The answer would depend on the units used for the force. Since these are not specified, it is not possible to answer the question.
1,500 j by the war lord ((((((((:
work_done = force x distance In igniting a match a force is applied to push the match a distance along the box, thus work is done.
Technically, once you know the weight of the box and the height of the platform, you can state the amount of"work" or "energy" needed to raise the box onto the platform. But there's no such thing as the power "needed"to do the job.Power is just the rate of doing work. You can calculate the amount of work needed, but it doesn't matter whetherthe work is done slowly or fast ... with low or high power.
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.
Work is equal to the force acting on an object times its displacement. Therefore, the work performed on the box is 100 Joules.
very little because of the 55 box and the ten force monkey
1600
Work, more specifically "positive" work because the box moved in the direction in which the force was applied.
You have only done as much external work on the box as the distance it moves: work = force x distance. If it does not budge no work is done on the object. You have done "internal" work on your muscles which converts to heat energy, but technically speaking, no external work is done on the object
The minimum force required to move the box can be calculated using the work done, distance, and weight of the box. Here, Work done = force * distance moved. So, force = work done / distance moved = 50J / 10m = 5N. Therefore, the minimum force required to move the box is 5 Newtons.
If the box ended up at the same height above the floor as it started, then no gravitational potential energy was added to the box in the form of work. It doesn't even matter if the box moved up or down on the way. Of course, work is done, and calories are expended. That's only because your body is not 100% efficient, and it takes work to move arm and leg muscles, walk, breathe, etc. But no work is done on the box as it moves horizontally.
Work = force times displacement. F = 4500 N and height = distance that box was moved through (3.5 m). Plug these values in given formula and you will have your answer.
The work done to lift the box is given by the formula: work = force x distance. In this case, the force is 20 N and the distance is 2 m, so the work done is 20 N x 2 m = 40 J.
He applied a force to the box and it moved. Force applied on it equals to the weight. As he lifts the point of application of the force gets displaced. Hence work is said to be done.
No work is being done. Work is when an object moves in the same direction as the force applied to it.
When you push a box forward and it moves forward, you have done positive work on it. This is because you applied a force in the direction of its displacement, resulting in the box moving in the same direction as the force applied, indicating positive work.