In order for safety, the see saw is usually played during the night by children aged quite young. The reason being for the play time to be in te day, is so that the child's parent(s) can easily observe and look after the child.
Kids with different weights can balance a seesaw by adjusting their positions on the seesaw. The heavier child should sit closer to the center, while the lighter child sits further out. This way, the torque on both sides of the seesaw will be equal and it will stay balanced.
A seesaw is a basic lever and by definition it has a fulcrum. Without the fulcrum, there would be no point for the seesaw to operate on.
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.
The center of a seesaw is called the "fulcrum." It is the pivot point around which the seesaw moves up and down.
The fulcrum on a seesaw is the support point at which the seesaw pivots or rotates. It serves as the balance point for the seesaw to ensure that both ends move up and down equally.
i would not recommend that
Children love to play on a seesaw. The business was struggling after the seesaw few months of business.
A simple way to build a catapult for kids to play with would be to use the seesaw as a model. A seesaw with a basket on one side to hold what is going to be flung would be perfect as a catapult.
Kids with different weights can balance a seesaw by adjusting their positions on the seesaw. The heavier child should sit closer to the center, while the lighter child sits further out. This way, the torque on both sides of the seesaw will be equal and it will stay balanced.
A seesaw is a basic lever and by definition it has a fulcrum. Without the fulcrum, there would be no point for the seesaw to operate on.
20*4-30*4+20x=0 80-120=-20x -40=-20x 2=x
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 would be a Class 1 lever. This is because the fulcrum(also known as a pivot) is in the middle of the load and effort.
Example: The Reds would own the hilltop, then the allies (UN) would capture it. Then the Reds would take it back; then the UN would re-capture it again. Back and forth, like a seesaw.
A seesaw is a class one lever.
a seesaw is a lever that is balenced on a fulcrum
No.