A star rotates in a circular orbit about the center of its galaxy. The radius of the orbit is 1.3 x 1020 m, and the angular speed of the star is 5.6 x 10-15 rad/s. How long (in years) does it take for the star to make one revolution around the center?

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Chapter1: Units, Trigonometry. And Vectors
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A star rotates in a circular orbit about the center of its galaxy. The radius of the orbit is 1.3 x 1020 m, and the angular speed of the star is 5.6 x 10-15 rad/s. How long (in years) does it take for the star to make one revolution around the center?

The image illustrates a schematic of rotational motion focusing on a point at the edge of a rotating object. Here's a detailed explanation:

- **Spiral Shape**: At the center of the image is a spiral that resembles a fan or turbine with multiple blades. This represents a rotating system, commonly used to explain rotational dynamics.

- **Point and Circle**: A circular path is depicted with a dashed line surrounding the blades, indicating the trajectory of a specific point located on the perimeter of the rotating system.

- **Velocity Vector (\(v_T\))**: An arrow labeled \(v_T\) points tangentially from the circular path. This represents the tangential velocity of the point, a vector showing direction and magnitude of motion, perpendicular to the radius at any given instant.

- **Radius (\(r\))**: A line extends from the center of the spiral to the point on the edge of the circle. This is labeled \(r\), representing the radius of the circular path.

This diagram assists in understanding concepts such as angular velocity, tangential speed, and the dynamics of rotational systems.
Transcribed Image Text:The image illustrates a schematic of rotational motion focusing on a point at the edge of a rotating object. Here's a detailed explanation: - **Spiral Shape**: At the center of the image is a spiral that resembles a fan or turbine with multiple blades. This represents a rotating system, commonly used to explain rotational dynamics. - **Point and Circle**: A circular path is depicted with a dashed line surrounding the blades, indicating the trajectory of a specific point located on the perimeter of the rotating system. - **Velocity Vector (\(v_T\))**: An arrow labeled \(v_T\) points tangentially from the circular path. This represents the tangential velocity of the point, a vector showing direction and magnitude of motion, perpendicular to the radius at any given instant. - **Radius (\(r\))**: A line extends from the center of the spiral to the point on the edge of the circle. This is labeled \(r\), representing the radius of the circular path. This diagram assists in understanding concepts such as angular velocity, tangential speed, and the dynamics of rotational systems.
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