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yes
Assuming that the brakes are not "dragging" they start exerting force on the wheels when they are applied by the engineer.
Without context, one can only assume that gravity is exerting a force on any object that is moving downward. (Gravity is still exerting a force on a coin that is not moving, for example one stationary on a tabletop, but we don't spend a lot of time worrying about it.)
Compression.APEX :)
The force you are exerting to stretch it, and the restoring force of the spring.
yes
For every actions there is an equal and opposite reaction. For example, if i punch a wall i am exerting a force on the wall, but at the same time the wall is exerting the same amount of force on my fist.
For every actions there is an equal and opposite reaction. For example, if i punch a wall i am exerting a force on the wall, but at the same time the wall is exerting the same amount of force on my fist.
Assuming that the brakes are not "dragging" they start exerting force on the wheels when they are applied by the engineer.
Effort force:Load force. For example, if you put in 10 newtons of force and the load force was exerting 5 newtons the velocity ratio would be 2:1
force
force
Without context, one can only assume that gravity is exerting a force on any object that is moving downward. (Gravity is still exerting a force on a coin that is not moving, for example one stationary on a tabletop, but we don't spend a lot of time worrying about it.)
no
yes sometimes
Compression.APEX :)
Exerting force in a porportional manner, not using too much or too little force.