Explanation 1) Concept: Initial velocity can be calculated by using kinematic equation for motion under gravity. The spring’s compression can be calculated by using law of conservation of energy. 2) Formulae: i) v f 2 = v 0 2 - 2 g y ii) I n t i a l T o t a l e n e r g y = F i n a l T o t a l e n e r g y 3) Given: i) Mass of ball 0.057 k g ii) Spring’s constant of the child’s spring gun is k = 700 N / m iii) Maximum height h = 1.83 m iv) v f y = 0 ( at max height ) v) θ = 30 0 4) Calculations: a) To find initial velocity: Using kinematic equation: v f 2 = v 0 y 2 - 2 g y 0 = v 0 y 2 - ( 2 × 9.8 × 1.83 ) v 0 y 2 = 35.868 v 0 y = 6 m / s We have, Vertical component of initial velocity: v 0 y = v 0 cos ⁡ θ 6 = v 0 cos ⁡ 30 <

12th Edition

ISBN: 9781119798606

Author: Halliday

Publisher: WILEY

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Helmholtz Free Energy

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Question

Chapter 8, Problem 106P

To determine

To find:

a) the launching speed of the ball.

b) the spring’s initial compression distance.

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Chapter 8, Problem 105P

Chapter 8, Problem 107P

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Chapter 8 Solutions

FUNDAMENTALS OF PHYSICS

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a) the launching speed of the ball. b) the spring’s initial compression distance.

Solution Summary: The author explains that initial velocity can be calculated by using kinematic equation for motion under gravity, and spring’s compression by applying law of conservation of energy.

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To find: a) the launching speed of the ball. b) the spring’s initial compression distance.

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Chapter 8 Solutions

To find:

a) the launching speed of the ball.

b) the spring’s initial compression distance.