![The relationship between linear and angular velocity: derivation of v=r* omega for circular motion. - YouTube The relationship between linear and angular velocity: derivation of v=r* omega for circular motion. - YouTube](https://i.ytimg.com/vi/7WfkR_ns-4M/maxresdefault.jpg)
The relationship between linear and angular velocity: derivation of v=r* omega for circular motion. - YouTube
![For a particle of a rotating rigid body, `v = r omega`, which of the following are correct ? - YouTube For a particle of a rotating rigid body, `v = r omega`, which of the following are correct ? - YouTube](https://i.ytimg.com/vi/u3BcgR7FGg0/maxresdefault.jpg)
For a particle of a rotating rigid body, `v = r omega`, which of the following are correct ? - YouTube
![vectors - Why doesn't $v_T = \omega r$ involve the direction of its variables? - Physics Stack Exchange vectors - Why doesn't $v_T = \omega r$ involve the direction of its variables? - Physics Stack Exchange](https://i.stack.imgur.com/MDcJ5.png)
vectors - Why doesn't $v_T = \omega r$ involve the direction of its variables? - Physics Stack Exchange
![newtonian mechanics - When it is usually taken as $\omega=v/r$, why in this particular case $\omega=v/3r$ is taken? - Physics Stack Exchange newtonian mechanics - When it is usually taken as $\omega=v/r$, why in this particular case $\omega=v/3r$ is taken? - Physics Stack Exchange](https://i.stack.imgur.com/guQao.png)