No one really knows, because no one has ever been to Betelgeuse. It would take much more time than getting to Pluto.
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.
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.
Traveling to Betelgeuse, which is approximately 642.5 light-years away from Earth, would take a significant amount of time, likely hundreds of thousands of years with current spacecraft technology. The distance is so vast that we don't have the capability to travel there at speeds that would make the voyage feasible in a human timescale.
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.
Approximately 400 million suns would fit into Betelgeuse, one of the largest known stars in our galaxy. It has a radius about 700 times that of the Sun.
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.
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.
The light takes about 640 years to reach Earth, as Betelgeuse (a red supergiant star) is about 640 light years from Earth.
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.
Traveling to Betelgeuse, which is approximately 642.5 light-years away from Earth, would take a significant amount of time, likely hundreds of thousands of years with current spacecraft technology. The distance is so vast that we don't have the capability to travel there at speeds that would make the voyage feasible in a human timescale.
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.
First of all, Betelgeuse is 640 light-years away from Earth. So, even if a rover is sent to this star at the speed of light, it would take 640 years for it to get there. Second of all, once it reaches there, we would have to control the rover with radio signals. The signals would have to be extremely strong, and would take 640 years to get to the star. This is impossible and impractical. Third of all, Betelgeuse is a huge hot star. If a rover gets anywhere closer than a few million miles to that star, it would completely melt/vaporize. Fourth, as supergiant star, Betelgeuse has no solid surface; only tenuous gasses. So, no, a rover cannot be sent/land on the star Betelgeuse.
Betelgeuse is a red supergiant star located approximately 642 light-years away from Earth and has an estimated radius about 1,000 times that of the Sun. If we consider flying at a hypothetical speed of 500 miles per hour (the speed of a commercial jet), it would take over 1.2 million years just to reach Betelgeuse, and since the star is not a solid body to fly around, the concept of flying nonstop around it isn't applicable. In essence, it's far beyond human travel capabilities.
Betelgeuse is about 600 light years from us. A light year is about 5,878,630,000,000 miles. So to travel there and back would be a journey of about 7,054,356,000,000,000 miles. Nothing can go faster than light and we cannot come anywhere close to going as fast as light. At the speed of light a round trip would be 1200 years. Even if we went at 25,000 miles per hour it would take us over 32 million years to get there and back.
Approximately 400 million suns would fit into Betelgeuse, one of the largest known stars in our galaxy. It has a radius about 700 times that of the Sun.
Betelgeuse, a red supergiant star, is so large that if it were placed at the center of our solar system, its surface would extend beyond the orbit of Jupiter. However, as a gaseous object, Betelgeuse does not have a distinct volume like a solid object would.
Betelgeuse is a red supergiant star about 640 light-years from Earth. So light from Betelgeuse takes 640 years to get here. Here's an interesting fact; the star Betelgeuse is probably near the end of its life, and may explode in a supernova explosion any time. Very massive stars like Betelgeuse live fast and die in under 100 million years, and Betelgeuse will probably go supernova within the next 10,000 years. This is like no time at all in cosmic terms, but in terms of a HUMAN lifetime, it probably will NOT happen while we're alive to see it. But it could. In fact, Betelgeuse might have exploded 500 years ago, and we wouldn't know it for another 140 years!