Because it fits the scientific definition of a star:
"A Star, is large celestial body composed of gravitationally contained hot gases emitting electromagnetic radiation, especially light, as a result of nuclear reactions inside the star.
The sun is a star. With the sole exception of the sun, the stars appear to be fixed, maintaining the same pattern in the skies year after year."
I don't know how you can tell without a telescope because they all look the same.
there is no evidence but siencetist say that the sun have hot burning gases like all other star .
The Heliocentric Theory has been proven by astronomers. By looking at and analyzing cycles and celestial objects, we have proven the Sun is the center of the Solar System.
Since a planet's light is reflected it appears to be steady (non twinkling). Star light twinkles.
The north star is a star, not a planet. It is called Polaris. The planet Venus is called the Evening Star
No - a star is a star and a planet is a planet. See related questions.
Its a planet!!
Filament > galaxy > star > planet
In Star Wars,yes.
These answers are **** they dont work
Since a planet's light is reflected it appears to be steady (non twinkling). Star light twinkles.
It is much larger, brighter and more colourful.
A planet is in direct orbit around a central star, while a moon is in orbit around a large body (a planet) rather than in a direct orbit around a star. The moon orbits the planet, while the planet orbits the sun.
We can usually distinguish them. If it's twinkling then its a star. If it's not twinkling then it's a planet, unless it's a star that's very high in the sky.
what is her password now no one ones do you? plz tell me im Brittany star!!
i will tell you if you let me know it too.
i dont know could u tell me
yes they can but it may be already used if you wanting to read it of a internet so that you dont have to purchase from the movie star planet site.
a star is a dying planet and a planet is a living star
There are two ways you can tell if a star may have a planet around it. One way is that the star would have a slight wobble in its motion across our sky. This is caused by the planet's gravitational pull on the star which would cause a slight movement or shift in its alignment. More easily detectable by modern telescopes would be a periodic reduction in the level of light coming from the star. The key is the period in which the light reduction occurs, which would offer a clue as to the period of the orbit of the planet around the star as it blocks light during its orbit.