Power = Force x displacement/time = 500 x 1000 / 120 = 4166.67 W
(14 N x 6 m) = 84 newton-meters = 84 joules
it is force times the distance it moves through and its units are Newton meters in SI, called Joules, or inch pounds in US
Work= 1500 Joule. Time= 60 100 N is moved 15 meters. Work = applied force (newtons) x distance (meters) X = 100 x 15 Work = 1500 Joules Power (watts) = work (joules)/ time (seconds) 25 = 1500/X Time = 60.
direction and magnitude
Work = (force) x (distance) = (2 x 1) = 2 newton-meters = 2 joulesPower = (work)/(time) = 2 joules / 1 second = 2 watts
(14 N x 6 m) = 84 newton-meters = 84 joules
it is force times the distance it moves through and its units are Newton meters in SI, called Joules, or inch pounds in US
Work= 1500 Joule. Time= 60 100 N is moved 15 meters. Work = applied force (newtons) x distance (meters) X = 100 x 15 Work = 1500 Joules Power (watts) = work (joules)/ time (seconds) 25 = 1500/X Time = 60.
direction and magnitude
A rocket that travels 9000 meters in 12.12 seconds moves at 742.5742 meters/second which is approx 1660 mph
Work = (force) x (distance) = (20n) x (2m) = 40 newton-meters = 40 joules.
Work = (force) x (distance) = (2 x 1) = 2 newton-meters = 2 joulesPower = (work)/(time) = 2 joules / 1 second = 2 watts
If an object moves 50 meters in 5 seconds, its average speed is 50/5 = 10 meters per second.
20 meters per second
If the 25N force is directed straight up, so that the force itself moves 1.5 meters tofinish the job, then it does 37.5 joules of work, which becomes 37.5 more joules ofgravitational potential energy that the plant has, once it's on the shelf.
In order to stop the car within 5 seconds, it must have a negative acceleration (or deceleration) of -2m/s2. According to Newton's 2nd law: F = m*a. a = -2, m = 900kg, so F must be -1800N. Or 1800 Newtons to the direction reversed to the movement.
This question is not quite clear as to what answer is being sought out. This is more of a statement, so yes, a people moving conveyor-belt moves a 600-newton person a distance of 100 meters through an airport.