A Cylinder With A Frictionless Movable Piston Like That Shown In The Figure Contains A Quantity Of Helium Gas Initial 1 (29.72 KiB) Viewed 53 times
A Cylinder With A Frictionless Movable Piston Like That Shown In The Figure Contains A Quantity Of Helium Gas Initial 2 (29.72 KiB) Viewed 53 times
A Cylinder With A Frictionless Movable Piston Like That Shown In The Figure Contains A Quantity Of Helium Gas Initial 3 (47.8 KiB) Viewed 53 times
A Cylinder With A Frictionless Movable Piston Like That Shown In The Figure Contains A Quantity Of Helium Gas Initial 4 (33.35 KiB) Viewed 53 times
A cylinder with a frictionless, movable piston like that shown in the figure, contains a quantity of helium gas. Initially the gas is at a pressure of 1.00 x 10° Pa, has a temperature of 300 K, and occupies a volume of 1.50 L. The gas then undergoes two processes. In the first, the gas is heated and the piston is allowed to move to keep the temperature equal to 300 K. This continues until the pressure reaches 2.50 x 10¹ Pa. In the second process, the gas is compressed at constant pressure until it returns to its original volume of 1.50 L. Assume that the gas may be treated as Figure 1 of 1 Part A Find the volume of the gas at the end of the first process. Express your answer in liters. 19Η ΑΣΦ V Submit Part B Request Answer 1000 ? Find the pressure of the gas at the end of the second process. Express your answer in pascals. 19L ΑΣΦ L Review | Constants
Part C Find the temperature of the gas at the end of the second process. Express your answer in kelvins. VE ΑΣΦ T₂ If Submit ▾ Part D Request Answer PRINC Find the total work done by the gas in the first process. Express your answer in joules. VE ΑΣΦ ISAAC ? ? K
▼ Part E Find the total work done by the gas in the second process. Express your answer in joules. W₂ = Submit —| ΑΣΦ Request Answer MELL ? J
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