The earth pulls every molecule of an object in a downwards direction, or in other words every molecule of an object has a weight. We can add all the millions of tiny molecule weights together and get a single resultant force for the weight of the whole object.
So an object behaves as if its whole weight was a single force which acts through a point G called its centre of gravity.
An object of uniform thickness and density has its mass evenly spread throughout and its centre of gravity is at its geometrical centre. Some examples of objects with regular shapes and uniform densities are shown in the figures below. It is interesting to note the centre of gravity of an object is not necessarily inside the object.
No , the center of gravity is in a spot where balance is achieved, if an object is dimensionally heavier on one side, then the center of gravity would not be in the measurable center.
No. In a doughnut for example, the center of gravity is in the center of the doughnut, which is not in the object.
at the centre ?!
No. The center of gravity of a wedding ring is in the space at the center of the ring. The center of gravity of the letter ' V ' is somewhere along the vertical line between the two slanted lines.
The center of gravity always lies within an object, and is the location at which the entire mass can be considered acting at a single point.For a system of more than one object, the center of gravity can lie anywhere between the farthest points of the objects, depending on the distribution of mass. The center of mass is called the barycenter.
-- Hang the object from at least two different points on it, in turn. -- During each hanging, draw a line on the object, directly downward, starting at the point from which it hangs. -- The object always hangs with its center of gravity directly below the point from which it hangs. So all such lines pass through the center of gravity, which is indicated by the point at which two or more such lines intersect.
No, because mass is the amount of matter contained in a body. So whatever may be the distance from the center of gravity it always remains the same.
For a single body, the center of gravity (center of mass) must be within the object. It is the single point at which all of an object's mass can be considered to act. For multiple bodies in a system, the center of mass can fall within a body or anywhere between bodies. The joint center of mass is called the "barycenter."
It is always different depending on the object. For example a female humans' center of gravity is in the hip. as a male humans' center of gravity is in the chest. But once you have found the center of gravity in an object the center of gravity should be the same in every object like it.
No, but the centre of gravity need not be inside the object. Not unless Gravity is not a variable. But it is not possible for an object to not have a center of mass.
No. The center of gravity of a wedding ring is in the space at the center of the ring. The center of gravity of the letter ' V ' is somewhere along the vertical line between the two slanted lines.
The center of gravity always lies within an object, and is the location at which the entire mass can be considered acting at a single point.For a system of more than one object, the center of gravity can lie anywhere between the farthest points of the objects, depending on the distribution of mass. The center of mass is called the barycenter.
Friend Hilmar Zonneveld is perfectly and absolutely right. Weight, being a vector, of an object will always act through the center of gravity. Also definition of centre of gravity confirms that whatever be the position the weight would always act through a point known to be center of gravity
No, objects cannot have more than one center of gravity. The center of gravity of an object can however change.
No. The center is the center.
If the object is homogeneous, its center of mass is in its geometrical center. And if it is small compared to Earth, its center of gravity is, for all practical purposes, its center of mass.
Only if the object is homogeneous, i.e. the mass is uniformly distributed. If the object is lumpy, or has thick spots and thin spots, then the center of gravity isn't related to the geometric shape. Consider a see-saw with a light kid on one end and a heavy kid on the other end. The geometric center is the mid-point of the board, but the center of gravity is closer to the heavy kid.
The only factor that affects the center of gravity is how the mass of an object is distributed.
-- Hang the object from at least two different points on it, in turn. -- During each hanging, draw a line on the object, directly downward, starting at the point from which it hangs. -- The object always hangs with its center of gravity directly below the point from which it hangs. So all such lines pass through the center of gravity, which is indicated by the point at which two or more such lines intersect.
No, because mass is the amount of matter contained in a body. So whatever may be the distance from the center of gravity it always remains the same.