = R Delta T` `( :. C_(P) - C_(V) = R)` `:. Delta W = 8.3 xx 72 = 597.6 J` `Delta Q = C_(P) Delta T` `Delta Q = C_(P) Delta T` `:. 1.6 xx 1000 = C_(P) xx 72` `implies C_(P) = (1.6 xx 1000)/(72) = 22.2 J mol^(-1) K^(-1)` `Delta U = Delta Q = Delta W = 1.6 xx 1000 - 597.6 = 1002.4 J` But `Delta U = C_(V) Delta T` `:. C_(V) = (1002.4)/(72) = 13.9 J mol^(-1) K^(-1)` `:. gamma = (C_(P))/(C_(V)) = (22.2)/(13.9) = 1.60`

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As a result of the isobaric heating by `DeltaT=72K`, one mole of a certain ideal gas obtain an amount of heat `Q=1.6kJ`. Find the work performed by the gas, the increment of its internal energy and `gamma`.

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