- #1
rahmatkat
- 15
- 0
Hi, can anyone please tell me the fomular for the velocity of a centripital force with the radius of 100 cm, with one revolution revolting in 0.98 seconds?
The formula for the velocity of the centripetal force is v = (2πr)/T, where v is the velocity, r is the radius of the circular motion, and T is the period of rotation.
The velocity of the centripetal force is directly proportional to the radius of the circular motion and inversely proportional to the period of rotation. This means that as the radius increases, the velocity also increases, and as the period increases, the velocity decreases.
Yes, the formula can be used for any type of circular motion, as long as the centripetal force is the only force acting on the object. This is known as uniform circular motion.
The mass of the object does not affect the velocity of the centripetal force. The formula for the velocity of the centripetal force only takes into account the radius and period of rotation, not the mass of the object.
No, the formula for the velocity of the centripetal force is not the same as the formula for the speed of the object in circular motion. The velocity of the centripetal force refers to the instantaneous velocity of the object at a specific point in its circular motion, while the speed of the object is the average speed over the entire circular path.