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What is different about the starting nebula of a medium star cycle and a large star cycle?
The starting nebula of a medium star cycle and a large star cycle differs primarily in mass and density. Medium stars, like our Sun, typically form from nebulae that have a lower mass and are less dense, allowing for a more gradual accumulation of material. In contrast, large stars originate from more massive and denser nebulae, which can lead to a faster and more violent formation process. This difference in initial conditions influences their subsequent life cycles and eventual fates.
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What Creates a planetary nebula?
A planetary nebula is created when a low- to medium-mass star reaches the end of its life cycle and sheds its outer layers of gas into space. This process exposes the hot core of the star, which emits ultraviolet radiation that causes the surrounding gas to glow and form a colorful nebula.
What are the steps in the life cycle of a small or medium sized star?
The life cycle of all stars is pretty similar from birth to late in their life - that's when the rest of their life cycle can vary dramatically. Small and medium-sized stars tend to be the longest-lived stars (our Sun is a typical example), and they end their life by expanding, cooling, and then blowing off their outer shell while their nucleus collapses to a "White Dwarf".
What is the difference of a nebula and a supernova?
A nebula contains stars and other matter; a supernova is just a large enough nova, or star that explodes at the end of its life cycle due to spent fuel
Will the sun become a supernoval?
No, the Sun will not become a supernova. It is a medium-sized star and will end its life cycle as a red giant before shedding its outer layers to form a planetary nebula, leaving behind a white dwarf. Supernovae typically occur in much larger stars that can undergo gravitational collapse. Thus, the Sun's fate will be quite different from that of a supernova.
What will betelgeuse be next in its life cycle?
most likely Beteleuse will become a neutron star after the nebula that it will create dies away.
What Creates a planetary nebula?
A planetary nebula is created when a low- to medium-mass star reaches the end of its life cycle and sheds its outer layers of gas into space. This process exposes the hot core of the star, which emits ultraviolet radiation that causes the surrounding gas to glow and form a colorful nebula.
Where do all-stars begin their life cycle?
In the nebula!
What is the first stage in the life cycle of a star?
stellar nebula
How does the life cycle of a star differ between one that is born from a large nebula as opposed to one born in a very large nebula?
None at all/ The life cycle of a star is based on it's initial mass, not where it was formed.
What are the steps in the life cycle of a small or medium sized star?
The life cycle of all stars is pretty similar from birth to late in their life - that's when the rest of their life cycle can vary dramatically. Small and medium-sized stars tend to be the longest-lived stars (our Sun is a typical example), and they end their life by expanding, cooling, and then blowing off their outer shell while their nucleus collapses to a "White Dwarf".
What is the cycle of the stars?
Stellar Nebula - Average Star- Red Giant - Planetary Nebula - White Dwarf Stellar Nebula - Massive Star - Red Super Giant - Super Nova- Neutron Star Stellar Nebula - Massive star - Red Super Giant -Super Nova - Black Hole
What is the difference of a nebula and a supernova?
A nebula contains stars and other matter; a supernova is just a large enough nova, or star that explodes at the end of its life cycle due to spent fuel
Will the sun become a supernoval?
No, the Sun will not become a supernova. It is a medium-sized star and will end its life cycle as a red giant before shedding its outer layers to form a planetary nebula, leaving behind a white dwarf. Supernovae typically occur in much larger stars that can undergo gravitational collapse. Thus, the Sun's fate will be quite different from that of a supernova.
What can the scientist infer about the relationship of the nebula and the pulsars life cycle?
Nebulas are interstellar clouds made of dust and gases and a pulsar is a kind of star. A pulsar is formed inside of a nebula, therefore a scientist could conclude that without a nebula a pulsar could not exist.
What do scientists call the gas around a star at the end of its life cycle that will change into a new star?
The gas surrounding a star at the end of its life cycle is called a "nebula." This nebula is composed of gas and dust that can eventually condense under gravity to form new stars. The process of star formation from a nebula involves the collapse of these materials, leading to the birth of new stars and planetary systems.
The astronomers think that our sun is old or young?
middle aged, in the center of its 10 billion year life cycle, as with ashes to ashes, dust to dust, nebula to nebula, musted gases to musted gases.
Whats the life cycle of the stars?
A star's life cycle starts from a nebula. For giant stars, the star turns into a huge star to a super red giant to a supernova to a black hole. A sun-like star turns to a red giant, then a planetary nebula, a white dwarf, and then a black dwarf.
