That depends on the speed of the spaceship. If it were traveling at the speed of light, which is the maximum speed that any object can reach, it would take 640 years to get there.
It would take approximately 642.5 years to travel to Betelgeuse at the speed of light. Betelgeuse is located about 642.5 light-years away from Earth.
Betelgeuse does not actually rotate like a solid body, as it is a supergiant star with an irregular shape due to its strong pulsations. It is estimated that Betelgeuse has a rotation period anywhere from tens to hundreds of years.
exactly 76 weeweesc============================8
Betelgeuse doesn't revolve around the sun. It is a star, even larger than the sun, and much too far away for the sun to have much effect on it.
Since Betelgeuse is a nearby star (compared to the size of the galaxy, that is), you can assume that it takes about the same time as our Solar System to orbit the galaxy - approximately 240 million years.
It would take approximately 642.5 years to travel to Betelgeuse at the speed of light. Betelgeuse is located about 642.5 light-years away from Earth.
If I went to travel in a spaceship, I would take a lot of pictures.
27,251 years.
120000000000000 divided by 75. Answer in hours.
Betelgeuse is approximately 642 light-years away from Earth, and its diameter is about 1,000 times that of our Sun. If we assume a hypothetical spacecraft could travel at the speed of light, it would take about 642 years to reach Betelgeuse. However, if we consider the size of the star itself, circumnavigating it would take significantly longer, depending on the spacecraft's speed. Overall, the journey is currently beyond our technological capabilities and would take many lifetimes to complete.
Three years
Ten seconds.
Betelgeuse does not actually rotate like a solid body, as it is a supergiant star with an irregular shape due to its strong pulsations. It is estimated that Betelgeuse has a rotation period anywhere from tens to hundreds of years.
We don't know where the farthest planet is. But if we assume it's at the edge of the observable universe, then it depends on how fast we go:A spaceship travelling as fast as we can go in 2017 would take 838 trillion years.A spaceship travelling at the speed of light (which is virtually impossible) would take 45 billion years.A star trek Starship travelling at variable warp speeds would take about 45 million years
If you fly in a spaceship about a minute
exactly 76 weeweesc============================8
A spaceship traveling from the moon to Earth at a typical speed of about 2.38 km/s would take approximately 3 days to cover the distance of about 384,400 km. The actual time may vary depending on the specific trajectory and speed of the spaceship.