i think that center of a body can not be outside of the body simply because its mass can not be outside of an object,it must be somewhere in the object.
I'm sure it can be. Just think about it. Try to explain: Get the same thing as the earth, drill a hole which is start in europa, going trough in the centre of the earth and come back on the other side on China. The gravity is always attract the things to the centre of the mass, which is geometrically the centre of the earth. But if the centre of the earth is empty, the gravity is going to attract the bodies with mass to the same place, so the centre of the mass, in other words to the empty place. If somebody has a question about this I can prove you this with a very simple experiment what anybody can do at home, and can see the truth.
I think Centre of Mass may be on the body or outside the body.
For example:- For a ring or a bangle the centre of mass must be in the middle part so as to get balanced. But the middle part is hollow. So its centre of mass is obtained by tieing two threads diagonally, which is outside the bangle.
CENTRE OF MASS AND CENTRE OF GRAVITY ARE TWO DIFFERENT CONCEPTS.
They may perhaps be different concepts in principle, but in practice the center of mass and
the center of gravity are always precisely the same point. And now that I think on it a bit
more, I believe they are one and the same concept as well.
The second paragraph above is spot-on treatment of the whole subject.
The center of gravity is the point where the weight of an object is concentrated. When the center of gravity is properly aligned over the base of support, it helps to maintain balance. If the center of gravity is outside the base of support, it can cause the object to tip over.
No, the center of gravity of an object is not always located within the physical boundaries of the object. It depends on the distribution of mass in the object. The center of gravity is the point where the entire weight of the object can be considered to act, and it can be located both inside and outside the physical boundaries of the object.
No, the center of gravity is not always in the center of an object. It is the point where the entire weight of the object can be considered to act. For uniform objects like a symmetric sphere, the center of gravity coincides with the geometric center, but for irregular shapes, it may be located elsewhere.
The center of gravity for a spherical object is located at its geometric center, which is also the center of the sphere. This point is equidistant from all points on the surface of the sphere, making it the point where the force of gravity can be considered to act.
The force that pulls an object towards the center of the Earth is gravity. This force is proportional to the mass of the object and the mass of the Earth, as well as the distance between them.
To predict whether an object will topple, you need to determine if the center of gravity falls outside the base of support. If the center of gravity is outside the base, the object will topple in the direction of the overhang. This is because the force of gravity acts on the center of gravity, causing it to rotate around the edge of the base until it falls outside the support area.
The center of gravity is the point where the weight of an object is concentrated. When the center of gravity is properly aligned over the base of support, it helps to maintain balance. If the center of gravity is outside the base of support, it can cause the object to tip over.
No, the center of gravity of an irregularly shaped object does not have to be located inside the object. The center of gravity is the point where the weight of the object is concentrated, and it can be located both inside and outside the object depending on its shape and distribution of mass.
An object's center of gravity always lies at the point where its weight can be considered to act. For a symmetrical object like a sphere, the center of gravity is at its geometric center. In irregularly shaped objects, the center of gravity may not necessarily be located at the geometric center.
The center of gravity of an object must be directly above its base of support in order to prevent tipping over. If the center of gravity is outside of the base of support, the object will be unstable and likely to tip.
No, an object can only have one center of gravity. The center of gravity is a point where the entire weight of the object can be considered to act, regardless of the object's orientation.
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.
Weight directly impacts the position of an object's center of gravity. The center of gravity is the point where the weight of an object can be considered to act. As an object's weight increases, the center of gravity shifts towards the heavier end of the object.
No, the center of gravity of an object is not always located within the physical boundaries of the object. It depends on the distribution of mass in the object. The center of gravity is the point where the entire weight of the object can be considered to act, and it can be located both inside and outside the physical boundaries of the object.
1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.1. For stability calculations. For example, if the vertical projection of the center of gravity is outside the area where the object rests on the ground, it will topple. 2. For rotation. If an object that is free to move is pulled at its center of gravity, it will simply move. If it is pulled anywhere else, it will also start to rotate. There are probably other reasons, too.
If the center of gravity of an object falls below its support base, it is in stable equilibrium. If the center of gravity falls outside the support base, it is in unstable equilibrium. You can determine the stability by assessing the relationship between the object's center of gravity and its base of support.
No. The center is the center.