Well, they're basically the same thing. Peradventure, that is how they are related.
Effort force is a force used to move an object over distance.Which ball will bounce higher lacrosse ball or tennis ball?Read more: Which_ball_will_bounce_higher_lacrosse_ball_or_tennis_ball
Work force plus effort force
That's the "Input Work".
When you move a fulcrum as close as you can to the effort force and farthest away from the load, you are pushing on the short end of the lever, so it requires the most effort force to push on the lever and lift up the load. When you move the fulcrum farther away from the effort force and closer to the load, you are pushing on the long end of the lever, so it requires less effort force to lift the load.
Input work and output work are related by the sign. Example force F and Displacement D create work W;W = FD= -fdcos(FD) + 1FXD fdsin(FD)If the sign of the work is negative, the work is called output or ex-ergy; if the sign is positive the work is en-ergy or input work..There are two kinds of work, scalar work Cos(FD) and vector work or Torque sin(FD).
input force/effort force In physics, the force that you apply to something over time is "work".
input force/effort force In physics, the force that you apply to something over time is "work".
Effort force is a force used to move an object over distance.Which ball will bounce higher lacrosse ball or tennis ball?Read more: Which_ball_will_bounce_higher_lacrosse_ball_or_tennis_ball
That's the definition of "work" ... (force exerted) times (distance through which the force acts). If you push against the end of a lever with a force 'F' and move it through a distance 'D', then (F x D) is the work you put into the lever.
There is no force called effort force.All force are called force. You may heard Gravitational force, frictional force before because that is the name given by the scientist. So if you do not know what is the name(because sometimes there is none,just like your case on force provided by a machine) just simply call it a force.
work (effort) equals load times distance
Input force
because if there wasn't an input force, or any one of those, the machine would not work properly
Work force plus effort force
force * distance = work
That's the "Input Work".
When you move a fulcrum as close as you can to the effort force and farthest away from the load, you are pushing on the short end of the lever, so it requires the most effort force to push on the lever and lift up the load. When you move the fulcrum farther away from the effort force and closer to the load, you are pushing on the long end of the lever, so it requires less effort force to lift the load.