can't help you sorry
The weight needed to balance the lever depends on the distance of the weight from the fulcrum and the weight on the other side of the lever.
The fixed balance point on a lever is called the fulcrum. It is the point at which the lever pivots or rotates when a force is applied to either side of the lever. The position of the fulcrum determines how the lever amplifies or redirects the force applied to it.
The pivot point of a lever is called the fulcrum.
A balance is a first-class lever, where the fulcrum is located between the effort (force applied) and the load (object being weighed).
Yes, a beam balance is a first class lever. In a first class lever, the fulcrum is located between the effort (input force) and the load (output force), like in the case of a beam balance where the fulcrum is in the middle.
because it balance the lever
The weight needed to balance the lever depends on the distance of the weight from the fulcrum and the weight on the other side of the lever.
Another name for lever balance.
The fixed balance point on a lever is called the fulcrum. It is the point at which the lever pivots or rotates when a force is applied to either side of the lever. The position of the fulcrum determines how the lever amplifies or redirects the force applied to it.
A lever
The pivot point of a lever is called the fulcrum.
A balance is a first-class lever, where the fulcrum is located between the effort (force applied) and the load (object being weighed).
Yes, a beam balance is a first class lever. In a first class lever, the fulcrum is located between the effort (input force) and the load (output force), like in the case of a beam balance where the fulcrum is in the middle.
no, he did not !he explained how the lever works, the rule, the law, he did not invent it!
It is the balance point of a lever. That is all there is to it!
fulcrum
A lever arm balance is a simple machine that uses a lever arm to compare the weights of two objects. When the lever arm balances horizontally, it indicates that the weights on each side are equal. This principle is based on the law of equilibrium in physics.