Rigel is a blue supergiant that is the brightest star in the constellation Orion (the Hunter). Rigel will end its life as a type II supernova. Then it moves into the main sequence, when Rigel is in the main sequence it is a blue super giant. With an estimated age of 7 to 9 million years, Rigel has exhausted its core hydrogen fuel, expanded and cooled to become a supergiant. As larvae, Rigel had rather simplistic bodies, lacking working legs with the only two limbs being largely useless. Rigel chiliensis is about 3.5 mm long with an ovipositor about 6 mm long and is mostly black in color. Stellar Life Cycle. Rigel: Rigel is one of the largest and most powerful stars close enough to be seen in the night sky. One of the Biggest Explosions Known Diagram showing the life cycle of a star Rigel differs from Megalyridea by lacking a distinct carina along the upper margin of the subantennal groove, by lacking a row of foveae along the genal orbit of the compound eye, and by having entirely clear wings. Follow a star's life cycle and learn how a star changes from a red giant to a supernova to a black hole or neutron star. Countstar Rigel S6 enables users to get the result of a cell cycle quickly and accurately. There are many steps in stellar evolution. Surface Maker Analysis A lymphocyte subsets analysis is a typical experiment performed in cell related research fields and various diseases diagnosis. Death of Rigel . An organism known as the Rigel Domain was the mother of the species. Counstar Rigel S6 can analyze proportion of cell in different phase of the cell cycle. Question: Why is Rigel blue? What is the life cycle of the star rigel? Rigel, the larvae, then grew up to the adult Cebalrai. Due to its measured size and brightness it is expected to end in a supernova one day. Rigel's mass-loss due to its stellar wind is estimated to be 10 million times more than that of the Sun. Its starts at a protostar. When a star dies it goes though what is called stellar evolution. Rigel were part a complex life cycle. Note - As of May 2016, a second method to observe The Universe was discovered. Stellar Temperature As was seen in previous units, distances within Space are so huge that actually going to a Star and observing it in location is impossible. We need you to answer this question! Close up picture of Rigel. Our knowledge of The Universe is entirely based observations of emitted Electro-Magnetic Radiation.