orbit n inertia
Gravitation is responsible for keeping the Earth and the other planets in their orbits around the Sun and for keeping the Moon in its orbit around the Earth.
The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).
Kepler's 1st law states that the orbits of the planets around the sun and makes an ellipse. This is taught in astronomy.
around the sun, not the earth.
The inner plants. The size and distance of the outer planets means they have longer and more spaced out orbits
Gravitation is responsible for keeping the Earth and the other planets in their orbits around the Sun and for keeping the Moon in its orbit around the Earth.
Gravity is responsible for keeping all sorts of things in their orbits - planets around the Sun, suns around the Milky Way, moons around their planets, among others.It is also responsible for keeping things together - Earth, for example, would quickly fall apart without gravity.
The planets orbits are the routes or paths that the planets follow around our sun. One orbit is one trip around the sun (one year).
Elliptical orbits of the planets around the sun actually match what we observe. Newton's Theory of Universal Gravitation states that planets will move around the sun in elliptical orbits.
moons
it orbits around it
The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).The planets' gravity on the Sun is insignificant, compared to the Sun's mass; so, within the Solar System, it is (basically) the planets that orbit around the Sun.On the other hand, the Sun - together with all the planets - orbits around the center of the Milky Way (our galaxy).
the orbits
elliptical
orbits
Orbits of the planets around the sun
They have their own orbits, around the star they formed around, just like how our planet orbits our sun.