Rotation is when you turn an object.
You can work out the rotation of shapes by identifying the transformations and the rotations.Ê The measurements of the rotation of shapes are expressed in degrees.
It may work by rotation of the wrist that spins the wheel inside.
Yes.
Apparently you are talking about work shifts, but we are guessing. What kind of rotation are you talking about? What country and what industry?
work on ollies better
lalala elmos world whooo
It is the one point that does not move during rotation.
If the 'wheel' is locked and doesn't go anywhere, then there's no work. But if there's rotation, then the torque does work.
Because u are in idiot
Where I work, we rotate every 30 minutes
What the hell you talkin 'bout?Ignoring the previous answer...For torque, 'distance' refers to the radius of rotation. For work, 'distance' refers to the distance travelled in the direction of a force. To find the amount of work done by torque, multiply the force by the distance travelled around the circumference of rotation.
Torque describes a rotational force, caused by a force acting at right-angles to the radius of rotation. To measure torque, we multiply the force, in newtons, by the radius of rotation in metres -so, torque is measured in newton metres (N.m).Work is measured by multiplying the force on an object by the distance through which it moves, and is measured in joules (J).The work done by force of torque (not by torque) is determined by multiplying the force, not by the radius of rotation, but by the distance the force acts around the circumference of rotation. So, if torque causes a complete rotation, then the work done by that torque will be the force times (2 pi r).One joule is equal to one newton-meter. It is a measure of work or energy.Torque can be expressed in joules (J), but they really mean joules per radian. They're talking about the amount of work this torque is capable of doing for each radian of rotation. When using radian measure mention of radian is often left out, as in this case.