Centripetal Motion Velocity vs. Position Angle Assignment

AI Thread Summary
The discussion focuses on proving that the angle between two position vectors in uniform circular motion is equal to the angle between their corresponding instantaneous velocity vectors, without using calculus. Participants clarify that the scenario involves two particles moving in a circle around a common center, with constant speed. A diagram is suggested to visualize the position and velocity vectors, emphasizing that velocity vectors are always perpendicular to their corresponding position vectors in circular motion. The relationship between the angles is questioned, particularly regarding how the normals to the intersecting lines relate to the angles. The conversation highlights the geometric nature of the problem and the need for a clear visual representation to understand the equality of angles.
burtonjib
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1. Show that the angle between two position vectors is equal to the angle between two instantaneous velocity vectors eg. v1 and v2 when v1 and v2 are conncected tail to tail in a uniform circle. No angles are given, it is just general.



2. Has to be proven without calculus. No information is given other than the fact that the circle is uniform and therefore the speed is constant.



3. I didn't attempt the question because I'm not exactly sure how to go by proving that the angles are equal.

 
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Do I understand you to be describing two particles in circular motion about a common central point? If so, then what is the angle between each particle's position vector and its velocity vector?
 
Yes that's exactly it. No angle was given though, the question is just asking to prove that the angle between position vectors is equal to that between the velocity vectors.
 
Try drawing a diagram. Draw arbitrary position vectors from a common point and then draw a velocity vector from the head of each position vector. Keep in mind that circular motion makes each velocity vector normal to its corresponding position vector.
 
I don't really see how that would show the equality between θ1 and θ2
 
If two lines intersect at an angle θ, at what angle do their normals intersect?
 

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