1. The Life Cycle Of Stars

2. Small & Medium Mass Stars
Planetary Nebula
Red Giant
Small Star
White Dwarf
Neutron Star
Protostar
Interstellar Cloud
Black Hole
High Mass Stars
Large Star
Supernova
Red Super Giant

3. Life Cycle of Small & Medium Mass Stars
Planetary Nebula
Red Giant
Small Star
White Dwarf
Protostar
Interstellar Cloud

5. Interstellar Cloud
An interstellar cloud is an area of space that accumulated a lot of dust and gas
They are stellar nurseries, a place where new stars are born.
Video:
Stars being born in the
Great Orion Nebula
A nebula is a type of interstellar cloud

6. Protostar Formation
The cloud of gas & dust begins to clump together due to gravity, and gives off light due to internal heating. This clump is called a Protostar.
Video: Protostar Formation

7. Star Formation
The gas and dust in a Protostar keeps clumping together due to gravity until its tight enough to undergo nuclear fusion & forms a star.
Video: The fusion of hydrogen into helium in Stars

8. 10 to 1,000 times the size of our Sun
Red Giant Formation
Eventually, the star runs out of hydrogen and begins to fuse helium; creating a surge in energy which causes the star to grow into a
Red Giant.
10 to 1,000 times the size of our Sun
Video: Sunrise in 7 Billion Years

9. Planetary Nebula

10. Planetary Nebula: The Death of a Star
When the star runs out of helium, it gives out a large burst of energy and pushes its atmosphere into space, creating a
Planetary Nebula.
Videos:
1. Planetary Nebula
2. Zoom into Planetary Nebula NGC 5189

11. White Dwarf: The Dead Star’s Remains
1,000,000 times smaller than our Sun.
When the atmosphere was pushed into space, the core remained behind, creating a White Dwarf.
But with almost the same mass.
Video:
How does this whole thing Happen?
White Dwarf

12. Life Cycle of Massive Stars
Neutron Star
Protostar
Interstellar Cloud
Black Hole
Large Star
Supernova
Red Super Giant

13. Large Star Formation Big or small, all stars form the same way:
Gas and dust collapses due to gravity.
A large star forms when a lot more gas and dust collapses.

14. Red Supergiant Formation
Just like a small star, a large star will run out of hydrogen, but if the star is at least 10 times as massive as our Sun, it will become a
Red Supergiant.
Video:
The Red Supergiant Betelgeuse vs. the Solar System
200 to 1,500 times the size of our Sun

15. Supernova

16. Supernova: The Death of a Red Supergiant
Unlike a small star, when a large star runs out of helium, it will fuse other elements. When they run out, gravity will collapse the star so quickly, it will create a massive explosion called a Supernova.
Videos:
What is a Supernova?
What will Betelgeuse Supernova look like from Earth?

17. Neutron Star: Death of Massive Stars
The inner core of a supernova can collapse, squeezing electrons and protons together into an entire star made out neutrons.
Neutrons
Protons
Videos:
What are neutron stars?
Neutron Star vs. Manhattan
Electrons

18. Black Holes: Death of Super-massive Stars
If a super-massive star goes supernova, all of its material will collapse back in on itself into a smaller sphere than it was before and create a Black Hole.
A black hole is invisible because nothing, not even light can escape.
Videos:
How black holes work
Neutron Stars vs. Black Holes

19. Small & Medium Mass Stars
Planetary Nebula
Red Giant
Small Star
White Dwarf
Neutron Star
Protostar
Interstellar Cloud
Black Hole
High Mass Stars
Large Star
Supernova
Red Super Giant