The center of a seesaw is called the "fulcrum." It is the pivot point around which the seesaw moves up and down.
Usually the centre; sometimes above, sometimes below and rarely level with the arms of it.
A seesaw in a playground is an example of a fulcrum. The board that the children sit on acts as the lever, while the point where the seesaw pivots is the fulcrum. The position of the fulcrum determines the balance and movement of the seesaw.
The point supporting a seesaw or lever is called the fulcrum. This is the pivot point around which the lever rotates when a force is applied on one side. The position of the fulcrum can affect the mechanical advantage and balance of the seesaw or lever.
A seesaw is an example of a first-class lever. The fulcrum, which is the part of the lever that does not move, is in the middle. The resistance, which is the weight (person) you are trying to lift is at one end. The effort, which is the force applied to the lever, is the person sitting on the other end.
The main forces involved when on a seesaw are gravity, which pulls objects towards the Earth's center, and the normal force, which is the force exerted by the seesaw pushing back on the person sitting on it. These forces create a balanced system where one end of the seesaw goes up while the other goes down.
Usually the centre; sometimes above, sometimes below and rarely level with the arms of it.
Fulcrum
A seesaw in a playground is an example of a fulcrum. The board that the children sit on acts as the lever, while the point where the seesaw pivots is the fulcrum. The position of the fulcrum determines the balance and movement of the seesaw.
first class levers have fulcrum at center and load and effort at extremes, examples are seesaw and scissor.
The point supporting a seesaw or lever is called the fulcrum. This is the pivot point around which the lever rotates when a force is applied on one side. The position of the fulcrum can affect the mechanical advantage and balance of the seesaw or lever.
A seesaw is an example of a first-class lever. The fulcrum, which is the part of the lever that does not move, is in the middle. The resistance, which is the weight (person) you are trying to lift is at one end. The effort, which is the force applied to the lever, is the person sitting on the other end.
The main forces involved when on a seesaw are gravity, which pulls objects towards the Earth's center, and the normal force, which is the force exerted by the seesaw pushing back on the person sitting on it. These forces create a balanced system where one end of the seesaw goes up while the other goes down.
Moving the load on a seesaw affects the balance of the seesaw. If one side becomes heavier, that side will lower while the other side rises. Moving the load closer to the center of the seesaw will balance it out, while moving it farther away will cause imbalance.
A seesaw is a class one lever.
a seesaw is a lever that is balenced on a fulcrum
A seesaw consists of a plank supported from the center by a pivot point, allowing two people to sit on opposite ends. The plank can pivot up and down as weight shifts between the two ends.
No, a seesaw is an example of a "lever".