Title: Good Afternoon!
1Good Afternoon!
- Please get your eInstruction remote and notebook.
2- The sun is a medium sized star. The sun is about
75 Hydrogen and 25 Helium. Where is the sun
located on the H-R Diagram? - White Dwarfs
- Main Sequence
- Supergiants
- Red Giants
3Lives of Stars
- 8th Grade Science
- http//hubblesite.org/gallery/tours/
4Left Column Questions
- How do scientists classify stars?
- What determines a stars lifetime?
- List the phases of the life cycle of a Sun-like
star. - List the phases of the life cycle of a Supergiant
star.
5How do scientists classify stars?
- Size and mass
- neutron stars, dwarfs, main sequence, red
giants, supergiants - Temperature and color
- star color is related to its surface temperature
- Brightness and luminosity
- star luminosity depends on brightness and
distance from Earth
6Lifetimes of Stars
- A stars life depends on its mass
- Stars smaller than the sun live up to 200 billion
years. - Medium sized stars like the sun live around 10
billion years. - Stars 15 times more massive
- than the sun live about 10 million years.
7Life cycle of a Sun-like star
- nebula
- protostar
- main sequence
- red giant
- planetary nebula
- white dwarf
8Lives of Stars
- Stars begin as gas and dust called a nebula.
- Helix Nebula Crab Nebula
-
- http//hubblesite.org/gallery/tours/tour-helix/
- http//hubblesite.org/gallery/tours/tour-carina/
9Protostar
- Gravity pulls the gas and dust in and nuclear
fusion begins. This forms a Protostar or new
star.
10Main Sequence Star
- Once nuclear fusion begins, a star is in the main
sequence stage of its life cycle. - This is the longest and most stable part of a
stars life.
11Small and Medium Stars
- These become giants and then
- Planetary Nebula a shell of gas is ejected from
the core of the star. - White Dwarfs blue-white core of a star that is
left behind. - These have no fuel, but glow faintly from left
over energy. - When a white dwarf burns out, it is dead. Then
it is a Black Dwarf.
12Planetary Nebula
http//www.nasa.gov/mission_pages/hubble/science/n
gc5189.html
Planetary nebulae represent the final brief stage
in the life of a medium-sized star like our sun.
While consuming the last of the fuel in its core,
the dying star expels a large portion of its
outer envelope. This material then becomes heated
by the radiation from the stellar remnant and
radiates, producing glowing clouds of gas that
can show complex structures, as the ejection of
mass from the star is uneven in both time and
direction.
Explore a planetary nebula http//hubblesite.org/
gallery/tours/tour-catseye/
13WHITE DWARF The White Dwarfs are circled in the
Hubble Space Telescope image below.
14Star Life Cycle
- http//science.nasa.gov/astrophysics/focus-areas/h
ow-do-stars-form-and-evolve/ - A star can take 2 paths, depending on its size
or mass.
Main Sequence
Small/Medium Size Star
Giant and Supergiant Stars
15The life of Large Stars
- Nebula
- Protostar
- Main Sequence
- Super Giant The star begins to run out of fuel.
The star cools and expands. - Supernova Massive stars can blow up to an
enormous size. - Neutron Star/Pulsar or Black Hole
16Super Nova The explosion of a dying giant or
supergiant star Keplers Supernova Remnant
http//hubblesite.org/gallery/album/query/supernov
a/
17Super Giants
- When a Super Giant explodes into a supernova, it
can become 2 things - 1. Neutron Star Smaller and more dense than a
white dwarf. They have 3 times as much mass as
the sun, but are about the size of Houston! - 2. Black Hole This object is so dense, not even
light can escape the gravity field.
http//imagine.gsfc.nasa.gov/docs/science/know_l2/
black_holes.html
18Pulsar
- A neutron star that produces radio waves.
- Pulsars appear to pulse because they rotate!
http//imagine.gsfc.nasa.gov/docs/science/know_l2/
pulsars.html
19Small/Medium Size Stars
Giant and Supergiant Stars
Can blow up into Supernovas.
Become red giants and then a planetary nebula.
The remains of a supernova become a neutron star
or a black hole.
When a white dwarf runs out of energy, it turns
into a black dwarf.
20The life cycle of a low mass star (left oval) and
a high mass star (right oval).
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25Binary Star Systems
- A star system with two stars.
- Stars that revolve around each other.
- Sometimes this causes stars to appear as if they
- are blinking
26Lets Review!
- 1. All stars begin as gas and dust and is called
a - a. Protostar
- b. Nebula
- c. White dwarf
- d. Supernova
27- 2. Most stars are in this stage
- a. Protostar
- b. White Dwarf
- c. Main Sequence
- d. Neutron Star
28- 3. The life of a star depends on its
- a. Color
- b. Place in the universe
- c. Mass
- d. Temperature
29- 4. If the star is super massive, it will live
longer. - a. True
- b. False
30- 5. Low mass stars will become black holes
- a. True
- b. False
31- 6. An object so dense, not even light can escape.
- a. Supernova
- b. Main Sequence
- c. Black Hole
- d. Nebula
32- 7. A new star where fusion begins.
- a. Protostar
- b. Neutron Star
- c. Main Sequence
- d. Black Hole
33- 8. The most common chemical element in a star is
- A. Helium
- B. Hydrogen
- C. Carbon
- D. Sodium
34- 9. The sun formed out of a
- A. Pulsar
- B. Supergiant star
- C. White Dwarf
- D. Nebula
3510. Compared to Rigel, Alpha Centauri B is
- Cooler and brighter
- Cooler and dimmer
- Hotter and brighter
- Hotter and dimmer