Explain quantitatively the relationship between linear and rotational motion.

Question

matthewrlee · Answer

How about a please?

anonymous · Answer

A force of F=MA excert on a object.
Then the object will have a average velocity of :
Delta position/Delta Time
While rotational velocity is the same but will be:
2(pi)r*Angle/360/Delta Time

anonymous · Answer

Thanks for the reply, I copied the question directly from an assignment sorry if I sounded abrupt.

anonymous · Answer

$$s = r \theta$$ $$v = r \omega$$ $$a = r \alpha$$ where r is the radius, s is the arc-length, a is the tangential acceleration, v is the tangential velocity, theta as the angle measured in radians, omega is the angular velocity measured in radians/s and alpha is the angular acceleration measured in radians per second per second

anonymous · Answer

Ok, thanks for the answers guys. Am I right in thinking that Stan gave a much more fitting answer to the question or am I missing something?

anonymous · Answer

the equations of motions are true for circular motion.
replace 
v with $$\omega$$
u with $$\omega$$(i)
a with $$\alpha$$
s with $$\Theta$$