Then the laws of physics would be broken. An impossibility.
If planets did not have their own orbits, they would not follow predictable paths around the sun, leading to chaos in our solar system. This would disrupt gravitational balances and likely result in collisions between planets or the sun, ultimately destabilizing the entire system.
The planets in our solar system orbit around the Sun in elliptical paths. Each planet follows its own unique orbit based on its distance from the Sun and gravitational interactions with other celestial bodies. The orbits are roughly aligned along the same plane known as the ecliptic.
They have their own orbits, around the star they formed around, just like how our planet orbits our sun.
Because if they were ever going to collide they would have done it at some time in the last 3.5 billion years. Each planet has its own stable orbit which takes it round the Sun regularly at a fixed range of distances that does not overlap with other planets. The planets are understood to follow Kepler's laws in elliptical orbits, under the force of the Sun's gravity.
The planets in the solar system are in well-spaced out, stable, roughly circular orbits - they don't come close enough to collide with each other. Asteroids and comets, however, are on more elliptical, unstable orbits that often cross the orbits of the planets, and sometimes planets collide with asteroids and comets.
theyll be doomed
If planets did not have their own orbits, they would not follow predictable paths around the sun, leading to chaos in our solar system. This would disrupt gravitational balances and likely result in collisions between planets or the sun, ultimately destabilizing the entire system.
they wouldn't go around the sun and they wouldn't have lights at night.
The planets in our solar system orbit around the Sun in elliptical paths. Each planet follows its own unique orbit based on its distance from the Sun and gravitational interactions with other celestial bodies. The orbits are roughly aligned along the same plane known as the ecliptic.
They have their own orbits, around the star they formed around, just like how our planet orbits our sun.
The orbits of all planets in our solar system do not overlap; each planet has its own distinct orbit around the Sun. However, there are times when planets appear close together in the sky from our viewpoint on Earth due to their positions in their respective orbits.
The eight planets, including Earth, have their own orbits.
Because if they were ever going to collide they would have done it at some time in the last 3.5 billion years. Each planet has its own stable orbit which takes it round the Sun regularly at a fixed range of distances that does not overlap with other planets. The planets are understood to follow Kepler's laws in elliptical orbits, under the force of the Sun's gravity.
"Inertia" plus gravity (of the sun). Note that the orbits do change over time, but that in the last few billion years they have been quite stable.
The planets' own gravity has made them spherical. Also there are other effects such as their ability to retain an atmosphere, etc. The Sun's gravitycauses the orbits of the planets.
The planets in the solar system are in well-spaced out, stable, roughly circular orbits - they don't come close enough to collide with each other. Asteroids and comets, however, are on more elliptical, unstable orbits that often cross the orbits of the planets, and sometimes planets collide with asteroids and comets.
Yes, they revolve around the sun in their orbits. Their orbits depend on their weight, which would determine the weight of gravity in individual cases, and the planets are controlled by their own gravity and the centrifugal and centriputal forces always in effect.