Ecliptic
I'm not quite sure what the question is talking about, but that has never stopped me before. There is only one star in the solar system, so by every law, lemma, and conjecture of mathematical impenetrability, that one and the largest one must be one and the same. It is the one we call the "Sun". The fastest revolution known around the sun is that of the planet Mercury, which completes an orbital circuit of the sun every 88 days. If there is any object with a shorter period of revolution, then all or most of its orbit must be closer to the sun than the orbit of Mercury. No such object has yet been discovered.
In our solar system there is only one star let alone any "largest star" so the phrasing of the question seems a bit confusing. Does the question mean a solar system somewhere out there that has a double star at its center with celestial objects revolving around the larger of those two stars??? Anyway, the planet Mercury revolves around our Sun or star faster than any of the other planets, that being 88 days. But maybe this isn't even a correct answer. After all, just because Mercury takes fewer days to revolve around the Sun, that doesn't mean it is moving "fastest" around the Sun. However, according to astronomy today (see related links), Mercury does indeed have the fastest orbital velocity, moving at 47.87 km per second.
It is the orbit. For example, the Earth is in orbit round the Sun.
No sun doesn't revolve to any celestial body, but the celestial body revolve around the sun.
mercury
fart blossom
Ecliptic
I'm not quite sure what the question is talking about, but that has never stopped me before. There is only one star in the solar system, so by every law, lemma, and conjecture of mathematical impenetrability, that one and the largest one must be one and the same. It is the one we call the "Sun". The fastest revolution known around the sun is that of the planet Mercury, which completes an orbital circuit of the sun every 88 days. If there is any object with a shorter period of revolution, then all or most of its orbit must be closer to the sun than the orbit of Mercury. No such object has yet been discovered.
In our solar system there is only one star let alone any "largest star" so the phrasing of the question seems a bit confusing. Does the question mean a solar system somewhere out there that has a double star at its center with celestial objects revolving around the larger of those two stars??? Anyway, the planet Mercury revolves around our Sun or star faster than any of the other planets, that being 88 days. But maybe this isn't even a correct answer. After all, just because Mercury takes fewer days to revolve around the Sun, that doesn't mean it is moving "fastest" around the Sun. However, according to astronomy today (see related links), Mercury does indeed have the fastest orbital velocity, moving at 47.87 km per second.
In our solar system there is only one star let alone any "largest star" so the phrasing of the question seems a bit confusing. Does the question mean a solar system somewhere out there that has a double star at its center with celestial objects revolving around the larger of those two stars??? Anyway, the planet Mercury revolves around our Sun or star faster than any of the other planets, that being 88 days. But maybe this isn't even a correct answer. After all, just because Mercury takes fewer days to revolve around the Sun, that doesn't mean it is moving "fastest" around the Sun. However, according to astronomy today (see related links), Mercury does indeed have the fastest orbital velocity, moving at 47.87 km per second.
Mercury
It is the orbit. For example, the Earth is in orbit round the Sun.
Mercury is the fastest revolving planet. The speed of a particular planet depends on its revolution around the sun as well as its rotation on its own axis. The fastest planet of the solar system with reference to revolution is Mercury. On the other hand, the fastest planet with reference to rotation is Jupiter.
No sun doesn't revolve to any celestial body, but the celestial body revolve around the sun.
They are both celestial bodies, both makes part of the solar system, however, the Moon ( assuming you are referring to the Earth's natural satellite) makes revolution around the Earth, and Mars, which is a planet, makes revolution around the Sun.
An orbit and a revolution are roughly the same thing as the Earth orbits or revolves around the sun, and the moon around the Earth. Rotation refers to the spinning of the celestial being. Earth for example, rotates every 24 hours.