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Who was the German astronomer who proved that the planets move in oval paths called ellipses?
Johannes Kepler was the German astronomer who proved that the planets move in oval paths called ellipses. His work laid the foundation for the laws of planetary motion.
Johannes Kepler discovered that the paths follow are?
Johannes Kepler discovered that the paths followed by planets are ellipses, not perfect circles as previously believed. He formulated three laws of planetary motion, known as Kepler's Laws, which describe the motion of the planets around the sun.
An oval like shape that is used to describe the orbit of planets?
An elliptical orbit is a flattened circle or oval-like shape followed by a planet as it travels around the sun. It is a common shape observed in celestial bodies' paths due to the gravitational pull between them.
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 shape are the planets orbits?
The planets in our solar system orbit the Sun in elliptical paths, which are elongated circles. These orbits are shaped by the gravitational pull of the Sun and the planets themselves, following Kepler's laws of planetary motion.
Who was the German astronomer who proved that the planets move in oval paths called ellipses?
Johannes Kepler was the German astronomer who proved that the planets move in oval paths called ellipses. His work laid the foundation for the laws of planetary motion.
Which astronomer discovered that the planets orbit the sun in oval shaped paths called ellipses?
Kepler discovered that the planets orbit the sun in oval shaped paths called ellipses.
Johannes Kepler discovered that the paths follow are?
Johannes Kepler discovered that the paths followed by planets are ellipses, not perfect circles as previously believed. He formulated three laws of planetary motion, known as Kepler's Laws, which describe the motion of the planets around the sun.
Why are orbits of planets oval?
Orbits of planets are oval, or elliptical, because one point in the orbit where Earth is closest to the Sun, and another is farthest from the Sun. Therefore making it oval. Hope that makes sense.
An oval like shape that is used to describe the orbit of planets?
An elliptical orbit is a flattened circle or oval-like shape followed by a planet as it travels around the sun. It is a common shape observed in celestial bodies' paths due to the gravitational pull between them.
What are the examples for oval shape?
Examples of oval shapes include eggs, which have a distinct elongated curve; the paths of planets in elliptical orbits; and the shape of a rugby ball. Additionally, many types of leaves, certain types of mirrors, and the outlines of some sports fields, like a racetrack, also exhibit an oval form.
The planets aroud the sun move in a path called an?
The planets around the sun move in a path called an orbit. This orbit is the result of the gravitational pull between the planets and the sun, causing them to travel in a curved path around the sun.
Do planets move in elliptical orbits?
The planets move intheir ellipticalorbits becauseof the gravitation of the Sun combined withthe inertial velocity of the planets(tangentialto their orbital paths). Mathematics shows the resulting orbits must be ellipses. (Some of the ellipses are in factalmost circles.)
Why is the solar system oval?
The Solar System is a oval because that how the planets form it .
What kind of orbits do the planets do around the sun?
An ellipse, like any planet. In the case of Earth (and the other planets in the Solar System), the ellipse is quite close to a circle (in math/astronomy terms, the ellipse has a low eccentricity).
What would happen if planets did not move in a fixed orbit?
If planets did not move in a fixed orbit, their paths would become unpredictable and chaotic. This would likely result in collisions between planets or ejections from the solar system. Ultimately, the stability of the entire solar system would be compromised.
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.
