One on both sides, if you put an even amount on each side, the side with less will even the other.
But if your taking the Penn Foster test the answer is B. between the center and the ten books. ^_^
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 fulcrum is the support about which a lever pivots.The fulcrum is the pivot point in a lever (or other simple machines ) to either multiply the mechanical force (effort) that can be applied to another object or resistance force (load), or multiply the distance and speed at which the opposite end of the rigid object travels. =]
The resistance arm is the side of the lever (from the fulcrum to the load) that carries the load.
The Spanish for lever is palanca.
Lever.
The pivot point of a lever is called the fulcrum.
because it balance the lever
It is the fulcrum.
It is the balance point of a lever. That is all there is to it!
fulcrum
The force is equal to the mass times your lever arm. If 4n is placed 0.2m from the fulcrum, you have 0.8 force units on you lever arm. This would imply that a mass of 2n should be placed 0.4m from the fulcrum in the opposite direction. This would give you 0.8 force units on both sides, thereby balancing the lever.
A fulcrum in a lever is very important because without a fulcrum a lever isn't a lever , and the fulcrum is the main part of a lever.
The fixed point of a lever is called the fulcrum. A lever is a beam connected by a hinge, or pivot, called a fulcrum. A lever is used to amplify the applied force.
A fulcrum is a point at which the lever is supported or about which the lever turns.
As close to the load as possible. Note that the closer to the load the fulcrum is placed, the shorter the lift that can be effectuated by the use of the lever.
inclined plane
The fulcrum. A Lever is a rigid rod to which a force can be applied to overcome a resistance. The point at which a lever pivots is called the fulcrum.