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Well actually, not all of the planets move in a perfect circle. Uranus's orbital path is effected by the gravitational pull from Neptune. But the planets move in a orbital path because of the gravitational pull from the sun. Since the sun is circular, they move around the sun, so that's why they move in a orbital path.
What else can I help you with?
What is true about the orbital paths of planets in the solar system?
the larger the planet is the slower it revolves
Invisible path on which planets travel in the space?
Planets travel in space along an invisible path called their orbital trajectory. This path is determined by the gravitational pull of the star they are orbiting, causing them to move in an elliptical path. The planets follow these orbital trajectories as they revolve around the star in their respective orbits.
The circular paths are called what?
The circular paths are called orbits.
The type of path planets take?
Planets follow elliptical paths around the sun due to gravity. These paths are determined by the balance between the planet's velocity and the sun's gravitational pull. The paths planets take are essentially orbits, which are repeatable and stable over time.
Are the orbit of planets circular and How may their path be best described?
No, the orbits of planets are not perfectly circular but are elliptical in shape. The path of planets around the Sun can be best described using Kepler's laws of planetary motion, which state that planets move in elliptical paths with the Sun at one of the foci of the ellipse.
Is the orbital paths of the planets elliptical with the Sun at the center?
false
Where are the outer planets located in relationship to the sun?
They follow orbital paths which, like those of the inner planets, are centered on the sun, but the outer planets, without exception, are farther from the sun than any of the inner planets is.
What would happen if the suns gravity did not pull the planets tword it?
The planets would no longer follow their orbital paths around the Sun. They would move away from the Sun and travel in straight lines.
What is the name for the paths the planets follow?
? ? ? An orbit.
What is true about the orbital paths of planets in the solar system?
the larger the planet is the slower it revolves
What two planets that sometimes cross paths are called?
Well technically there aren't any because Pluto is not a planet but Pluto does cross orbital paths with Neptune.
Invisible path on which planets travel in the space?
Planets travel in space along an invisible path called their orbital trajectory. This path is determined by the gravitational pull of the star they are orbiting, causing them to move in an elliptical path. The planets follow these orbital trajectories as they revolve around the star in their respective orbits.
Why do planets not coll ide while revolving around the sun?
Planets do not collide while revolving around the sun because they follow different orbital paths with varying speeds. These paths are determined by the gravitational pull of the sun, which keeps the planets in stable orbits. Additionally, the vast distances between planets provide enough space to prevent collisions.
The circular paths are called what?
The circular paths are called orbits.
The type of path planets take?
Planets follow elliptical paths around the sun due to gravity. These paths are determined by the balance between the planet's velocity and the sun's gravitational pull. The paths planets take are essentially orbits, which are repeatable and stable over time.
What shape orbit do planets in your solar system follow?
The planets in our solar system generally follow an elliptical orbit around the Sun, although these orbits can vary slightly in shape depending on the planet's distance and speed. The orbits are governed by the gravitational pull of the Sun, which keeps the planets in their paths.
Are the orbit of planets circular and How may their path be best described?
No, the orbits of planets are not perfectly circular but are elliptical in shape. The path of planets around the Sun can be best described using Kepler's laws of planetary motion, which state that planets move in elliptical paths with the Sun at one of the foci of the ellipse.
