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What geometric shape do the orbits of planets resemble?

Planetary orbits are eliptical. Each orbit forms an elipse.


Can anyone explain why planets go in eliptical orbit why dont they get collided?

Because the diameters of the orbits are different. Some are closer to the sun, others are further out.


What is the shape of a planets orbit and in which direction do all planets revolve?

Planets orbit in an elliptical shape around the Sun, with the Sun located at one of the foci of the ellipse. All planets in our solar system revolve counterclockwise when viewed from above the Sun's north pole.


Why the eliptical gravitational orbits of the planets are STABLE so they don't fall in or run off the sun due to the slight but frequent perturbations caused by the crashing of microasteroids?

These small pertubations are what keep the choas of there stable orbits. It's all planned out, the universe I think has found a way.


Are Copernicus' views accepted today?

Not by the scientific community, but his extensive data was used by Keppler to figure out that planets had eliptical orbits. this led to kepplers laws of planetary motion.


Who proved you had eliptical orbits and not sircular ones?

Johannes Kepler.


What are the four planets that have orbits from most to least?

All the planets have orbits so four cannot be picked out.


Do all planets have to be circle?

No, because all planets known have elliptical orbits.


Why planets and moons of planets stay in their orbits?

The forces of gravity between two masses are the cause of all orbits.


What paths do planets revolve around the sun with?

eliptical


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.


Why was Kepler not satisfied with the circle he calculated to fit most of the observed locations of mars?

The orbits of the planets, including Mars, are eliptical, not circular. Keplers observed positions did not fit a circular orbit. The differences led him to discover that the orbits were not circular, but eliptical.