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∙ 10y agoYou would expend 2 watts of power when exerting a force of 1 N to move a book 2 meters in one second. This can be calculated using the formula for power, which is Power = Work / Time. Given that Work = Force x Distance, the power expended would be 1 N * 2 m / 1 s = 2 watts.
Velocity.
The gravitational force is directly proportional to the mass.1 kg --> 9.8 newtons2 kg --> 19.6 newtons1 million kg --> 9.8 million newtons
You exert force when you pull on anything.
The amount of force you exert remains the same, but the distance over which you exert the force can affect the work done. If you exert a force over a longer distance, you may do more work because the force acts over a greater distance. If the distance over which you exert the force is shorter, the work done may be less.
No, you exert less force when you are closer to the fulcrum. The farther you are from the fulcrum, the more leverage you have and the less force is needed to move an object.
You would expend 2 watts of power when you exert a force of 1N that moves a book 2m in a time interval of 1s.
1,000 N apex=500 N
Work = (800 newtons) x (10 meters) = 8,000 newton-meters = 8,000 joulesPower = (work) / (time) = (8,000) / (5) = 1,600 watts
The exact speed of light in vacuum is 299,792,458 meters per second. It's something different in every different material stuff.
(0.143 kg) (8500 m/s2) = 1215.5 N
F = ma 12000kg X 4 m/s squared 48000 Newtons.
40 N
It makes muscles stronger so they can exert more force. It lengthens the amount of time the athlete can intensely exercise. It can greatly improve finish times in races and competitions all the above
It makes muscles stronger so they can exert more force. It lengthens the amount of time the athlete can intensely exercise. It can greatly improve finish times in races and competitions all the above
The power required to exert a force of 1 N over a distance of 1 m in 1 second is 1 watt. This is because power is defined as the rate at which work is done, and in this case, the work done is 1 joule in 1 second.
his force is clearly 200N
Please multiply the mass by the gravity. On Earth, the gravity is approximately 9.8 newton/kilogram (= 9.8 meters/second2).