Torsion From Point A to Point C (point C is where is connect it to the lug nut) Calcuate 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. All the information need it is given

 

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 Modulus of elasticity for steel is 300000000 psi

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### Understanding the Mechanics: Tire and Lug Wrench #### Diagram Explanation **Top View:** - The diagram displays a cross-section view of a tire and its axle. - The tire is mounted on an axle. - A lug wrench is used to apply force to the lug nut that secures the tire to the axle. - **A-B** is the length of the lug wrench extending from the axle. - The length from the axle to the end of the lug wrench is marked as 3 inches. **Side View:** - This view shows the application of force on the lug wrench. - The lug wrench is attached to a lug nut on the tire. - **F** indicates the force applied downwards on the end of the lug wrench. - The force **F** is applied at point **B** of the wrench, creating torque to loosen or tighten the lug nut. This diagram illustrates the basic principle of using leverage to apply force efficiently, maximizing torque to adjust the tire securely. Understanding this mechanical advantage is crucial for tasks involving wheel and tire maintenance.