If a planet doesn't follow its orbital path, then it may crash into other planets, moons and/or other object floating around in space.
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 egg-shaped orbit that a planet follows is called an ellipse, and planets are thus said to have elliptical orbits.
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.
It was actually Johannes Kepler who discovered that planets follow elliptical orbits in the early 17th century. Newton later built upon Kepler's work by formulating the law of universal gravitation, explaining the underlying force responsible for the motion of planets.
Then the laws of physics would be broken. An impossibility.
Orbits.
i do not this answer that's why i am asking you this answer.
Planets move around the sun in elliptical orbits. These orbits are elongated and follow Kepler's laws of planetary motion, which describe the shape and dynamics of the planetary orbits.
If the planets did not move in their fixed orbits they may dash each other.
Planets can't really get out of their orbits because of gravity; if gravity somehow stopped having an effect, the planets would continue in a straight inertial line with inertia from the point at which gravity stopped.
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 egg-shaped orbit that a planet follows is called an ellipse, and planets are thus said to have elliptical orbits.
Planets have to go in different directions all the time because they all follow orbits that are more or less circular.
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.
It was actually Johannes Kepler who discovered that planets follow elliptical orbits in the early 17th century. Newton later built upon Kepler's work by formulating the law of universal gravitation, explaining the underlying force responsible for the motion of planets.
A moon orbits around a planet, while a planet orbits around a star. Moons tend to have faster and smaller orbits compared to planets, which follow larger and slower orbits around the star. Additionally, moons' orbits are influenced by the gravitational pull of their host planet, whereas planets are not typically influenced by other celestial bodies in the same way.