Explanation Write the expression to obtain the initial mass of the nitrogen in the tank ( m 1 ) . m 1 = P 1 V R T 1 (I) Here, initial pressure of the tank is P 1 , volume of the tank is V , gas constant of nitrogen is R , and initial temperature of the tank is T 1 . Write the expression to obtain the final mass of the nitrogen in the tank ( m 2 ) . m 2 = P 2 V R T 2 (II) Here, final pressure of the tank is P 2 , and final temperature of the tank is T 2 . Write the expression to obtain the amount of nitrogen that has escaped ( Δ m ) . Δ m = m 2 − m 1 (III) Conclusion: Consider that the nitrogen behaves as an ideal gas at the given conditions. Refer Table A-1, “Molar mass, gas constant, and critical-point properties”, obtain the gas constant of nitrogen ( R ) as 0.2968 kPa ⋅ m 3 / kg ⋅ K . Substitute 600 kPa for P 1 , 0.2968 kPa ⋅ m 3 / kg ⋅ K for R , 17 ° C for T , and 13 m 3 for V in Equation (I). m 1 = ( 600 kPa ) ( 13 m 3 ) ( 0.2968 kPa ⋅ m 3 / kg ⋅ K ) ( 17 ° C ) = ( 600 kPa ) ( 13 m 3 ) ( 0.2968 kPa ⋅ m 3 / kg ⋅ K ) ( 273 + 17 K ) = ( 600 kPa ) ( 13 m 3 ) ( 0

8th Edition

ISBN: 9780073398174

Author: Yunus A. Cengel Dr., Michael A. Boles

Publisher: McGraw-Hill Education

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Chapter 3.8, Problem 116RP

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The amount of nitrogen that has escaped.

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Chapter 3.8, Problem 115RP

Chapter 3.8, Problem 117RP

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