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Applying a force through a distance is known as work. Work equals force in Newtons times distance in meters, and the unit for force is the Newton•meter, N•m.
work
No, motion is not a force. Motion is a change of coordinates. However, motion usually is a result of applying a force.
By applying the same force farther from the center of rotation.
When lines of force are cut by a conductor you have electromagnetic induction. A metallic wire can be used as the conductor.
I know of no metals that will stretch 100% before breaking first. Rubber material can do this, but not metals
When a force rotates something about an axis is called moment of force or torque. Torque = Length of lever arm x Force From this equation you can see that as the length of the lever arm increases, the torque increases. That is why if you try to push or open the door near the pivot, you will need more force to rotate it. Hope this helps.
yoyoyoyoy
No. Only if you are applying the same amount of force then there is no motion. If you are applying more force (the object is moving) then there is work being done.
Metallic bonding
"action/reaction" does not mean " force". "Applying force" is an action, not the force itself. So, applying force will create a reaction, which may or may not balance the applied force.
you
Yes. It can be simplified into applying force to an object.
You can generate force and momentum by applying pressure.
Applying a force through a distance is known as work. Work equals force in Newtons times distance in meters, and the unit for force is the Newton•meter, N•m.
Applying more force in the direction of travel will increase the acceleration and therefore speed. If more force is applyed opposite to the direction of travel, acceleration will decrease.
transferring energy to or from an object by applying a force over a distance.