(a) Explanation Given information: Number of moles in the sample is n moles , work done on the gas is W J , initial temperature of the gas is T i K , initial pressure of the gas is P i atm . For adiabatic process, the work done on the gas is equal to the change in internal energy. W = Δ U (1) Here, W is the work done on the gas. Δ U is the change in internal energy. Write the expression for the change in internal energy. Δ U = n C V Δ T (2) Here, Δ U is the change in internal energy. n is the number of moles in the sample. C V is the specific heat at constant volume. Δ T is the change in temperatureof the gas. Write the expression for specific heat at constant volume. C V = 3 2 R (3) Here, C V is the specific heat at constant volume. R is the ideal gas constant. The value of ideal gas constant is 8.314 J / molK . Equate the three expressions(1),(2) and (3)and re-arrange to get Δ T , Δ T = 2 W 3 n R Thus, the change in temperature of the gas is 2 W 3 n R K . Formula to calculate the final temperature of a monatomic ideal gas. Δ T = T 2 − T 1 T 2 = Δ T + T 1 (4) Here, T 2 is the final temperature of a monatomic ideal gas (b) To determine The final pressure of a monatomic ideal gas.

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Chapter 17, Problem 86P

(a)

To determine

The final temperature of a monatomic ideal gas.

(b)

To determine

The final pressure of a monatomic ideal gas.

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Chapter 17, Problem 85P

Chapter 17, Problem 87P

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Bundle: Principles of Physics: A Calculus-Based Text, 5th + WebAssign Printed Access Card for Serway/Jewett's Principles of Physics: A Calculus-Based Text, 5th Edition, Multi-Term

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