The force that holds the tail and rings of a celestial body, such as a planet or moon, together is primarily gravitational force. The gravitational pull of the planet or moon attracts the particles in the rings and tail, keeping them in orbit. Additionally, other forces, such as electromagnetic forces and collisions between particles, can play a role in maintaining the structure and cohesion of these features.
The force of gravity between the moon and the planet is what keeps the moon in orbit around the planet. This gravitational force prevents the moon from floating away into space and keeps it in a stable orbit.
Where can you find gravity in the universe? If your feet are on the ground, then look no further! Gravity is the force that holds you to the earth. Gravity is what holds the moon spinning round the earth, and not floating away. Gravity holds the oceans on the earth, as well as the atmosphere.
The Earth, Moon and other planets stay in their orbits under the force of gravity, following Kepler's laws of planetary motion.
Gravity is what keeps them in attraction. The force of Gravity is determined by the mass and distance between two or more objects. The other force that keeps the moon in orbit is the moon's inertia. Without inertia the moon would simply fall into Earth; because of Gravity, the same would happen with the planets and the sun.
The force of mutual gravitational attraction. We know THAT it works, but we don't know how. Yet.
Gravity is what holds the moon and planets in place. The gravitational force between these celestial bodies and the larger objects like the sun keeps them in their orbits and maintains their positions in the solar system.
The gravitational force is what holds the Earth-Moon system together. Earth's gravity pulls the Moon toward it, creating a stable orbit. Simultaneously, the Moon's gravity exerts a pull on the Earth, affecting tides and contributing to the dynamic relationship between the two bodies. This mutual gravitational attraction is essential for maintaining the orbital balance of the system.
Although not yet proven, it is believed that their is a massive black hole at the center of each galaxy.
The force that holds the tail and rings of a celestial body, such as a planet or moon, together is primarily gravitational force. The gravitational pull of the planet or moon attracts the particles in the rings and tail, keeping them in orbit. Additionally, other forces, such as electromagnetic forces and collisions between particles, can play a role in maintaining the structure and cohesion of these features.
The force that holds the moon in place is gravity. Without gravity, there wouldn't be a moon.
Gravity
That force is gravity.
Gravity holds the planets and moon in orbit. According to Einstein's Theory of Relativity, a star is like a ball sitting in the mesh of space-time; it makes an indent in the material. When a planet or comet enters the vicinity of the star, it begins to "roll" around in this indent like a marble rolling around the inside of a salad bowl. Whereas the marble will eventually hit the bottom and stop, the planet falls into place at the right distance to hold an orbit around the star. The same is true with the moon and earth, but on a smaller scale.
The gravity of there star keeps them on path and a planets moon is sun around by its planets gravitational force
Gravity keeps the planets in orbit around the sun and the stars and the stars in orbit around the center of the galaxy. Gravity also holds the stars together against their own internal pressure.
Where a planet or moon has an atmosphere, it is the gravity of the moon or planet that holds the atmosphere on the planet or moon.