Five different examples of pushing forces: 1. Pushing a box across the room 2. Sliding a drink down a bar 3. "Pushing" the computer mouse across the mousepad 4. A center pushing a defensive lineman down the field 5. Pushing a car that is in neutral
Assuming that the brakes are not "dragging" they start exerting force on the wheels when they are applied by the engineer.
Examples: Balanced: Two kids are playing tug of war. They are both exerting 4 Newtons of force. (Balanced forces=0 Newtons) Unbalanced: Two kids are playing tug of war. One kid is exerting 6 Newtons of force, the other is exerting 7 Newtons of force. (Unbalanced forces=1 or more Newtons difference[7N-6N=1N) Just because the forces are balanced, doesn't mean that they have to be less than the unbalanced forces. N=Newton
Compression.APEX :)
Compression.
Five different examples of pushing forces: 1. Pushing a box across the room 2. Sliding a drink down a bar 3. "Pushing" the computer mouse across the mousepad 4. A center pushing a defensive lineman down the field 5. Pushing a car that is in neutral
Assuming that the brakes are not "dragging" they start exerting force on the wheels when they are applied by the engineer.
force
force
Examples: Balanced: Two kids are playing tug of war. They are both exerting 4 Newtons of force. (Balanced forces=0 Newtons) Unbalanced: Two kids are playing tug of war. One kid is exerting 6 Newtons of force, the other is exerting 7 Newtons of force. (Unbalanced forces=1 or more Newtons difference[7N-6N=1N) Just because the forces are balanced, doesn't mean that they have to be less than the unbalanced forces. N=Newton
no
yes sometimes
Compression.APEX :)
Exerting force in a porportional manner, not using too much or too little force.
The force you are exerting to stretch it, and the restoring force of the spring.
Compression.
Yes