I Explanation Given: The distance of point P 1 from com is h 1 and distance of point P 2 from com is h 2 . The period of oscillation is same for both point P 1 and P 2 . Introduction: Time period is the time taken to cover one oscillation. The body resists any angular acceleration due to inertia present it which is known as moment of inertia. Write the expression for moment of inertia using parallel axis theorem. I = I cm + m h 2 Here, I is the inertia of object, m is mass of object, h is the distance of point on object from center of mass and I cm is the inertia of object passing through center of mass. Write the expression for object in term of period of pendulum. T = 2 π I m g h Here, g is the gravitational acceleration and T is the time period of object. Substitute I cm + m h 2 for I in above expression. T = 2 π I cm + m h 2 m g h For point P 1 : Substitute h 1 for h and simplify. m g T 2 4 π 2 = I cm h 1 + m h 1

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Chapter 14, Problem 73P

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The sum of distances of point P1 and P2 on object from center of mass of object in oscillation.

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Chapter 14, Problem 72P

Chapter 14, Problem 74P

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A 11.8 L gas tank containing 3.90 moles of ideal He gas at 26.0°C is placed inside a completely evacuated insulated bell jar of volume 39.0 L .A small hole in the tank allows the He to leak out into the jar until the gas reaches a final equilibrium state with no more leakage. Part A What is the change in entropy of this system due to the leaking of the gas? ■ ΜΕ ΑΣΦ AS = ? J/K Submit Request Answer Part B Is the process reversible or irreversible?

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