1.                                                                                 
STARS

2. DISTANCES IN THE SOLAR SYSTEM
Our Sun is the closest star to us.
Distances in the solar system are so big that we use a large unit of measurement.
A LIGHT YEAR is the distance light travels in one year.

3. WHAT IS A LIGHT YEAR? Consider the following: Distance = speed x time
Light travels km every second.
There are seconds in a year
Distance = speed x time
Therefore, if we multiply the numbers together, we get 10 trillion km, or km!

4. LIGHT YEARS, CONT’D
The closest star to us, Alpha Centauri A , is 4.3 light years away.
This is equivalent to km away from us!

5. WHAT IS A STAR?
STAR: A collection of matter that emits huge amounts of energy.
STARS are classified based on four characteristics:
Colour
Temperature
Size
Brightness

6. COLOUR & TEMPERATURE COLOUR Temperature Range (C)
Blue (ex. Zeta Orionis) –
Bluish-White (ex. Rigel) –
White (ex. Sirius)
7500 –
Yellowish-white (ex. Polaris)
6000 – 7500
Yellow (ex. Sun)
5000 – 6000
Orange (ex. Arcturus)
3500 – 5000
Red (ex. Betelgeuse)
Stars glow because they are very hot.
The colour that an object glows tells us how hot it is.
Cool stars glow red; very hot stars glow blue.

7. SIZE OF STARS GIANTS AND DWARFS
When a star begins to reach “old age” the pressure inside runs out as all the hydrogen runs out.
As the star gets older, it swells in size.
Our Sun will become a Red Giant as it runs out of fuel.
When it “dies” it will become a white dwarf.
Our Sun is bigger than 95% of the stars in the Universe.
The Size Of Our World

9. OTHER ASTRONOMICAL STUFF…
SUPERNOVA
An enormous explosion when a large star dies.
When all the hydrogen is used up the core collapses
The absence of pressure causes a neutron star or a black hole.
The explosion can be bright enough to see during the day!

11. OTHER ASTRONOMICAL STUFF…
NEUTRON STAR
These stars are ten times bigger than our Sun.
It become a dense core of neutrons.
A PULSAR is a type of neutron star.

12. OTHER ASTRONOMICAL STUFF…
BLACK HOLE
These are stars thirty times bigger than our Sun.
Small, very dense object with an extremely strong gravitational pull.
Nothing can escape from it; not even light.

14. OUR SUN
The Sun’s energy comes from NUCLEAR FUSION, a reaction that takes place under high temperature and pressure.
Nuclear Fusion

15. OUR SUN The Sun has multiple layers:
Core: Nuclear fusion takes place here, and temperatures can reach 15 million °C.
Photosphere: The surface of the Sun, made up of moving gases; average temperature of 5500 °C. Sunspots occur here.

16. OUR SUN Chromosphere: the inner atmosphere of the Sun
Corona: The hot outer layer of the Sun; temperatures reach 1 million °C.

17. OUR SUN Other features of the Sun:
Solar Prominence: an explosion of glowing gases from the chromosphere that can last for weeks and reach 40,000 km high.
Solar Flare: Like a solar prominence, but the gases travel into the corona, and last only a few minutes.

19. GALAXIES & STAR CLUSTERS
Galaxy: a collection of gas, dust, and hundreds of billions of stars.
Our Sun is located in the less-populated spiral arm of the Milky Way.

20. GALAXIES & STAR CLUSTERS
There are approximately 400 billion stars in our galaxy.
The majority of the stars are located in the central bulge.

21. Unusual Galaxies
Quasars: Astronomical objects that look like very faint stars, but emit hundreds of times more energy than entire galaxies.
Scientists do not know the reason for the intense light output.

22. STAR CLUSTERS
Star Clusters: groups of stars that are close together and travel as a group (as few as 10 or as many as 1 million).
Ex. Pleiades