If an object does not move, no work is performed. Work is performed by a force acting through a distance.
Judge by the distance it has moved in relation to another object.
The formula for finding work is W=FxD. W being work, "F" being force that is or was in occurence, and "D" beind the distance the object is being moved. Example: MaryAnn is trying to figure out how much work she doing when she is exerting a force on a box, of 45.8 N ( newtons) and moving it 3.7 meters. Find Work. First you would find your force value, which would be 45.8 N. Then identify the distance , in this case its 3.7 meters. Multiply them together. Your answer should be 169.46. That is the amount of MaryAnn has exerted.
This is the equation for "work."
It is an average rate of movement of an object (relative to some fixed point). If an object moved at this rate for one hour, it wold have travelled 10 kilometres.
22.5 kgThe work-energy theorem states:Net work = change in kinetic energyforce x distance moved along the direction of the force= change in kinetic energyWnet = KEf - KEi = DKE.Work= (30N)x(6m)x (cos0)=180Jfinal kinetic energy= 0.5(mass)(velocity^2)= 0.5x(4^2)x mThe initial kinetic energy is 0 (because the object is initially at rest, that is with zero velocity)--> 180= 8m -0m (mass)= 22.5 kg
The work is 347 joules.
42.16 your welcome :)
Work is applied to an object and the object is moved over a distance in the same direction of the applied force.
is moved
is moved
No. Work simply means that an object moved as a force was applied.
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.
Work = force x distance = Newtons x meters = 1937 Joules.
The distance moved by the object can be calculated by dividing the work done by the force applied. In this case, the distance is 15 meters.
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.
The magnitude and direction of the force applied to an object, the magnitude and direction of the distance moved by the object.
The magnitude and direction of the force applied to an object, the magnitude and direction of the distance moved by the object.