Finding m/s with revolutions and radius

AI Thread Summary
To find the linear speed in meters per second (m/s) for a circular motion problem, one revolution corresponds to 2π radians. The conversion from revolutions to m/s involves calculating the circumference using C = 2πr, where r is the radius in meters. For a radius of 2.6 km (or 2600 m) and a period of 360 seconds, the velocity can be calculated as v = 2π(2600 m) / 360 s, resulting in approximately 45.4 m/s. The discussion highlights that using the formula v = rw, where ω (angular velocity) is 2π/360, simplifies the calculation. This approach effectively clarifies the relationship between angular and linear velocity in circular motion.
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I am confused on how to find m/s in the following problem:

r = 2.6km
one revolution of circle = 360s

I need it for ac = v^2/r

Thanks!,
-Mike
 
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How many radians is 1 revolution?

How do you convert rad/sec to m/s?
 
Well one rev is always 2pi, so 2pi/360s ... I am unsure of how to convert that. I found one solution that tells me to use C = 2(pi)r and v = d/t, so d = 2(pi)(2600m)... so v = 2(pi)(2600m)/360s ... v = 45.4 m/s? Is this the best way to do the problem or am I making it too complicated?
 
That looks right to me.

Angular velocity w = 2 pi / 360, and v is rw

that w is meant to be an omega
 
ah, I see. v = rw does seem a lot more simple than what I did though
 

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