In a geocentric universe the earth is the center of the universe or solar system and everything revolves around it. In a heliocentric universe the sun or a star is the center of the universe or solar system. We live in a heliocentric solar system with the sun as the center.
The Earth. Well, more accurately, the ego of the person who claims that the system is geocentric. He thinks the entire universe revolves around HIM.
Geocentric means believing that celestial bodies (stars, the sun, etc.) orbit the earth.
The Earth is at the center of any geocentric model.
I believe you mean Geocentric system, which places the earth at the center of our solar system instead of the sun.
The earth.
Earth
The center of mass of the solar system is inside the sun, not too far from its geometric center.
the moon is in the center of the solar system:)
There are two major differences between "center of gravity" and "center of mass": 1) The term "center of gravity" aplies to the bodies with mass and weight, while the term "centroid" applies to plan areas. 2) Center of gravity of a body is the point through which the resultant gravitational force (weight) of the body acts for any orientation of the body while centroid is the point in a plane area such that the moment of the area, about any axis, through that point is zero. Center of gravity is the point at which a object can be suspended and be in perfect equilibrium
the center mass of an object is in the center of such objects. you can find it by spining the object. :)
If you mean in the solar system, then the answer is the sun. Jupiter and Saturn are also some big masses in the solar system. In the galaxy, the largest object is probably the black hole in the center.
The center of mass of the solar system is inside the sun, not too far from its geometric center.
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 moon is in the center of the solar system:)
earth
like a shape like squares triangles that stuff if its a shape its probobly a geometric object
Center of Gravity is the average location of an object's weight. For symmetrical objects it is the same location as the geometric center. Example, a dumbell with equal spherical masses at each end is symmetric about lines drawn thru its center, so the geometric center is midway between the end masses. This is also the center of gravity because the average location of the weights (same amount to the left as to the right) is at the geometric center. For working force problems an object's weight is always a force to be considered. When drawing force vectors the object's weight can be considered as located at its center of gravity. The center of gravity of an object can be found experimentally by finding points where it can be balanced. Draw an imaginary line vertically up, thru the object, from the balance point. Then rotate the object 90 deg and find another balance point and draw a second ,imaginary, vertical line. Then rotate the object 90 deg in a different direction and find a third vertical line. The point ,inside the object, where the lines cross, is its center of gravity. You need three lines for a three dimensional object so you get the balance point in all three spatial directions.
the sun
[object Object]
The center of mass of a sphere is its geometric center.
The center of mass of a soccer ball is its geometric center.
That would be the point.
When the object is a regular, geometric shape.