This is rotational inertia. When inertia forces an object to rotate, it will continue to do so until another force acts upon it.
Because we're rotating with it
Only the friction between the object and the rotating table will be responsible to keep you off from sliding out on a rotating table.
Static equipment is equipment with no moving parts, such as a steam ejector. Rotating equipment has moving parts. An example of rotating equipment is a compressor.
This microwave has a 12 5/8 in. rotating turntable inside.
transformer is not rotating bcoz for rotating rotating magnetic field is required which is produced only when the current is passed through the windings which are displaced physically by 120degrees and phase difference of 120 degrees where as in transformer there is no phsical displacement of 120degrees hence transformer cannot rotate.
Very strong rotating winds.
the clock is rotating like the sun and that's how a compass works in physical education.
rotations in physical education are when you have different groups acording to the grade and you rotate from health to physical education
The Earth rotates towards the east. If you were to travel to a point directly above the north pole and look down, it would appear to be rotating counter-clockwise.
When the rotating arm is pointing directly upwards, put the wood on top of it.
Con rod is short for 'Connecting Rod'. It is the physical link between the rotating crankshaft, and the piston. It allows the rotating force of the crankshaft to push and pull, up and down, the piston in the cylinder
When the rotating arm is pointing directly upwards, put the wood on top of it.
Build it on a rotating platform. Build it directly on the North Pole.
Light waves can be expressed mathematically as either oscillating waves, rotating waves, pulsating waves or transient waves. It is up to the scientist to come up with a working model for the physical phenomena.
Ther is always a danger the rotating blade will kick the material back. Kickback.
It does not need to. It has to. It's a part of the consequence of earth rotating in its axis counterclockwisely. In my opinion... Or do you need a non-physical explanation?
Frictional , rotating losses are not common to transformers and rotating machines. these are specific to rotating machines.