A light rod of length ℓ = 1.00 m rotates about an axis perpendicular to its length and passing through its center as in the figure below. Two particles of masses m₁ = 4.50 kg and m₂ = 3.00 kg are connected to the ends of the rod.

 

(a) Neglecting the mass of the rod, what is the system's kinetic energy when its angular speed is 2.60 rad/s?
 _________________J 
(b) Repeat the problem, assuming the mass of the rod is taken to be 1.90 kg.

_________________ J 

Transcribed Image Text:

The image presents a schematic diagram depicting a two-body rotation system. Here is the description for an educational website: --- ### Two-Body Rotational System This diagram illustrates a two-body system rotating about a central point, often analyzed in the study of classical mechanics. #### Key Elements: 1. **Masses (m₁ and m₂):** - `m<sub>1</sub>` and `m<sub>2</sub>` represent the masses of the two objects. In the diagram, `m<sub>1</sub>` is the larger, copper-colored mass, and `m<sub>2</sub>` is the smaller, blue-colored mass. 2. **Angular Velocity (v):** - The masses are shown with velocity vectors (denoted as `v`), indicating the direction of motion. The velocity vectors are represented by red arrows pointing in opposite tangential directions. 3. **Fixed Rod (ℓ):** - A rigid rod of length `ℓ` connects the two masses `m<sub>1</sub>` and `m<sub>2</sub>`, ensuring that they remain at a constant distance from each other as they rotate about the central pivot point. 4. **Circular Path:** - The dashed circle indicates the path of motion of the two masses. This circular path is centered on the midpoint connecting the two masses, where the rod is pivoted. #### Coordinate System: - The diagram is oriented with an `x`-y coordinate system, highlighting the rotational motion in a two-dimensional plane. --- This diagram is crucial for understanding the dynamics of rotational systems, demonstrating concepts such as centripetal force, angular momentum, and rotational inertia.