"satellite"
An astronomical object that moves (revolves) around a larger object is called a satellite. A natural satellite of a planet is called a moon.
An object that moves around a larger object in space is typically called a satellite. Satellites can be natural, like moons orbiting planets, or artificial, like spacecraft orbiting Earth. They move in a regular, predictable path due to the gravitational pull of the larger object they are orbiting.
Astronomically speaking, an object that orbits a larger object is a satellite. I.E. the moon is the earth's satellit
A satellite is an object that moves around a bigger object, such as a planet or a moon. Satellites can be natural, like the Earth's moon, or artificial, like communication or weather satellites. They orbit around their host body due to gravitational forces.
Orbiting
When an object moves closer to a light source, its shadow generally gets larger. This is because the object is blocking more of the light that would otherwise reach the surface where the shadow is being cast. As the object gets closer, it appears larger in relation to the surface, resulting in a larger shadow.
A planet is a large object that moves around a star in a solar system.
No, the closer an object is to the lens, the more the spherical it is.
When an object moves towards a convex lens, the size of the image increases. This is due to the image distance decreasing as the object moves closer to the lens, resulting in the image appearing larger.
The path followed by an object that moves around another object is called an orbit. This is commonly seen in celestial bodies like planets revolving around a star, or moons orbiting a planet.
The path an object follows as it moves around another object is called an orbit. Orbits are typically elliptical in shape and are governed by the gravitational forces between the two objects.
An object that moves in an elliptical path around another object could be a satellite orbiting a planet, such as a moon around Earth. The elliptical path follows the laws of gravity and allows the object to maintain a stable orbit.