3.) Consider the drawing below: Ť l M The 4.0-kg hinged rod is uniform and has a = 2.0m. The object at the end of the rod masses 8.0-kg. A wire affixed to the wall holds the rod horizontally. The wire makes an angle of 28° with the rod. a. Draw a picture. b. Draw a free-body diagram centered at the top of the loop. c. Use equilibrium considerations to determine the tension in the wire and the x and y forces on the rod's hinge.

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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**Exercise 3: Analyze the System**

Consider the following problem:

**Diagram Description:**

- A rod is depicted horizontally with one end fixed to a wall by a hinge.
- A wire extends from the wall to the rod, forming an angle of 28° with the rod.
- At the free end of the rod, a mass (m) is attached.

**Problem Details:**

- The rod is uniform with a mass of 4.0 kg and a length (ℓ) of 2.0 m.
- The mass (m) at the end of the rod weighs 8.0 kg.
- The tension in the wire (T) is indicated with a vector.

**Tasks:**

a. Draw a picture.
b. Draw a free-body diagram centered at the top of the loop.
c. Use equilibrium considerations to determine the tension in the wire and the x and y forces on the rod’s hinge.
Transcribed Image Text:**Exercise 3: Analyze the System** Consider the following problem: **Diagram Description:** - A rod is depicted horizontally with one end fixed to a wall by a hinge. - A wire extends from the wall to the rod, forming an angle of 28° with the rod. - At the free end of the rod, a mass (m) is attached. **Problem Details:** - The rod is uniform with a mass of 4.0 kg and a length (ℓ) of 2.0 m. - The mass (m) at the end of the rod weighs 8.0 kg. - The tension in the wire (T) is indicated with a vector. **Tasks:** a. Draw a picture. b. Draw a free-body diagram centered at the top of the loop. c. Use equilibrium considerations to determine the tension in the wire and the x and y forces on the rod’s hinge.
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