Explanation 1) Concept: We know the formula for mean free path. Here, we are given the heat energy and the pressure. The process is at constant pressure. Using the ideal gas equation and formula for heat generated, we rearrange the equation for mean free path in terms of the given values, and from this, we get the required answer. 2) Formula: i) λ = 1 2 π d 2 N V ii) P V = n R ∆ T iii) Q = n C p ∆ T 3) Given: i) Number of moles of diatomic molecules = 1.5 m o l ii) P = 1.5 × 10 5 P a iii) d = 250 p m = 250 × 10 - 12 m iv) Q = 200 J 4) Calculation: We have λ = 1 2 π d 2 N V But, P V = n R ∆ T V = n R ∆ T P λ = n R ∆ T 2 π d 2 P N We also have Q = n C p ∆ T n = Q C p ∆ T ∆ λ = R ∆ T Q 2 π d 2 P

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ISBN: 9781119306856

Author: Halliday

Publisher: WILEY

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Maxwell speed distribution

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Chapter 19, Problem 66P

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Change in the mean free path of the molecules.

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Chapter 19, Problem 65P

Chapter 19, Problem 67P

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Chapter 19 Solutions

Fundamentals Of Physics - Volume 1 Only

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Change in the mean free path of the molecules.

Solution Summary: The author explains how to find the change in the mean free path of the molecules, using the ideal gas equation and formula for heat generated.

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Chapter 19 Solutions

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Change in the mean free path of the molecules.