Velocity = Radius x RPM
For example if a body of 32 Inches in diameter rotating at 3600 rpm, the velocity is calculated by
Velocity = 32/2 * 3600
Velocity = 57,200 inches per minute
Velocity = 57,200 Inches/min * 60 Min/Hr * 1ft/12in * 1 mi/5280 ft
Velocity = 54.5 miles per hr
The formula for velocity is (v = d/t) or (velocity = distance/time).
Velocity is distance / time
The distance formula using Pythagorean theorem: trig values trig formulas triangle abc trigonometric concepts trigonometric formulas.
Euler published the formula, which relates complex exponentials to trigonometric functions in 1748. See related link.
velocity = frequency / wavelength, I believe.
The object's angular momentum
You can transform linear velocity into rotational velocity with a rolling wheel. Rotational velocity can be measured inside a gravity field because of generated centrifugal force. When you suspend your arms freely while rotating, the angle between your body and your arm is a measure for the rotational speed.
velocity can be lineal or rotational
rotational motion
The rotational Speed or angular velocity of an object does not change even if they move away from the axis, however its linear velocity changes.
The trigonometric formula or the polar coordinate form is x = a + r*cosΦ y = b + r*sinΦ where 0 ≤ Φ < 360 deg.
RPM is an expression of rotational velocity. It is the number of revolutions a rotating object makes on its own axis in one minute. RPM is used to calculate horsepower, linear velocity, gear ratios, and tangential velocity. The formula for roller rpm = Distance / Circumference.
The formula for velocity is (v = d/t) or (velocity = distance/time).
To find the actual velocity of an object, you need to know both the magnitude and direction of its velocity. This can be determined using various methods depending on the situation. For example, in linear motion, you can calculate velocity by dividing the change in position by the change in time. In rotational motion, velocity can be found by dividing the change in angular position by the change in time.
Velocity is distance / time
mass, velocity and radius
Rotational kinematics is the same as linear kinematics but with objects in rotation. All of the linear kinematic equations that you learn for velocity and acceleration can be applied to rotational kinematics except that the greek w (omega) is used for velocity and the greek a (alpha) is used for acceleration.