Calcuate Torsion and Bending From Point A to Point B and Point A to Point C. Draw a FBD from point A to point B and another for point A to C indicating what stresses are been calculate. Use the stress tensor and stress cube to Indicate what forces are acting at point A.

Force apply at point B is 70lb

Distacen from Point A to B is 12 in or 1 feet long

Distacen from Point A to C is 3 in

Handle diameter 0.625 in

Transcribed Image Text:

**Understanding Torque and Force in Wheel Mechanics** This educational diagram illustrates the application of torque using a lug wrench to loosen or tighten the lug nuts on a car tire. Here's a detailed explanation: **Diagram Components:** 1. **Axle**: The central shaft for the wheel, crucial for wheel stability and rotation. 2. **Lug Wrench (AB)**: A tool used to apply torque to the lug nuts. The red line indicates the lug wrench's position from point A to point B. 3. **Distance**: The vertical distance from the axle to the point where the lug wrench is applied is marked as 3 inches. 4. **Direction of Applied Force (F)**: The force is applied perpendicularly to the wrench handle, indicated by the red arrows. This force initiates the turning motion necessary to loosen or tighten the lug nuts. **Diagram Description:** - **Top View**: Shows a cross-section of a car wheel setup with an axle and the lug wrench positioned horizontally. The wrench is connected to the lug nut, and the direction of force application is shown by downward and upward arrows labeled as force \( F \). - **Side View**: Displays the wrench engaged with the lug nut, with force \( F \) applied downward. This depiction helps visualize how force generates torque, causing the lug nut to rotate about the axis. **Key Concepts:** - **Torque**: Defined as the rotational force applied at a distance from the axis of rotation. The formula is \( \text{Torque} = \text{Force} \times \text{Distance} \). - **Force Application**: Applying force at a right angle to the lever arm (the wrench) maximizes the torque efficiency. This diagram is critical for understanding how force and leverage work together to cause rotational movement, a foundational concept in both physics and mechanical applications.