The distance a planet is from the Sun relates to the length of the planet's year because it determines the time it takes for the planet to complete one revolution around the Sun.
A planet's "year" is the time taken to orbit the Sun once.
The further a planet is from the Sun, the further it must travel to complete an orbit.
Also, a planet moves more slowly when it is further from the Sun.
The mathematical equation for all this is given by Kepler's "Third Law of Planetary Motion".
Earth takes about 365.25 days to complete a revolution.
So, our year is 365 days with 366 days in a "leap year".
When don't they? If a planet is in orbit around a star, it is in continual orbit. Orbital periods (the lengths of time it takes different planets to complete one orbit) are different from planet to planet, and are related to the distances between the planets and their stars.
That is the correct spelling of "planet" -- a large object orbiting a star. In our solar system, planetary bodies are generally classified by size and orbits as planets, dwarf planets, moons, or asteroids.
The distance a planet is from the Sun relates to the length of the planet's year because it determines the time it takes for the planet to complete one revolution around the Sun. A planet's "year" is the time taken to orbit the Sun once. The further a planet is from the Sun, the further it must travel to complete an orbit. Also, a planet moves more slowly when it is further from the Sun. The mathematical equation for all this is given by Kepler's "Third Law of Planetary Motion". Earth takes about 365.25 days to complete a revolution. So, our year is 365 days with 366 days in a "leap year".
Generally speaking, the bigger or more massive a planet it, the more gravity it has, since gravity and mass are related. the small planets such as Mars and Mercury have a weaker gravity, while the larger planets have a strong gravitational field.
All planets have a symbol as do do the dwarf planets and a number of asteroids.See related link for a list of the symbols.
In general, since the sun is the source of their heat energy, the further away a planet is from the sun, the cooler it is.
The farther it is from the sun the longer its period of revolution (its "year").
Galaxies are generally a collection of stars. But within any galaxy, there are lots of other objects, including planets. So galaxies are related to planets in some ways.
When don't they? If a planet is in orbit around a star, it is in continual orbit. Orbital periods (the lengths of time it takes different planets to complete one orbit) are different from planet to planet, and are related to the distances between the planets and their stars.
When don't they? If a planet is in orbit around a star, it is in continual orbit. Orbital periods (the lengths of time it takes different planets to complete one orbit) are different from planet to planet, and are related to the distances between the planets and their stars.
Rocky planets are denser than gas giants.
That is the correct spelling of "planet" -- a large object orbiting a star. In our solar system, planetary bodies are generally classified by size and orbits as planets, dwarf planets, moons, or asteroids.
The distance a planet is from the Sun relates to the length of the planet's year because it determines the time it takes for the planet to complete one revolution around the Sun. A planet's "year" is the time taken to orbit the Sun once. The further a planet is from the Sun, the further it must travel to complete an orbit. Also, a planet moves more slowly when it is further from the Sun. The mathematical equation for all this is given by Kepler's "Third Law of Planetary Motion". Earth takes about 365.25 days to complete a revolution. So, our year is 365 days with 366 days in a "leap year".
Generally speaking, the bigger or more massive a planet it, the more gravity it has, since gravity and mass are related. the small planets such as Mars and Mercury have a weaker gravity, while the larger planets have a strong gravitational field.
How is Newton's law of gravity related to the movement of the planets?
the period of revolution is related to the semimajor axis.... :)
linear and time distances are related to the theme of movement because they both describe when someone or omething moves.