The Doctor (m 65 kg) must walk radially from the very center to the outside of a spinning merry-go-round (Moment of Inertia of 1300 kgm?, and a radius of 4m) in order to stop the Daleks from destroying humanity. They merry-go-round is rotating at 4 revolutions/second %3D when The Doctor is at the center of it. A) Calculate in rad/s the angular velocity of The Doctor/Merry-go-round system once The Doctor has reached the outside edge of the merry-go-round to two significant figures. B) What is the final kinetic energy of The Doctor/Merry-go-round system when the doctor reaches the outside edge of the merry-go-round to two significant figures?

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**Angular Velocity and Kinetic Energy in Rotational Dynamics**

**Problem Statement:**

The Doctor (mass \( m = 65 \, \text{kg} \)) must walk radially from the very center to the outside of a spinning merry-go-round (Moment of Inertia \( I = 1300 \, \text{kg} \cdot \text{m}^2 \), and a radius \( r = 4 \, \text{m} \)) in order to stop the Daleks from destroying humanity. The merry-go-round is rotating at 4 revolutions per second when The Doctor is at the center of it.

**Part A:**
Calculate in \(\text{rad/s}\) the angular velocity of The Doctor/Merry-go-round system once The Doctor has reached the outside edge of the merry-go-round to two significant figures.

**Part B:**
What is the final kinetic energy of The Doctor/Merry-go-round system when The Doctor reaches the outside edge of the merry-go-round to two significant figures?

**General Approach:**

1. **Determine Initial Angular Velocity:**
   - Convert the given angular velocity from revolutions per second to radians per second.

2. **Use Conservation of Angular Momentum:**
   - Since there is no external torque, the angular momentum before and after the Doctor walks to the edge must be conserved.

3. **Calculate Final Angular Velocity:**
   - Use the modified moment of inertia once the Doctor moves to the edge, then determine the new angular velocity.

4. **Determine Final Kinetic Energy:**
   - Calculate the kinetic energy using the final angular velocity and the new moment of inertia.
Transcribed Image Text:**Angular Velocity and Kinetic Energy in Rotational Dynamics** **Problem Statement:** The Doctor (mass \( m = 65 \, \text{kg} \)) must walk radially from the very center to the outside of a spinning merry-go-round (Moment of Inertia \( I = 1300 \, \text{kg} \cdot \text{m}^2 \), and a radius \( r = 4 \, \text{m} \)) in order to stop the Daleks from destroying humanity. The merry-go-round is rotating at 4 revolutions per second when The Doctor is at the center of it. **Part A:** Calculate in \(\text{rad/s}\) the angular velocity of The Doctor/Merry-go-round system once The Doctor has reached the outside edge of the merry-go-round to two significant figures. **Part B:** What is the final kinetic energy of The Doctor/Merry-go-round system when The Doctor reaches the outside edge of the merry-go-round to two significant figures? **General Approach:** 1. **Determine Initial Angular Velocity:** - Convert the given angular velocity from revolutions per second to radians per second. 2. **Use Conservation of Angular Momentum:** - Since there is no external torque, the angular momentum before and after the Doctor walks to the edge must be conserved. 3. **Calculate Final Angular Velocity:** - Use the modified moment of inertia once the Doctor moves to the edge, then determine the new angular velocity. 4. **Determine Final Kinetic Energy:** - Calculate the kinetic energy using the final angular velocity and the new moment of inertia.
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