No, if the force is increased, the distance must be decreased, and vice versa. Anything else would violate the Law of Conservation of Energy.
you multipy the smaller denomnater to equal the other fraction and multipy the numarter by the same number as the denomneter got multiplied by
Re-scaling or (for selected vales of the same number) normalising.
Weight has same dimension and unit as force. Distance has same dimension and unit as displacement. So weight * distance has same dimension and unit as force * displacement. Force * displacement is work done by the force. Work divided by time to do the work is Power. So weight * distance divided by time also has same dimension and unit as Power although it is not power. S.I. unit of weight * distance divided by time is Newton *meter/second or Nms-1 (in abbr.) It's dimensions are 1, 2, -3 in mass, length and time respectively. Note that given quantity's unit can't be joule/second or watt because weight * distance is not work done, only unit and dimension are same1 . 1. Two physical quantities may have same dimensions and units but that doesn't mean they refer to same quantity.
An inclined plane makes work easier because it allows for a longer distance over which a force can be applied. By exerting a smaller force over a longer distance, the amount of work required is reduced. However, the force exerted remains the same, as the incline does not change the magnitude of the force needed.
multipy the whole number by the denometer, then add that number to your numerator. now that is your numerator and your denomater stays the same.
Because machines allow force to be applied over a greater distance.
By exchanging for for distance. You need to apply less force, but you need to apply it over a larger distance. Since work (or energy transfer) is force x distance, the total work is the same.
you multipy a fraction by taking a number and mulitiply the same number to the numerator and denominator and get ur answer
Work = force x distance traveled (only when the force and distance are acting in the same direction)
Yes. It is (force x distance) or (distance x force). Same thing.
Only if there is also a movement. Work done by a force can be calculated as force x distance. This is assuming the force and the movement are in the same direction.Only if there is also a movement. Work done by a force can be calculated as force x distance. This is assuming the force and the movement are in the same direction.Only if there is also a movement. Work done by a force can be calculated as force x distance. This is assuming the force and the movement are in the same direction.Only if there is also a movement. Work done by a force can be calculated as force x distance. This is assuming the force and the movement are in the same direction.
The force will decrease as the distance increases.
you multipy the smaller denomnater to equal the other fraction and multipy the numarter by the same number as the denomneter got multiplied by
A force acting through a distance is Work.Work has the same unit as energy - Joules (or Ergs)Work = Force x Distance
Well, its not that hard: Some machines help people do work by changing the size of the force needed. Have you ever tried opening a door by turning the shaft instead of the handle? Not as simple. It takes less force to use the handle instead of the shaft. If a machine (doorknob attached to shaft) allows you to exert less force, you must apply that force over a greater distance. the complete and total amount of work done remains the same, whether its by machine or not. Because a machine does not change the amount of work to be done, less force must mean greater distance. So: Machine=less force BUT greater distance!
Work is applied to an object and the object is moved over a distance in the same direction of the applied force.
Assuming that force and distance are in the same direction, and the force is constant, you multiply the force times the distance over which the force acts. If they are not in the same direction, you take the dot product. If the force is not constant, you use an integral.