**Problem Statement:**According to the linkage shown in the figure, Link 3 must be perpendicular to Link 2. If the angular velocity of Link 2 is $100 \, \text{rad/sec} \, \text{CW}$ and $\phi = 60^\circ$,Using the loop closure method, calculate the acceleration of point C and the angular acceleration of Link 3.**Diagram Description:**The diagram illustrates a mechanical linkage system consisting of three links. 1. **Link 2** is connected at point A, forming an angle $\phi$ with the horizontal line. The angular velocity of this link is $100 \, \text{rad/sec}$ in the clockwise direction.2. **Link 3** is connected at point B, making it perpendicular to Link 2. This link connects to point C at its other end, which appears to be constrained along a horizontal path indicated by a rectangular boundary.3. The length of Link 3 is shown as $10''$, connecting point B to point C.The task is to compute the acceleration of point C and the angular acceleration of Link 3 applying the loop closure method.

Given:the angular velocity of link 2to determine the acceleration and angular acceleration

ording to linkage sh figure, Ink 3 ist be perpen the angular velocity of link 2 is 100 rad/sec CW and p = 60°, to 2. IT Using loop closure method, calculate the acceleration of point C and the angular acceleration of link 3.

ording to linkage sh figure, Ink 3 ist be perpen the angular velocity of link 2 is 100 rad/sec CW and p = 60°, to 2. IT Using loop closure method, calculate the acceleration of point C and the angular acceleration of link 3.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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**Problem Statement:**

According to the linkage shown in the figure, Link 3 must be perpendicular to Link 2. If the angular velocity of Link 2 is $100 \, \text{rad/sec} \, \text{CW}$ and $\phi = 60^\circ$,

Using the loop closure method, calculate the acceleration of point C and the angular acceleration of Link 3.

**Diagram Description:**

The diagram illustrates a mechanical linkage system consisting of three links.

1. **Link 2** is connected at point A, forming an angle $\phi$ with the horizontal line. The angular velocity of this link is $100 \, \text{rad/sec}$ in the clockwise direction.
2. **Link 3** is connected at point B, making it perpendicular to Link 2. This link connects to point C at its other end, which appears to be constrained along a horizontal path indicated by a rectangular boundary.
3. The length of Link 3 is shown as $10''$, connecting point B to point C.

The task is to compute the acceleration of point C and the angular acceleration of Link 3 applying the loop closure method.

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