Two metal disks, one with radius R1 = 2.43 cm and mass M1 = 0.830 kg and the other with radius R2 = 5.08 cm and mass M2 = 1.68 kg, are welded together and mounted on a frictionless axis through their common center. What is the total moment of inertia of the two disks? A light string is wrapped around the edge of the smaller disk, and a 1.50-kg block, suspended from the free end of the string. If the block is released from rest at a distance of 1.98 m above the floor, what is its speed just before it strikes the floor? Repeat the calculation of part B, this time with the string wrapped around the edge of the larger disk. 

Transcribed Image Text:

The image depicts a pulley system used to lift a 1.50 kg mass. The diagram includes the following elements: 1. **Mass**: A block labeled with a weight of 1.50 kg is suspended from a string. 2. **Pulley**: The pulley has two radii, \( R_1 \) and \( R_2 \), where \( R_2 \) is clearly larger than \( R_1 \). These radii are marked with arrows indicating their respective distances from the center of the pulley to the edge. 3. **Support Bar**: The pulley appears to be mounted on a horizontal bar or axis, allowing it to rotate. This system can be used to illustrate concepts of rotational motion, mechanical advantage, and torque in physics education. The radii \( R_1 \) and \( R_2 \) can be key variables in calculating the mechanical advantage provided by the pulley system, as well as in applying principles such as Newton’s laws of motion and the conservation of energy.