A child's top is held in place upright on a frictionless surface. The axle has a radius of r=3.71 mm. Two strings are wrapped around the axle, and the top is set spinning by applying T=1.90 N of constant tension to each string. If it takes 0.530 s for the string to unwind, how much angular momentum L does the top acquire? Assume that the strings do not slip as the tension is applied.

L=___________ kg*m^2/s

Point P is located on the outer surface of the top, a distance h=27.0 mm above the ground. The angle that the outer surface of the top makes with the rotation axis of the top is θ=29.0∘. If the final tangential speed vt of point P is 1.85 m/s, what is the top's moment of inertia I?

I=__________kg*m^2

Transcribed Image Text:

The image depicts a diagram of a conical structure with labeled dimensions and forces, often used to illustrate principles in physics or engineering mechanics. Description: 1. **Structure Overview**: - The diagram features a cone capped with a cylindrical section at the top. - The cone is shown in a vertical orientation with its apex pointing downwards. 2. **Labeled Elements**: - **2r**: Represents the diameter of the cylindrical section at the top. - **T**: Arrows pointing horizontally outward from the cylinder, indicating tensile forces acting along the axis. - **R**: A horizontal line from the vertical centerline to point P, indicating the radius of the circular base of the cone. - **h**: A vertical line from point P downward to the apex of the cone, representing the height from point P to the apex. - **θ (theta)**: An angle marked between the vertical centerline and line R, representing the cone's slant angle. - **P**: A point on the surface of the cone, where radius R and height h intersect. 3. **Axes**: - Dashed lines indicate the vertical and horizontal axes, suggesting symmetry in the structure. This diagram is useful for understanding concepts like tension, geometry of cones, and equilibrium in physical systems.

Transcribed Image Text:

The provided diagram illustrates a mechanical system involving two concentric circles. The inner circle is shaded blue and labeled with a diameter of "2r," where "r" represents the radius. The outer circle is shaded green, indicating a probable surrounding medium or object. Two orange arrows are depicted extending horizontally from the center of the blue circle outward, touching the boundaries of the green circle on either side. Each arrow is labeled with the symbol "T," denoting tension or a similar force exerted in opposite directions. The setup suggests that the system might be experiencing a balanced force scenario, where the tension "T" holds the inner component steady within the outer layer. The contrasting colors help to visually differentiate between the different parts of the system.