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Are all planetary orbits ellipses?
Yes, according to Kepler's laws of planetary motion, all planetary orbits are elliptical in shape. This means that planets do not orbit the sun in a perfect circle, but instead follow an elliptical path with the sun at one of the foci of the ellipse.
Are all planetary rings at the planet's equator Do any have polar orbits?
No, all the moons and rings rotate in the same plane as the planet itself.
What shape are most planets' orbits around the sun in specific the earth?
The shape of most planets' orbits around the sun, including Earth, is elliptical. This means that their orbits are not perfect circles but rather slightly elongated with the sun positioned at one of the foci of the ellipse.
What is is the shape of the orbit a comet has?
The orbits of periodic comets and the orbits of planets have the same geometric shape.Every closed gravitational orbit is an ellipse. But the eccentricity of the cometary ellipsesare almost all greater than the eccentricities of the planetary ones.
Do all the Honda ridgelines have the same size bed size from year to year?
Yes, the dimentions are identical on all years.
Who stated that all the planets revolve around the sun in elliptical orbits and that the sun is not the exact center of orbits?
Johannes Kepler proposed the idea that planets revolve around the sun in elliptical orbits in his laws of planetary motion. This idea challenged the prevailing belief at the time that the Earth was the center of the universe.
The belt of constellations through which all the planets move is called the?
The belt of constellations through which all the planets move is called zodiac. The true shape of the planetary orbits was discovered by Kepler.
What did Kepler's observation support?
Kepler's observations supported the fact that the plants orbit in an ellipse. He wrote the Laws of Planetary Motion stating all planets orbit the sun and all planets orbits are elliptical.
Is the orbit of each planet a ellipse?
Yes, according to Kepler's laws of planetary motion, the orbit of each planet around the Sun is an ellipse with the Sun at one of the two foci. This means that the planet's distance from the Sun varies throughout its orbit.
What keeps all planets in their orbits besides gravity?
Mass and energy of all the other planetary objects. Larger masses attract smaller masses at the rate proportional to the size (Mass) of the object versus the velocity of the planetary object. A universe is held together or not held together by this simple mathematical relationship. Without the existence of E=MC squared there would be no other way to answer this question. Because of this equation, mankind can understand all relationships involving matter and the universe.
What factors influence the stability of planetary orbits within a solar system?
The stability of planetary orbits within a solar system is influenced by factors such as the gravitational pull of the central star, the mass and distance of the planets, and any external forces from nearby celestial bodies. These factors interact to determine the overall stability and structure of the planetary orbits.
Is the moon's orbit caused by gravitational force?
Yes. That's what determines the shape and size of ALL orbits.
