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The elliptical paths of planets refer to the oval-shaped orbits that planets follow around a star, such as the Sun. This phenomenon is described by Kepler's First Law of Planetary Motion, which states that planets move in elliptical orbits with the star at one focal point. The shape of these orbits results from the gravitational forces between the planet and the star, with the distance between them varying throughout the orbit. This elliptical motion is a key aspect of celestial mechanics and contributes to the seasonal changes experienced on planets like Earth.
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Is the orbital paths of the planets elliptical with the Sun at the center?
false
Which scientist continued the work of another while studying the elliptical path of planets Name both scientists.?
Johannes Kepler continued the work of Tycho Brahe while studying the elliptical paths of planets. After Brahe's death, Kepler used his detailed astronomical observations to formulate his three laws of planetary motion, which describe how planets orbit the sun in elliptical shapes rather than circular paths.
Who discovered the elliptical path of the planets?
17th century astronomer Johannes Kepler discovered the elliptical shape of the planets' orbits around the Sun, which he described in his first law of planetary motion. Newton later explained this in his law of universal gravitation.
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.
A comet orbits the sun in what kind of path?
Elliptical paths, just like planets. Typically, but not always, with greater eccentricity.
Is the orbital paths of the planets elliptical with the Sun at the center?
false
What is the same for all planets in the solar system?
They all have elliptical paths around the Sun.
What is the same for all the planets in the solar system?
They all have elliptical paths around the Sun.
Planets revolve around the sun along?
In one word 'YES'. The paths that you describe are the planets orbits. These orbits are shaped like 'Ellipsoids'., that is an ellipse that doesn't quite close-up , but overloops with every circuit. The Sun lies not at the centre of the ellipsoid, but at one of the foci. As a consequence planets following their orbits paths speed up (Nearest the Sun) and slow down (Furthest from the Sun).
Who proposed that planets orbit the sun in elliptical paths moving fastest when closest to the Sun?
Johannes Kepler.
Who gathered the data that showed that the planets travel in elliptical paths around the sun?
Johannes Kepler gathered the data that showed the planets travel in elliptical paths around the sun. He formulated his laws of planetary motion based on observations made by Tycho Brahe.
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.
Who discovered the elliptical path of the planets?
17th century astronomer Johannes Kepler discovered the elliptical shape of the planets' orbits around the Sun, which he described in his first law of planetary motion. Newton later explained this in his law of universal gravitation.
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.
A comet orbits the sun in what kind of path?
Elliptical paths, just like planets. Typically, but not always, with greater eccentricity.
What are the paths called that planets orbit on around the sun?
They are orbits and they are elliptical in shape. So the answer could be "orbits" or it could be "ellipses".
What two factors cause planets to move in elliptical orbits?
The gravitational pull exerted by the Sun, which acts as the central force keeping planets in orbit, causes them to move along elliptical paths. The conservation of angular momentum ensures that planets travel in elliptical orbits, with their speed varying at different points along the orbit to maintain this balance.
