4. A light string fixed at one end to a clamp on the ground passes over a fixed pulley and hangs at the other side. It makes an angle of 30 degrees with the ground. A monkey of mass 5kg climbs up the rope. Draw an interaction diagram of the situation. Draw a free body diagram of the monkey-pulley-clamp system. 30°

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Please answer the part 4. Also please mark name of the forces (such as fs for force of static friction ) on the free body diagram. 

**Educational Website Content: Understanding Free Body Diagrams**

**Identifying and Drawing Forces in Various Scenarios**

1. **Child Sliding Down a Hill:**
   - A child is moving at a constant speed down a hill. To represent this scenario, draw a free body diagram showing gravitational force pulling the child down the slope, normal force perpendicular to the hill's surface, and frictional force opposite to the direction of motion.

2. **Bag of Groceries in a Car:**
   - A bag remains stationary on a car seat when the vehicle stops. In this free body diagram, illustrate gravitational force acting downwards, normal force from the seat upwards, and no horizontal forces since the bag does not slide.

3. **Jet Plane Take-off:**
   - A plane accelerates at 20° above the horizontal axis right after takeoff. Create a diagram showing lift force perpendicular to the wings, thrust force along the direction of the plane, weight downwards, and air resistance (drag) opposite the thrust.

4. **Monkey, Pulley, and Clamp System:**
   - A monkey climbs a rope that passes over a pulley, creating a system with a fixed clamp. The interaction diagram should show:
     - **Forces on the Monkey:** Tension in the rope upwards and gravitational force downwards.
     - **Forces on the Pulley System:** Tension from both sides of the rope and reaction forces at the clamp, with an angle of 30° to the ground.
   
   *Diagram Explanation:*
   - The diagram shows a pulley setup with a tensioned rope at a 30° angle from the ground. A monkey is shown climbing the rope, with the direction of acceleration labeled as 'a'.

Utilize these examples to practice interpreting and drawing free body diagrams by analyzing all forces acting on objects in various physical scenarios.
Transcribed Image Text:**Educational Website Content: Understanding Free Body Diagrams** **Identifying and Drawing Forces in Various Scenarios** 1. **Child Sliding Down a Hill:** - A child is moving at a constant speed down a hill. To represent this scenario, draw a free body diagram showing gravitational force pulling the child down the slope, normal force perpendicular to the hill's surface, and frictional force opposite to the direction of motion. 2. **Bag of Groceries in a Car:** - A bag remains stationary on a car seat when the vehicle stops. In this free body diagram, illustrate gravitational force acting downwards, normal force from the seat upwards, and no horizontal forces since the bag does not slide. 3. **Jet Plane Take-off:** - A plane accelerates at 20° above the horizontal axis right after takeoff. Create a diagram showing lift force perpendicular to the wings, thrust force along the direction of the plane, weight downwards, and air resistance (drag) opposite the thrust. 4. **Monkey, Pulley, and Clamp System:** - A monkey climbs a rope that passes over a pulley, creating a system with a fixed clamp. The interaction diagram should show: - **Forces on the Monkey:** Tension in the rope upwards and gravitational force downwards. - **Forces on the Pulley System:** Tension from both sides of the rope and reaction forces at the clamp, with an angle of 30° to the ground. *Diagram Explanation:* - The diagram shows a pulley setup with a tensioned rope at a 30° angle from the ground. A monkey is shown climbing the rope, with the direction of acceleration labeled as 'a'. Utilize these examples to practice interpreting and drawing free body diagrams by analyzing all forces acting on objects in various physical scenarios.
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