Explanation 1) Concept: By using the fact that kinetic energy gets converted to thermal energy and using the formula for frictional force f , we can find the equation for square of velocity v 2 . From this equation of v 2 , we can find the mass of the block. 2) Formula: i) The kinetic energy, K E = 1 2 m v 2 ii) Frictional force f is, f = μ F N 3) Given: i) The mass of piece L is, m L = 2.0 k g ii) The coefficient of kinetic friction μ L = 0.40 . iii) The coefficient of kinetic friction μ R = 0.50 . iv) The distance d L = 0.15 m . v) The distance d R = 0.25 m . 4) Calculations: We note that kinetic energy is getting converted to thermal energy. Thermal energy is generated because of the work done by the frictional force. Therefore, by equating these equations, we can write 1 2 m v 2 = f k d , f = μ F N and F N = m g , Substituting we get, v 2 = 2 μ g d Thus, we can set up a ratio: v L v R 2 = 2 μ L g d L 2 μ R g d R v L v R 2 = 2 × 0

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ISBN: 9781118230725

Author: David Halliday, Robert Resnick, Jearl Walker

Publisher: Wiley, John & Sons, Incorporated

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Helmholtz Free Energy

The Helmholtz free energy is a thermodynamic potential used to calculate the measure of useful work from a closed system. This system is kept at constant temperature and volume. German physicist Hermann Helmholtz introduced this concept in 1882.

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Chapter 9, Problem 44P

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The mass of the block

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Chapter 9, Problem 43P

Chapter 9, Problem 45P

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Chapter 9 Solutions

Fundamentals of Physics Extended

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To find The mass of the block

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The mass of the block