when something moves with constant angular speed (w), as in a rotating disk, the speed (v) as you move away from the center depends on distance (r), but the angular speed does not. Mathematically, v = wr.
Angular velocity is a vector with a direction and angular speed is a scalar with no direction.
No. Acceleration and speed are related in the same way irrespective of being linear or angular. Acceleration is rate of change of speed.
These are used in lots of engineering problems related to rotation.
Here's the easiest answer: They have different names.....
Because angular speed is some number of revolutions or angle rotated each second. It has units of s-1 (per second) and is therefore a frequency.
what is the relation angular speed and angular speed with clutch disc plate
Time and distance
A measure of how fast a rotating body is changing its angular position. The average angular speed (w) is obtained by dividing the http://www.answers.com/topic/angular-distance-2 through which the body rotates by the time taken: w = θ/t, where θ = angular distance, and t = time taken in seconds.
That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.
Angular velocity is a vector with a direction and angular speed is a scalar with no direction.
if the angular speed of an object increase its angular momentum will also increase
No. Acceleration and speed are related in the same way irrespective of being linear or angular. Acceleration is rate of change of speed.
To convert linear speed to angular speed, divide the linear speed by the radius of the rotating object. The formula for this relationship is: angular speed (ω) = linear speed (v) / radius (r). This will give you the angular speed in radians per second.
Kepler's second law says that the line joining a planet to the Sun sweeps out equal areas in equal time. Kepler noticed that when a planet's orbit takes it slightly further from the Sun, it moves more slowly. He deduced from calculations made from observations that when the distance increases by 1%, the angular speed decreases by 1%, so the distance times the angular speed, which is the area swept out per second, stays constant. He found this is true all the time for all the planets, a very important discovery in the history of science. The planet's mass times the distance times the angular speed is the angular momentum, and this stays constant. So angular momentum is 'conserved' as the planet goes round, speeding up and slowing down in its orbit. Therefore the second law is now known as a statement of an important physical principle called the Conservation of Angular Momentum. In this way Kepler's second law contributed to scientific progress after his death. Angular speed is measured in radians per second, and the angular momentum is mass times distance times angular speed. For a single particle it is equal to the linear momentum of the particle (mass times speed), while for a rigid body it is the angular speed times the moment of inertia.
It is not possible. Radians are a measure of angular displacement while rpm is a measure of the rate of change of angular displacement. The question is like asking to convert speed into distance.
Scalar. Angular frequency vector is roughly synonymous with angular velocity.
The angular speed is 480 degrees per second.