Question about centripetal acceleration

AI Thread Summary
The discussion revolves around calculating values related to centripetal acceleration in uniform circular motion, specifically for a scenario with a period of 6.12 seconds and a radius of 3.00 meters. The velocity is determined using the formula v = (2πr)/T, resulting in approximately 3.08 rad/s. Participants express uncertainty about calculating the dot product of velocity and acceleration (v·a) and the cross product of radius and acceleration (r x a). One suggestion involves using the cosine of the angle between vectors for the dot product, but the angle remains unclear. The conversation highlights the challenges in vector notation and the application of relevant equations in this context.
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Homework Statement


A centripetal-acceleration addict rides in uniform circular motion with period T = 6.12 s and radius r = 3.00 m. At one instant his acceleration is a = (1.00 m/s2) i + (-3.00 m/s2) j. At that instant, what are the following values? v.a and r x a


Homework Equations



T = (2pi r) / v

The Attempt at a Solution


i am not sure what to do here. i can plug T and r into one of the uniform circular motion and get a velocity value but it is not in vector notation so i don't know how i would find the dot product
 
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You have the right idea for finding the angular velocity. You have your equation and everything, simply move the variables around until you have an equation that will get you velocity.

v = \frac {2\pi r}{T}
v = \frac {18.85}{6.12}
v = 3.08 radians per second or rad/s

Unfortunately, I am not sure what you are asking for on the second part though, so I am not sure how to help you on that part. Sorry.
 
the actual question asks for v dot a and r cross a. for v dot a i think you can use abcos theta but i don't know how to find the angle.
 
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