Perpendicular position vector and velocity?

AI Thread Summary
A situation where the velocity of a particle is always perpendicular to its position vector includes a satellite in circular orbit around a planet or an electron in a uniform magnetic field. In uniform circular motion, the velocity vector is tangent to the circle, while the position vector extends from the center to the particle's location, making them perpendicular. The discussion highlights the importance of understanding circular motion in physics, especially for those who may initially think in linear terms. It also notes that in a particle's rest frame, the velocity can be considered as the zero vector, which is inherently perpendicular to the position vector. Understanding these concepts is crucial for grasping the dynamics of motion in physics.
quiksilver
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I have been struggling with this question for a little while now and after drawing pictures and such I just cannot think of a situation in which this is possible. I was wondering if somebody with a little bit more physics knowledge could enlighten me :rolleyes: ? Here it is:

"Describe a situation in which the velocity of a particle is always perpendicular to the particle's position vector."
 
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How about a satellite moving in a circular orbit around a planet? Or an electron moving in a uniform magnetic field?
 
In uniform cirucular motion, the velocity vector is tangent to the circle at each point. The position vector is a vector from the origin to the point corresponding to its position... thus if your circle has its center at the origin, then this would be an example of what you described.
 
Tangent is perpendicular to a point on a circle...a real life example like a satellite orbiting a planet.

My problem is that I haven't learned about this yet, this is a pre-class question...so I was not thinking in circular motion I was stuck in linear thought so all of my situations weren't coming out right...thanks for the help
 
Go into the particle's rest frame, and position it wherever you'd like there.
Since the velocity is the zero vector, the velocity vector is perpendicular to the position vector..:wink:
 

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