A see-saw moves due to the force exerted by the weight of the people on each end. When one person pushes down on their side, the other end lifts up. The see-saw moves back and forth as the forces from each side balance and alternate.
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.
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.
A seesaw works due to the force of gravity acting on the two people sitting on either end. As one person pushes down, their end goes up because the fulcrum (pivot point) acts as a balance point for the seesaw to rotate around. The seesaw operates on the principle of the lever, with the downward force of one person causing the other end to move upward.
Objects move due to forces like gravity, friction, magnetic attraction, and applied forces from pushing or pulling. These forces can cause an object to accelerate, decelerate, or change direction.
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 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.
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.
Voltage
A seesaw works due to the force of gravity acting on the two people sitting on either end. As one person pushes down, their end goes up because the fulcrum (pivot point) acts as a balance point for the seesaw to rotate around. The seesaw operates on the principle of the lever, with the downward force of one person causing the other end to move upward.
Objects move due to forces like gravity, friction, magnetic attraction, and applied forces from pushing or pulling. These forces can cause an object to accelerate, decelerate, or change direction.
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.
move ti onto the left side of the seesaw then jump on the right side of the seesaw from the tree
The ideal mechanical advantage for a seesaw is 1:1, meaning the effort arm and load arm are equal in length. This allows for balanced forces and ensures the seesaw can tilt easily and smoothly.
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.
Balanced forces applied on both sides of an object cause it to be still. Unbalanced forces will cause the object to move away from the strongest force.
Balanced forces.
Balanced forces applied on both sides of an object cause it to be still. Unbalanced forces will cause the object to move away from the strongest force.