Explanation Given: The final pressure is double the initial pressure. The final temperature is 1.5 times the initial temperature. The final number of moles of hydrogen is 2 times the initial number of moles of hydrogen. The mass of hydrogen is m . Formula used: Write the expression for number of moles of helium. n He = m He M He Here, n He is the number of moles of helium, m He is the mass of helium and M He is the molecular mass of helium. Write the expression for number of moles of hydrogen. n H 2 = m H 2 M H 2 Here, n H 2 is the number of moles of hydrogen, m H 2 is the mass of helium and M H 2 is the molecular mass of helium. Write the expression for an ideal gas at initial conditions. P 1 V = ( n He + n H 2 ) R T 1 ........(1) Here, P 1 is the initial pressure, V is the volume of cylinder, R is gas constant and T 1 is the initial temperature. Write the expression for an ideal gas at initial conditions. P 2 V = ( n He + n H 1 ) R T 2 ........(2) Here, P 2 is the final pressure, T 2 is the final temperature and n H 1 is the number of moles of hydrogen. Calculation: Substitute 2 P 1 for P 2 , 2 n H 2 for n H 1 and 3 2 T 1 for T 2 in equation (2) and divide equation (2) by equation (1)

One Semester Webassign Access Code for Tipler Physics for Scientists and Engineers

9th Edition

ISBN: 9780716778486

Author: Tipler

Publisher: Macmillan Higher Education

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Chapter 17, Problem 77P

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The mass of helium in the cylinder.

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Chapter 17, Problem 76P

Chapter 17, Problem 78P

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The mass of helium in the cylinder.

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