Explanation Initial temperature of cylinder is 20.0 °C , gauge pressure is 2000 psi ,and the final temperature is − 5.00 °C . Write the expression for the ideal gas equation. p V = n R T Here, the pressure is p , volume is V ,number of moles is n , ideal gas constant is R , and the temperature is T . Rewrite the above relation as shown below. p V T = n R Right hand side of above relation is a constant. Thus, the left hand side of above equation can be written as follows. p 1 V 1 T 1 = p 2 V 2 T 2 (I) Here, the total initial pressure is p 1 , final pressure is p 2 , initial volume is V 1 , final volume is V 2 , initial temperature is T 1 , and the final temperature is T 2 . Write the expression for p 1 . p 1 = p i g + p a t m o (II) Here, the initial gauge pressure is p i g and the atmospheric pressure is p a t m o . Rewrite equation (I) in terms of p 2 by substituting equation (II). p 2 = ( p i g + p a t m o ) V 1 T 2 T 1 V 2 (III) It is given that the mixture remains homogeneous during cooling. It means that the process is isochoric in nature. Write the relation between V 1 and V 2 for isochoric process. V 1 = V 2 Rewrite equation (III) by substituting the above relation. p 2 = ( p i g + p a t m o ) V 1 T 2 T 1 V 1 = ( p i g + p a t m o ) T 2 T 1 (IV) Write the expression to calculate the final gauge pressure

10th Edition

ISBN: 9780321902788

Author: Hugh D. Young, Philip W. Adams, Raymond Joseph Chastain

Publisher: PEARSON

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Chapter 15, Problem 84PP

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The pressure at −5.00°C.

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Chapter 15, Problem 83PP

Chapter 15, Problem 85PP

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The pressure at − 5.00 °C .

Solution Summary: The author writes the expression for the ideal gas equation. pV=nRT The right hand side of the equation is a constant.

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The pressure at −5.00°C.

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Chapter 15 Solutions