The Voyager 1 spacecraft, launched by NASA in 1977, is the farthest human-made object from the center in our solar system. In our galaxy, the Milky Way, there are stars and other celestial objects much farther from the center. And in the universe, there are galaxies and galactic clusters that are billions of light-years away from their centers.
The object farthest from the center in all three systems would likely be a distant galaxy due to the immense distances involved. Given the vast scale of the universe, galaxies are the most likely candidates for being farthest away from the centers of their respective systems.
A three-dimensional object is called a solid.
A rotation is a movement of an object in a circular motion. A two-dimensional object rotates around a center (or point) of rotation. A three-dimensional object rotates around a line called an axis.
The three forces that can cause an object to change its motion are gravity, friction, and applied force. Gravity pulls objects towards the center of the Earth, friction opposes motion by acting in the opposite direction, and applied force is any external force being exerted on the object.
The three forces that act on an object are gravity, friction, and applied force.
The Moon
The object farthest from the center in all three systems would likely be a distant galaxy due to the immense distances involved. Given the vast scale of the universe, galaxies are the most likely candidates for being farthest away from the centers of their respective systems.
The Neso in the Solar System, 2018 VG18 in our Milky Way galaxy, and MACS0647-JD in the observable universe are all distant objects, with MACS0647-JD being the farthest from the center in these three systems.
The Moon
circle
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.
That is a sphere.
Sphere.
A sphere perhaps?
A sphere, globe, or ball.If the word missing from the question is "distance",then the object is a sphere,
No, a sphere and a circle are different geometric shapes. A sphere is a three-dimensional object with all points equidistant from the center, while a circle is a two-dimensional shape with all points equidistant from the center. In other words, a circle is a flat, circular shape, while a sphere is a three-dimensional, round object.
Three and three-tenths.