In accordance to Newton's Second Law, you need to divide the force by the acceleration. The answer in this case will be in kilograms.
If the bathroom scale reads 500N when the man stands on it, then that's a clear indication that the force of gravity between the man and the Earth is 500N. That number is referred to as the man's "weight" on Earth. It's also the Earth's weight on the man.
Additional forces may have any magnitude and direction. In the special case that the forces are in equilibrium (the object does not accelerate), a second force (or the sum of all the other forces) would have to be 500N upward.
For every reaction there is an equal and opposite reaction. -500N
Just multiply the force times the distance. This assumes the force is applied in the direction of the movement.
none. work is only done when energy is exchanged
The breaking strength of the rope has to be stated in terms of the "tension" in the rope, and that has to be the 800N quoted here. If the ends of the rope are pulled in oppposite directions with a force of 500N on each end, then the tension in the rope at any point is 1000N, and yes, it will break.
a women who wears a 500n while standing in 0.5m work boots.
for every action there is a reaction equal in magnitude and opposite in direction. the Earth is pulled by the person with 500n as well but this cannot be seen because the earth 's mass is enormous.
Canon EOS 500N is a 35mm film camera released in 1996.
it is 500N
Work = Force x distance So since the barbell is 500N and the barbell travels 2.2 meters it becomes 500N x 2.2m = 1100 joules (N x m)
0.25