Please answer with detailed steps and explanations **Problem 2. Scattering.**A comet is approaching the sun. Its velocity at infinity was \( v_0 \). The impact parameter at infinity was \( d \). Find the angle of deflection \( \theta \).**Diagram Explanation:**The diagram illustrates the trajectory of a comet approaching the sun. The following elements are depicted:- **Trajectory Curve:** The path of the comet is shown as a curved line approaching and then deflecting away from a circular object, representing the sun.- **Velocity Vector \( v_0 \):** An arrow along the initial path of the comet, labeled \( v_0 \), indicates its velocity at infinity.- **Impact Parameter \( d \):** A perpendicular dashed line from the trajectory to the position of the sun shows the impact parameter, labeled \( d \).- **Deflection Angle \( \theta \):** The angle by which the comet’s trajectory is deflected, labeled \( \theta \), is marked between the incoming and outgoing paths of the comet.

Answered: Problem 2. Scattering. A comet is…

Problem 2. Scattering. A comet is approaching the sun. Its velocity at infinity was vo. The impact parameter at infinity was d. Find the angle of deflection 0. VO d 0

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Question

Please answer with detailed steps and explanations

**Problem 2. Scattering.**

A comet is approaching the sun. Its velocity at infinity was \( v_0 \). The impact parameter at infinity was \( d \). Find the angle of deflection \( \theta \).

**Diagram Explanation:**

The diagram illustrates the trajectory of a comet approaching the sun. The following elements are depicted:

- **Trajectory Curve:** The path of the comet is shown as a curved line approaching and then deflecting away from a circular object, representing the sun.
- **Velocity Vector \( v_0 \):** An arrow along the initial path of the comet, labeled \( v_0 \), indicates its velocity at infinity.
- **Impact Parameter \( d \):** A perpendicular dashed line from the trajectory to the position of the sun shows the impact parameter, labeled \( d \).
- **Deflection Angle \( \theta \):** The angle by which the comet’s trajectory is deflected, labeled \( \theta \), is marked between the incoming and outgoing paths of the comet.

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