The center of gravity of the person is shifted to the right.
The lowering of the center of gravity will make it easier for the person to balance. The person will use less muscular energy to maintain his balance with that lower center of gravity.
It varies from person to person and with the position the person is in at the time. For a person standing upright, it's usually somewhere in the vicinity of the navel.
Center of gravity is primarily used in airplane dialog but you have it around you all the time. It is the point of balance in an object when no other force affects it. A couple of examples: a teeter totter is balanced when objects at both ends equal the same weight. If you are on one end and another person is on the other you will notice the heavier person causes the teeter totter to rotate down on the heavy end. If the heavier person moves more to the center the balance is eventually equalized and you have achieved center of gravity. Two...If you balance a standard pencil on your finger the point where the pencil actually balances is the pencils center of gravity. Hope this helps
The center of gravity of a person is exactly the same as it is for any other mass object: It's the unique point where the weighted relative position of the distributed mass sums to zero. Another way to understand it is: the point where the total mass appears to be concentrated when observing the effects of external mechanical forces acting on the object. A person's center of gravity is located roughly behind his belly button, in the center of the circle formed by his belt. On the average, it's a bit higher than that for men, and a bit lower than that for women.
Gravity always acts as a pair of equal forces in opposite directions.If a person weighs 120 lbs on earth, then the force of gravity pulling on himhas a magnitude of 120 lbs and points toward the center of the earth, and theother force of gravity pulls on the earth, has a magnitude of 120 lbs, and pointstoward the center of him.If I weigh 120 lbs on the earth, then the earth weighs 120 lbs on me .
The lowering of the center of gravity will make it easier for the person to balance. The person will use less muscular energy to maintain his balance with that lower center of gravity.
Nothing happens to the person's center of gravity.But the CG of the (person + books) combination isto the right of the CG of the person alone.Also possibly above it if the person is female, and possiblybelow it if the person is male.
The long stick lower center of gravity and makes it easier to keep the balance.
It moves somewhat down and to his left.
Drinking alcohol doesn't change a person's center of gravity but drinking too much can reduce a person's equilibrium.
The center of gravity for adults is the hips. However, as the person grows older, a stooped posture is common because of the changes from osteoporosis and normal bone degeneration, and the knees, hips, and elbows flex. This stooped posture results in the upper torso being the center of gravity for the elderly person.
It varies from person to person and with the position the person is in at the time. For a person standing upright, it's usually somewhere in the vicinity of the navel.
Until a straight line from his center of gravity to the center of the Earth no longer passes through his footprints on the ground.
Yes, the person would be weightless. The person would have to be at the center of gravity of the earth, which would probably be extremely near the geometrical center. Any difference between the two points would have to do with the homogeneous distribution of materials of similar mass. Since we know the earth has various bulges here and there, it is not impossible that the distribution of materials may be a little 'off', resulting in the center of gravity not being exactly at the geometric center.
Center of gravity is primarily used in airplane dialog but you have it around you all the time. It is the point of balance in an object when no other force affects it. A couple of examples: a teeter totter is balanced when objects at both ends equal the same weight. If you are on one end and another person is on the other you will notice the heavier person causes the teeter totter to rotate down on the heavy end. If the heavier person moves more to the center the balance is eventually equalized and you have achieved center of gravity. Two...If you balance a standard pencil on your finger the point where the pencil actually balances is the pencils center of gravity. Hope this helps
a book falling, a person walking, and alot of things
The center of gravity of a person is exactly the same as it is for any other mass object: It's the unique point where the weighted relative position of the distributed mass sums to zero. Another way to understand it is: the point where the total mass appears to be concentrated when observing the effects of external mechanical forces acting on the object. A person's center of gravity is located roughly behind his belly button, in the center of the circle formed by his belt. On the average, it's a bit higher than that for men, and a bit lower than that for women.