Simple ..put equal weight at each end, equal distance from the pivot.
if seesaw is balanced under its own weight with no added mass on it you cannot balance on one side. If it is unbalanced under its own weight u can add mass to balance on one side with mass depending on distance to pivot
It has seesaw geometry.
It needs to be balanced.
Weight x distance from fulcrum for each person must be equal. Eg a 10 stone man must be only half the distance from the centre as his 5 stone child.
Seesaw, as Br = 5 valence electrons, 1 electron for each F, one electron for the negative charge means it's a trigional byprimidal, however there is one unpaired set of electrons meaning it's a seesaw shape
tilting seesaw bridge: hard to balance
d1 times w1 = d2 times w2 (d- distance of the person from seesaw)/ (w = weight of person)
A balance board is a device used for recreation or athletic training which consists of a seesaw-like level or circular board upon which a person attempts to balance.
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When using position to balance two uneven weights, it is an example of a lever.
A balance board is a device used for recreation or athletic training which consists of a seesaw-like level or circular board upon which a person attempts to balance.
Balance, horizontal, play, children, fun, plank, moving, up-and-down, two, sitting.
A seesaw is a class one lever.
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
a seesaw is a lever that is balenced on a fulcrum