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Textbook Solutions for Engineering Mechanics Dynamics (1) 1

Chapter 12 Problem 12-146

Question

Particles A and B are traveling around a circular track at a speed of 8 m/s at the instant shown. If the speed of B is increasing by \(\left(a_t\right)_B=4\mathrm{\ m}/\mathrm{s}^2\), and at the same instant A has an increase in speed of \(\left(a_t\right)_A=0.8t\mathrm{\ m}/\mathrm{s}^2\), determine how long it takes for a collision to occur. What is the magnitude of the acceleration of each particle just before the collision occurs?

Solution

Step 1 of 7

Given data:

The speed of the particle A and particle B on the circular track is .

The acceleration of the particle A is .

The acceleration of the particle B is .

The radius of the circular track is .

The angle between particle A and particle B is .

                                                           

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full solution

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

Solved: Particles A and B are traveling around a circular

Chapter 12 textbook questions

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