Tycho Bache and Johannes Kepler.
Tycho watched and records tons of data of the moments of planets, but his assistant, Johannes Kepler analyzed it all and made theories about the movements to better understand them (this was after Tycho passes away).
In the Ptolemaic system, the motions of Mercury, Venus, Mars, Jupiter, and Saturn were described with epicycles. These epicycles were small circles that the planets were thought to move in while also orbiting the Earth on larger deferent circles.
The motions of the planets are primarily controlled by gravity, which is the force of attraction between all masses in the universe. In our solar system, the Sun's gravitational pull governs the orbits and movements of the planets. The precise motions of the planets are also influenced by their initial velocities and the conservation of angular momentum.
This scientist is Niels Bohr, who proposed the Bohr model of the atom. He likened the motion of electrons around the nucleus to planets orbiting the sun in defined, circular paths. This model helped explain the stability of atoms and the emission of discrete energy levels.
The motion of the planets are elliptical motions
The motions of the Sun and the planets reflect to disk shape of the solar nebula because they follow the same rotation as this disk shape. The rotation of the Sun and the planets is not a perfect circle.
did Tycho Brahe came to the wrong conclusion about motions of the planets. true or false?
A mathematical representation of the orbits of the planets, configured in a way that planets would have figure eight motions that would partially explain retrograde motions.
yes
false
In the Ptolemaic system, the motions of Mercury, Venus, Mars, Jupiter, and Saturn were described with epicycles. These epicycles were small circles that the planets were thought to move in while also orbiting the Earth on larger deferent circles.
Ptolemy
The scientific explanation lies in Kepler's laws of planetary motions, which were discovered by Newton to be linked with the law of gravity. All the planets have elliptical orbits, and many of those are close being circular.
Tycho Brahe did not have the wrong conclusion about the motion of the planets. He was in fact very correct about his observations.
Yes, the sun's mass is a crucial factor in controlling the motions of the planets in our solar system. The sun's gravitational force keeps the planets in orbit around it, shaping their paths and governing their speeds. The more massive an object, like the sun, the stronger its gravitational pull on surrounding objects.
The motions of the planets are primarily controlled by gravity, which is the force of attraction between all masses in the universe. In our solar system, the Sun's gravitational pull governs the orbits and movements of the planets. The precise motions of the planets are also influenced by their initial velocities and the conservation of angular momentum.
Well a good answer for that would be there are many different motions for different planets but if you want to know are universe planets motion it all rotates around the sun.
false