Families become little solar systems with the matriarch or the patriarch as the sun while the children and the family and friends orbit the most influential person until that matriarch or patriarch dies off and then everyone eventually dies off.
Families collapse in on themselves because they reproduced themselves out of existence..
You might have little kingdom today but all kingdoms fall eventually
They didn't know when to stop and chill the f*** out
You don't have to be a "star" and end up a white dwarf or sucked in on itself if you learn how to manage the pressure in your body and deal with the pain and suffering and understand physics chemistry biology..
And so the life cycle of a star is like a human because you are Stardust full of radioactivity and infrastructure. And your viability is dependent upon the environment you live in and the cycles of the universe and then you have to adapt to the pressure retention and pressure release and figure out intellectually and intelligently how to survive the world you live in or else you'll supernova and become a little black hole or a black dwarf star emitting hardly any energy like a lump of coal in the stocking
The sun's life cycle has five main stages: nebula, protostar, main sequence, red giant, and white dwarf. Each stage shows the sun's transformation over billions of years.
Main sequence
The sun starts as a star in this phase, formed from dust and gas in a swirling cloud. Nuclear fusion begins when enough pressure builds from the condensed particles.
Red giant
After millions of years, the sun runs out of fuel and expands into a red giant, potentially engulfing Mercury, Venus, and Earth.
White dwarf
The sun sheds its outer layers and becomes a compact, cooling white dwarf star. It no longer produces energy through fusion, but continues to glow and emit heat for trillions of years.
Black dwarf
Eventually, the sun becomes a super dense black dwarf, giving off almost no energy.
Does the red giant actively build up pressure?
No, a red giant star is not actively building pressure in its core; instead, it is experiencing a buildup of pressure in a shell around its core due to the fusion of hydrogen in that shell, which causes the star's outer layers to expand and cool, creating the "red giant" appearance; this expansion is what makes it appear larger and less dense compared to its earlier main sequence stage.
Key points about red giants and pressure:
Core contraction:
When a star enters the red giant phase, its core has largely exhausted its hydrogen fuel, causing it to contract and heat up due to gravitational forces.
Shell fusion:
As the core contracts, a shell of hydrogen around it begins to fuse, releasing energy and generating outward pressure.
Expansion:
This outward pressure from the shell pushes the star's outer layers outward, leading to the large size and low surface temperature characteristic of a red giant.
No, our Sun is not currently a red giant; it is classified as a yellow dwarf star on the main sequence. However, in about 5 billion years, the Sun will evolve into a red giant as it reaches the end of its life cycle and expands significantly in size.
Key points about our Sun and red giants:
Current state: The Sun is a yellow dwarf star.
Future state: In billions of years, the Sun will become a red giant.
Red giant characteristics: When a star like our Sun becomes a red giant, it expands considerably, potentially engulfing nearby planets like Mercury and Venus.
Our sun is classified as a G-type main sequence star, also commonly referred to as a "yellow dwarf" star; meaning it's a medium-sized star that is relatively stable and produces its energy through nuclear fusion of hydrogen into helium.
Key points about our sun:
Type: G2V (G-type, main sequence)
Color: Yellow (appears yellow due to Earth's atmosphere, but is actually white in space)
Life stage: Currently in the main sequence phase
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