16.6. Set Up: For 1.00 s, Solve: (a) (b) 16.7. Set Up: Solve: (a) (b) so Reflect: The equations for e and W have the same form when written in terms of power output and rate of heat flow. 16.8. Set Up: ab and cd are constant pressure processes. For a constant pressure process and gives so For a diatomic ideal gas bc and da are constant volume processes. For a constant volume process, and gives so For a diatomic ideal gas and Solve: (a) Heat goes into the gas when T increases, and this occurs for ab and da . ab da The total heat that enters is (b) Heat comes out of the gas when T decreases, and this occurs for bc and cd . bc cd The total heat that leaves the gas is (c) ab bc cd da The total work done in one cycle is Note that as it should for a cycle, where (d) 16.9. Set Up: ca is at constant volume, ab has and bc is at constant pressure. For a constant pressure process and gives so If the gas is diatomic and For a constant volume process and gives so For a diatomic ideal gas Solve: (a)
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This note was uploaded on 03/06/2009 for the course PHYS 114 taught by Professor Shoberg during the Spring '07 term at Pittsburg State Uiversity.