The vt graph for a particle moving through an electric field from one plate to another | StudySoup

Textbook Solutions for Engineering Mechanics Dynamics (1) 1

Chapter 12 Problem 12-44

Question

The v–t graph for a particle moving through an electric field from one plate to another has the shape shown in the figure. The acceleration and deceleration that occur are constant and both have a magnitude of \(4\mathrm{\ m}/\mathrm{s}^2\). If the plates are spaced 200 mm apart, determine the maximum velocity \(v_{\max }\) and the time \(t^{\prime}\) for the particle to travel from one plate to the other. Also draw the s–t graph. When \(t=t^{\prime} / 2\) the particle is at s = 100 mm.

Solution

Problem 12-44

The v-t graph for a particle moving through an electric field from one plate to another has the shape shown in the figure. The acceleration and deceleration that occur are constant and both have a magnitude of . If the plates are spaced 200 mm apart, determine the maximum velocity  and the time  for the particle to travel from one plate to the other. Also draw the st graph. When  the particle is at s = 100 mm.

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Title Engineering Mechanics Dynamics (1) 1 14 
Author Russell C. Hibbeler
ISBN 9780133915389

The vt graph for a particle moving through an electric field from one plate to another

Chapter 12 textbook questions

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