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According to the laws of physics, output force (F) times output distance (D) equals output work (W).

W = F x D

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What is the formula of each simple machine by getting the work exerted by the machine?

The formula for work exerted by each simple machine is: Lever: Work = Input force × Input distance = Output force × Output distance Inclined plane: Work = Input force × Input distance = Output force × Output distance Pulley: Work = Input force × Input distance = Output force × Output distance Wheel and axle: Work = Input force × Input radius = Output force × Output radius Wedge: Work = Input force × Input distance = Output force × Output distance Screw: Work = Input force × Input distance = Output force × Output distance


If you exert an input force over a greater distance than the distance exerted by the output force for an ideal machine compare the size of the input and output forces.?

In an ideal machine, if you exert an input force over a greater distance than the output force, the input force will be smaller than the output force. This is because work input is equal to work output in an ideal machine, and work is calculated as force times distance. Therefore, if the input force acts over a greater distance, the output force must be larger to balance the work done.


If the output force of a machine is 4 times that of the input force the output distance is the input distance?

It would be 12 plus the other number with a minus of 7. Then you would add the energy with the force and get something along the lines of a wrong answer because i have no idea what im doing.. Hope that helps


What is the output force in a first class lever?

The output force in a first class lever is dependent on the input force and the distance from the fulcrum to the input force. By applying an input force at a certain distance from the fulcrum, the lever can generate an output force at a different distance on the other side of the fulcrum. The output force can be calculated using the lever principle: Input force x Input distance = Output force x Output distance.


Mechanical advantage formula?

The mechanical advantage (MA) is calculated as the ratio of the output force to the input force, or the distance the input force acts over compared to the distance the output force moves. The formula for mechanical advantage is MA = output force / input force = input distance / output distance.

Related Questions

What is the formula of each simple machine by getting the work exerted by the machine?

The formula for work exerted by each simple machine is: Lever: Work = Input force × Input distance = Output force × Output distance Inclined plane: Work = Input force × Input distance = Output force × Output distance Pulley: Work = Input force × Input distance = Output force × Output distance Wheel and axle: Work = Input force × Input radius = Output force × Output radius Wedge: Work = Input force × Input distance = Output force × Output distance Screw: Work = Input force × Input distance = Output force × Output distance


If you exert an input force over a greater distance than the distance exerted by the output force for an ideal machine compare the size of the input and output forces.?

In an ideal machine, if you exert an input force over a greater distance than the output force, the input force will be smaller than the output force. This is because work input is equal to work output in an ideal machine, and work is calculated as force times distance. Therefore, if the input force acts over a greater distance, the output force must be larger to balance the work done.


If the output force of a machine is 4 times that of the input force the output distance is the input distance?

It would be 12 plus the other number with a minus of 7. Then you would add the energy with the force and get something along the lines of a wrong answer because i have no idea what im doing.. Hope that helps


What is the output force in a first class lever?

The output force in a first class lever is dependent on the input force and the distance from the fulcrum to the input force. By applying an input force at a certain distance from the fulcrum, the lever can generate an output force at a different distance on the other side of the fulcrum. The output force can be calculated using the lever principle: Input force x Input distance = Output force x Output distance.


Mechanical advantage formula?

The mechanical advantage (MA) is calculated as the ratio of the output force to the input force, or the distance the input force acts over compared to the distance the output force moves. The formula for mechanical advantage is MA = output force / input force = input distance / output distance.


What is output work divided by output force?

Output distance is.


Difference between force output and Work Output?

Force output refers to the amount of force applied to an object, while work output measures the amount of work done by that force in moving the object over a distance. In other words, force output is the strength or intensity of the force, while work output is the result of that force in regards to the distance the object is moved.


What is the output distance of a machine that requires 2 newtons of force exerted over 6 meters and whose output force is 4 newtons?

The output distance would be 3 meters. This is calculated by using the formula for work: input force times input distance equals output force times output distance (2N x 6m = 4N x output distance). Solving for output distance gives us 3 meters.


If you exert an input force over a greater distance than the distance exerted by the output force for an ideal machine compare the size of the input and output forces?

In an ideal machine, the input force will be smaller than the output force when the input force is exerted over a greater distance than the output force. This is because work input and work output must be equal in an ideal machine, and since work = force x distance, a smaller input force over a greater distance will result in a larger output force over a shorter distance to maintain equilibrium.


For a machine with a mechanical advantage of 3 how does the distance through which the output force is exerted differ from the distance through which the input force is exerted?

In a machine with a mechanical advantage of 3, the output force is exerted over a shorter distance compared to the distance over which the input force is exerted. The output force is three times greater than the input force but is exerted over a third of the distance traveled by the input force due to the principle of work conservation.


What is the equation for ideal mechanical?

The equation for ideal mechanical advantage is: Output force/input force, Or input distance/ output distance.


What is force distance trade off in a simple machine?

That means that if you use a simple machine to apply less force, you need to compensate by applying the force over a larger distance - for example, to lift up a weight or do some other work.