860 +/- 80 ly.
Rigel is 860 +/- 80 ly away.
Orion [See Link] is a constellation and thus has many stars of different distances from us.The nearest is GJ 3379 at around 17 light years.The brightest is Rigel at around 800 light years.
A telescope can cover distances of thousands or even millions of light-years, depending on its size and capabilities. Telescopes can observe objects in the far reaches of the universe, allowing us to study celestial bodies that are incredibly distant from Earth.
Rigel is a star, not a planet. It is not certain who actually named it. Many cultures have other names for it.
165,000
Rigel is 860 +/- 80 ly away.
"Normal Years" is a measure of time. "Rigel from Earth" is a measure of distance. There is no answer to this question.
Light a Distant Fire has 432 pages.
Mintaka (δ Orionis, 34 Orionis) is a star some 900 light years distant in the constellation Orion.
The famously first-observed black hole in Cygnus known as Cygnus X-1 is about 6,070 light years distant.
It depends on where you are measuring it from. Its distance from the earth varies depending of the relative positions in their orbit, but all planets in our solar system are considerably less than 1 light year distant.
Orion [See Link] is a constellation and thus has many stars of different distances from us.The nearest is GJ 3379 at around 17 light years.The brightest is Rigel at around 800 light years.
At over 772 light years away, it is difficult to say if this Star has any planets, yet alone if there are any moons of those planets. Theres a chance, but we may never know the answer.
Invaders from Rigel has 224 pages.
Because the speed of light is finite (around 186,000 miles per second) and the stars are so distant, it takes a long time for the light to reach the telescope from the stars - at least 4.2 years. Many objects are millions of light years distant, meaning that what we see in the sky is from the distant past.
A telescope can cover distances of thousands or even millions of light-years, depending on its size and capabilities. Telescopes can observe objects in the far reaches of the universe, allowing us to study celestial bodies that are incredibly distant from Earth.
If it has been 13 billion years since fusion reactions first ignited in the sun to produce visible light,then that light has traveled 13 billion light years distant from where the sun was at that time.Whether it's intense enough to be detected at that distance is another question. But that's where thephotons have migrated to.