The work down is 10Nx3m= 30Nm( Joules).
It depends on how great the force is acting against the newtons.
24000 joules
Work = force x distance = (4 x 10) = 40 newton-meters = 40 joules
yes
yes
wi 7500 joules fi 250 newtons di 30 meters A+
Work is defined as (force) times (distance). If the force is not zero, and the distance it moved through is not zero, then work was done. In other words, if you applied a force, and kept it going while the place you applied the force moved, then work was done. In this case, work = (60) x (0.5) = 30 newton-meters = 30 joules of work.
It depends on the weight. The work required in joules (kg*m2/s2) is equal to the force applied in newtons and the displacement, or distance, in meters. Thus, for an object that weights 1 N (multiply the weight of the object by the gravitational acceleration, 9.81 m/s2 to transfer to newtons) will require 1 N * 3 m = 3 J. Thus, the formula for work is: W = Fd "W" is the work done on the system. "F" is the force in newtons "d" is the displacement (or distance) of the object in meters.
A minimum of 1.667 newtons.
What is the value of Wi? 7,500 joules
It depends on how great the force is acting against the newtons.
Work = Force x Distance. The answer is 10 joules.
24000 joules
Work = force x distance = (4 x 10) = 40 newton-meters = 40 joules
yes
yes
0.4 Newtons