No.
The two factors that govern the torque or turning moment are her mass and the horizontal distance from the seesaw centre to her centre of gravity.
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.
Two children of equal weight sitting at opposite ends of a seesaw do not create energy. They may use energy to perform work.
they have the same density That would be impossible. The only way to stop moving is to push down with you're feet each time you reach the ground
Bernie would! he ways more! oh and to make you feel bad, think about this. I AM 11!!!!!!!!
The two factors that govern the torque or turning moment are her mass and the horizontal distance from the seesaw centre to her centre of gravity.
Your mother did
no s's in "that"
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.
120
The path of the end of a seesaw is an arc or semicircle.
Balance, horizontal, play, children, fun, plank, moving, up-and-down, two, sitting.
Two children of equal weight sitting at opposite ends of a seesaw do not create energy. They may use energy to perform work.
You must be sitting twice as far away from the pivot, on your side, as your sister is on her side.
they have the same density That would be impossible. The only way to stop moving is to push down with you're feet each time you reach the ground
If the two boys of unequal weight are together heavier than two boys of unequal weight the seesaw can be balanced by whichever couple is heaviest sitting nearer to the seesaw's pivot.
A seesaw is a class one lever.