Jupiter has over 6000!
The gravitational force between the planet and the sun is what holds the planet in orbit around the sun. This force keeps the planet moving in a curved path around the sun, in balance with the planet's inertia.
The sun holds celestial bodies in the solar system through its gravitational pull. This gravitational force keeps planets, moons, asteroids, and other objects in orbit around the sun. The balance between the sun's gravity and the forward motion of the celestial bodies keeps them moving in stable orbits.
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.
No, the gravity of the Sun primarily affects the planets and large objects in the solar system. Asteroids beyond Mars are influenced by the gravitational tug of large gas giants like Jupiter and Saturn, as well as interactions with other objects in the solar system. The Sun's gravity does play a role in the general structure and dynamics of the asteroid belt, but individual asteroids are not held in place by it.
In our solar system, the object with the second greatest gravitational pull is Jupiter. Jupiter, the largest planet, has a mass more than 300 times that of Earth, resulting in a strong gravitational force that significantly influences the orbits of its many moons and nearby objects. The Sun holds the greatest gravitational pull, dominating the solar system's dynamics.
Gravity. As the planet rotates it's mass holds it's moons within it's orbit. The larger the planet the stronger is its gravitational pull.
Jupiter has an effect on the orbits of the asteroids, but I wouldn't really say that's what holds them in the area beyond Mars.
the gravitational force holds its atmosphere together
Gravity holds a planet's atmosphere close to its surface. The gravitational force of the planet's mass prevents the gases in the atmosphere from escaping into space. Without gravity, the atmosphere would disperse into space.
The gravitational force between the planet and the sun is what holds the planet in orbit around the sun. This force keeps the planet moving in a curved path around the sun, in balance with the planet's inertia.
The Earth's gravitational attraction prevents gasses from escaping into outer space.
The sun holds celestial bodies in the solar system through its gravitational pull. This gravitational force keeps planets, moons, asteroids, and other objects in orbit around the sun. The balance between the sun's gravity and the forward motion of the celestial bodies keeps them moving in stable orbits.
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 moon is held in place by the gravitational pull of the Earth. This gravitational force keeps the moon in orbit around the Earth, preventing it from floating off into space. The balance between the motion of the moon and the gravitational force of the Earth keeps the moon in a stable orbit.
What exactly do you mean by "in space"? Everything is in space. If you meant why they are individually floating without getting attracted into the corresponding star, then that is due to the centrifugal force caused by the revolution of the planet. Please append the corrected question to this answer if you happen to read this again...:)
The gravitational force between the moon and Earth keeps the moon in orbit. This force pulls the moon towards Earth, but the moon's velocity allows it to continue moving in a circular path around the Earth.
The sun's gravity holds the planets in their orbits. It also holds other space objects in their orbits, such as asteroids.