A wheel consists of a thin hoop (mass .20 kg, radius .5m) and 4 spikes (each having a mass of .05kg, length .5m) and is constrained to rotate about its center. There are three forces acting on the wheel: 5N at the outer edge, 3N halfway between the center and the outer edge, and 1N at the center. 
1. Find the momentum of inertia of the wheel 

2. find the anguar acceleration of the wheel

Transcribed Image Text:

The image appears to be a mechanical or engineering diagram of a circular component with internal arrows and markings. **Diagram Description:** 1. **Outer Circle:** - A thick circular line represents the boundary of the component. 2. **Arrows:** - Two bold arrows point toward each other inside the circle. One arrow originates from the upper right edge, pointing downward into the circle. - Another arrow originates from the lower left side, pointing upward toward the center. 3. **Cross Lines:** - Two diagonal lines intersect at the center of the circle, creating four equal quadrants. 4. **Angle Indicator:** - The number "45" is marked inside the circle, likely indicating a 45-degree angle between two intersecting lines. 5. **Dotted Line:** - A dotted line runs horizontally across the circle, possibly indicating an axis or a reference line. This diagram could represent a mechanical setup or a section of machinery, illustrating the direction of forces or motion components. The labeled angle suggests a specific alignment or measurement within the system.