Explanation Given information: The initial pressure in the tank is 20 psia , initial temperature 70 ° F , the mass of gas is 40 lbm , the final pressure of gas is 35 psi , final temperature is 90 ° F , and the value of gas constant is 0.3704 psia ⋅ ft 3 / lbm ⋅ R . Write the expression for the ideal gas Equation. m = P V R T ...... (I) Here, the pressure is P , the volume is V , temperature is T , the gas constant is R . Write the ideal gas Equation in terms of initial volume. V 1 = m 1 R T 1 P 1 ...... (II) Here, the initial volume is V 1 , the initial pressure is P 1 , and the initial temperature is T 1 . Write the ideal gas Equation in terms of final volume. V 2 = m 2 R T 2 P 2 ...... (III) Here, the final volume is V 2 , the final pressure is P 2 , the final mass of gas is m 2 ,and the final temperature is T 2 . The tank is rigid so the initial volume is equal to final volume. V 1 = V 2 ...... (IV) Write the expression for the final mass of gas. m 2 = P 2 V 2 R T 2 ...... (V) Write the expression for the change of mass from initial to final condition. Δ m = m 2 − m 1 ...... (VI) Calculation: Substitute 40 lbm for m 1 , 0.3704 psia ⋅ ft 3 / lbm ⋅ R for R , 70 ° F for T 1 ,and 20 psia for P 1 in Equation (II). V 1 = 40 lbm × ( 0.3704 psia ⋅ ft 3 / lbm ⋅ R ) × 70 ° F 20 psia = 40 lbm × ( 0.3704 psia ⋅ ft 3 / lbm ⋅ R ) × ( 70 + 460 ) R ( 460 R 1 ° F ) 20 psia = 40 lbm × ( 0

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ISBN: 9781266016042

Author: CENGEL

Publisher: MCG CUSTOM

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Chapter 2, Problem 107EP

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Chapter 2, Problem 106P

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The amount of air added to the tank.

Solution Summary: The author explains how to write the ideal gas Equation in terms of initial volume and final volume.

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