Normally the force you apply. Load divided by effort is mechanical advantage.
Measure the distance from the fulcrum to the effort?
It is the part of a lever, where external force is applied in order to do work.
it is called a force
There are 3 things in a lever. They are load,fulcrum, effort. The place where the wheel is the fulcrum, the place where we put something is load,the place we hoist the wheelbarrow is the effort so it is a second class lever.
A lever that has the load between the fulcrum and the effort is known as a second order lever. Once again, the further away the effort is from the fulcrum and the load the greater the mechanical advantage of the lever.
On the lever
Measure the distance from the fulcrum to the effort?
It depends on which type of lever you are using. If it is a Class II lever then the load is between the fulcrum and the effort.
Load = the force of the weight of the lever fulcrum = the point of which the lever rests effort = the force you apply to the lever
Load = the force of the weight of the lever fulcrum = the point of which the lever rests effort = the force you apply to the lever
The portion between the fulcrum and the effort applied in a lever is called effort arm.
A Lever comprises of three components:Fulcrum or Pivot - the point about which the lever rotatesLoad or Resistance - the object that requires movingEffort - the force applied by the user of the lever system
It is the part of a lever, where external force is applied in order to do work.
it is called a force
There are 3 things in a lever. They are load,fulcrum, effort. The place where the wheel is the fulcrum, the place where we put something is load,the place we hoist the wheelbarrow is the effort so it is a second class lever.
A lever that has the load between the fulcrum and the effort is known as a second order lever. Once again, the further away the effort is from the fulcrum and the load the greater the mechanical advantage of the lever.
load arm, effort arm, load, effort, fulcrum!