What is proxima Centauri?
Proxima Centauri is the star of the red dwarf in the Alpha Centauri Star system that carries the resolution of the nearest star to the sun. The discovery of the nearby star of the star was carried out in 1915 and since then it has been a topic of interest and frequent observation. Some people feel that when space travel evolves to the extent that people can leave the solar system, the Alpha Centauri stellar system would be a logical place to visit and that Proxima Centauri would probably be the first stop, even though it seems unlikely that the star could support life. As a result of their size and relative cold, they are extremely crazy; Proxima Centauri cannot be observed with the naked eye, even if it can be captured on high -performance telescopes. This star is also classified as a flare star, which means that an inspired luminosity is accidentally experiencing.
This star is around 4.2 light from the sun. Other stars in the systemAlpha Centauri are much clearer, which can cause it difficult to observe the proxima Centauri. The device sensitive enough to observe the star and generate data that could be used to find out where it appeared until the beginning of the 20th century, and it was only identified as Flare Star in 1951. The Alpha Centauri system looks like the only point of light to the mere eye, creating the brightest point in the constellation.
Because the red dwarves are much cooler than the sun, they do not give much hope for life. In order for the planet in the orbit around the proxima Centauri to keep life, it would have to be very close to the star, creating a situation in which the tidal locked would be locked. When the planets are tided around the stars, one face of the planet always faces a star and creates a situation where half the planet is always in the dark. In another example of a tidal zamYet has the Earth's month at a time one face towards the ground.
If the proxima Centauri supports planets on a tida -locked orbit, it would be difficult for these planets to evolve because it would have to face extreme temperature on both faces of the planet. Organisms on the planet would also have to deal with a period of sudden and extreme brightness every time the star spread, so life on the planet is most likely.