False
Penis Man
It depends on what you mean with "differ". if you mean the distance between the center of gravity of the child and the ground then the answer is yes. but if you mean that it's about the navel height, the answer is no.
The heavier mass will be nearest to the center of mass. The concept behind this is related to the one that explains the center of gravity. The center of mass and the center of gravity are the same.
yes, due to heeling.
It does ! The amount is insignificant. Look at it another way, the moon is always falling toward the Earth ... and the Earth is always falling toward the moon. They are both accelerating.
If an object is in a state of unstable equilibrium, any displacement will lower that objects center of gravity.
yes ,when centre of gravity and center of mass is at a st.line the body is balanced.
Drinking alcohol doesn't change a person's center of gravity but drinking too much can reduce a person's equilibrium.
The Gravitational Equilibrium of a star is when the amount of gravity being exerted by the center of the star on the outer particles of the same are balanced by a force pushing the particles out. In other words, it is when a star is not shrinking or condensing because of its own gravity. Possible outward forces counteracting the gravity could be radiation, heat, shockwaves, seismic waves, etc.
Marouane Chamakh
The secret of balancing toys that exhibit stable equilibrium while appearing to be unstable lies in their center of mass. These toys are designed in a way that allows their center of mass to be positioned directly beneath the point of support, which creates a stable balance. Despite their seemingly precarious positions, the toys' weight distribution enables them to stay balanced.
A pole is a uniform body and so its center of gravity is somewhere in the middle. By keeping the pole vertical you are keeping the center of gravity at the highest position( relative to the hand)- this is unstable equilibrium. Hence the pole will tend to achieve stable equilibrium( ie. to fall flat to the ground).Remember- higher the center of gravity, more unstable
the center of gravity of the leaning tower of Pisa lies above its base of support, so the tower is in stable equilibrium.
One simple example of a center of gravity could be a ruler balanced on your finger. Just at the point where your finger in located and the ruler does not fall is the center of gravity for your ruler. Now, put a quarter on one end and move your finger toward the quarter until it is balanced just like before. Same results, but the center has changed because one of the two points has changed it mass.
The ease with which an object can be balanced depends greatly on the location of its center of gravity. In this video segment adapted from ZOOM, two cast members experiment with various designs in an effort to balance a pencil on its tip. Their solution lowers the pencil's center of gravity, making this seemingly difficult balancing feat all but effortless.
Yes, it is possible to make yourself harder to lift. By shifting your center of gravity , which is usually referred to as your hips, down you can make it much harder to be lifted. It depends on which kind of lift, but this usually does the trick. <><><><> Shifting your center of gravity does not make you heavier. It shifts the point where your body is balanced.
Balance depends on center of gravity. When a forklift elevates a load, it changes it's center of gravity and therefore changes the way it's balanced. Think of how balanced a person is when holding a bowling ball at waste level. Then think of how that balance is changed as it's lifted upward towards the shoulders.