*** SKETCH ONLY DRAW the kinematic diagram & Free body diagram and label it for this problem A block B of mass m (see Figure 1) can slide freely on a frictionless arm OA which rotates in a horizontal plane at a constant rate \(\dot{\theta}_O\). B is released at a distance \(r_0\) from O. A moves toward A located at a distance rA from O.Draw a complete kinetic diagram. How many vectors do you have in your diagrams? (enter in space)**Figure 1: Swing****Description of Diagram:**- The diagram shows a horizontal arm OA that is free of friction.- A block B is positioned on the arm and is shown sliding towards point A.- The arm rotates around point O. - The angle \(\theta\) is marked between the arm and a reference line, with \(\theta = \dot{\theta}_n\).- A red arrow labeled \(v_r\) indicates the radial velocity of the block B towards A.- The distance r represents the length from point O to block B.- Annotations indicate the rotational direction with a curved arrow near point O.

A block B of mass m (see Figure 1) can slide freely on a frictionless arm OA which rotates in a horizontal plane at a constant rate e Bis released at a distan ro from O. And moves toward A located at a distance ra from O. Draw a complete kinetic diagram. How many vectors do you have in your diagrams? (enter in space) Figure 1: Swing

A block B of mass m (see Figure 1) can slide freely on a frictionless arm OA which rotates in a horizontal plane at a constant rate e Bis released at a distan ro from O. And moves toward A located at a distance ra from O. Draw a complete kinetic diagram. How many vectors do you have in your diagrams? (enter in space) Figure 1: Swing

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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Concept explainers

Free Body Diagram

The system of forces acting on a body tends to either rotate it or make the body undergo motion. In general, when an external agent exerts a force on a body, the body undergoes translational motion and rotational motion. The body has six degrees of freedom under the influence of that force. Here, three degrees of freedom are from the translational motion while the other three are from the rotation motion. However, sometimes the bodies are not allowed to undergo any motion and are fixed, under such conditions the body is said to be constrained.

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*** SKETCH ONLY DRAW the kinematic diagram & Free body diagram and label it for this problem

A block B of mass m (see Figure 1) can slide freely on a frictionless arm OA which rotates in a horizontal plane at a constant rate \(\dot{\theta}_O\). B is released at a distance \(r_0\) from O. A moves toward A located at a distance rA from O.

Draw a complete kinetic diagram. How many vectors do you have in your diagrams? (enter in space)

**Figure 1: Swing**

**Description of Diagram:**
- The diagram shows a horizontal arm OA that is free of friction.
- A block B is positioned on the arm and is shown sliding towards point A.
- The arm rotates around point O.
- The angle \(\theta\) is marked between the arm and a reference line, with \(\theta = \dot{\theta}_n\).
- A red arrow labeled \(v_r\) indicates the radial velocity of the block B towards A.
- The distance r represents the length from point O to block B.
- Annotations indicate the rotational direction with a curved arrow near point O.

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