Chapter 25: Beyond our Solar System · •Our galaxy looks “milky” because our solar system is...
Transcript of Chapter 25: Beyond our Solar System · •Our galaxy looks “milky” because our solar system is...
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Chapter 25:
Beyond our Solar System
25.3 The Universe
pp 715-721
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The Milky Way
Galaxy
• On a clear and
moonless night,
away from city
lights, you might
see a a band of
light in the sky.
This band is The
Milky Way Galaxy.
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• A galaxy is a group of stars, dust and
gases held together by gravity.
• There may be more than 100 billion stars
in the Milky Way alone.
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• Our galaxy looks
“milky” because
our solar system is
located within a flat
disk – the galactic
disk.
• We view it from the
inside and see stars
in every direction.
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• Scientists have
found out that
our solar system
is located
towards the edge
of our galaxy,
which is shaped
like a huge spiral.
• We are on one of
the spiral’s
“arms.”
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Size of the Milky Way
• The Milky Way is….
–A large spiral galaxy,
–Whose disk is about 100,000 light
years wide,
–And about 10,000 light years thick at
the nucleus.
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More facts…
• Our solar system is about 30,000 light
years from the galactic nucleus.
• It takes our solar system about 200
million years to orbit this nucleus.
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Types of Galaxies
• The universe contains hundreds
of billions of galaxies.
• Each galaxy can contain
hundreds of billions of stars.
• (They also contain nebulae &
protostars.)
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• Irregular galaxies are composed mostly of young stars, often with many cosmic dust clouds.
• Irregular galaxies have relatively weak gravitational pulls, and because of this they have irregular shapes (AKA shapelessness).
• Only 10% of all galaxies are irregular.
Irregular Galaxies
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Spiral Galaxies
• Shaped as a disk, with arms sweeping away from the center.
• Tend to be quite large.
• Have both young and old stars.
• Youngest stars in arms, oldest at center.
• About 20% of all galaxies are spirals.
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Barred Spirals
• A type of spiral galaxy which has its
stars arranged in the shape of a bar
“across” its disk.
• The Milky Way may be a barred spiral
galaxy.
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Elliptical Galaxies
• Contains the oldest stars, and almost
no nebulae.
• Most – but not all! - are small.
• Definite shape - round-to-oval.
• No spiral arms.
• About 60% of all galaxies are elliptical.
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Galaxy Clusters
• Just like stars, galaxies are grouped in clusters.
• Some clusters may contain thousandsof galaxies.
• Our own cluster, The Local Group, contains at least 28 galaxies.
• Galaxy clusters also make up huge groups called superclusters.
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Virgo Galaxy Cluster
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Sagittarius Galaxy Cluster
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Hubble: Cluster Abell 2667
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The Expanding Universe
Have you ever
noticed how a fire
truck siren gets
higher as the truck
races towards you,
then lower as it
races away?
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• This effect is called “The Doppler Shift,”which was first observed and named by Johann Doppler in the 19th century.
• We can see the Doppler Shift in any wave phenomena.
Doppler Shift
Johann Christian Doppler1803-1853
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If a fire engine is stationary and turns its siren on, no matter
where a person stood, the pitch (also known as frequency) of
the siren sound would sound the same.
This is because
the sound
waves carrying
the sound are
traveling at the
same speed, no
matter which
direction they
travel in.
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HOWEVER, when the fire truck starts to move, it starts to
“catch up” to the siren’s sound waves. The waves start to
bunch up as they reach an observer’s ear drum, and he hears
the siren’s pitch get higher.
As the truck
passes the
observer, the
sound waves
stretch out behind
it, and the
observer hears
the siren’s pitch
get lower.
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The Doppler Shift works for light waves, too. As an
object – such as a star or galaxy – travels TOWARDS
us, we see its light appear more BLUE than it really
is, since the light waves become SHORTER as they
reach earth and “bunch up.”.
This is called “Blueshift”
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If a star is moving AWAY from us, its light will appear
more RED than it really is, as its light waves are being
STRETCHED OUT behind it as it moves away.
This is called “Redshift.”
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Hubble’s Law
• Edwin Hubble, by
using the Doppler
Shift, discovered in
1929 that most
galaxies are moving
away from us. In
fact, the galaxies
with the greatest
redshift are the ones
farthest from us.
This is called “Hubble’s Law.”
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• Hubble’s Law states that galaxies are
retreating from each other at a speed
that is proportional to their distance.
• This means that galaxies that were
farther apart at their beginning travel a
greater distance than those originally
located closer together during the
same amount of time.
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The Big Bang:
how did the universe begin?
• At one time, the entire universe was confined to a dense, hot, supermassiveball.
• This ball contained all matter, energy, space and time of our universe.
• This ball was incredibly small and incredibly dense.
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• About 13.7 billion years ago, an
explosion occurred, and all of this
material began expanding in all
directions.
• All matter, energy and space began at
that moment.
• Time also began at that moment.
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Big Bang Starts Here…
First stars and galaxies
form about 200 million
years after big bang…
Stars and galaxies
continue to
expand and move
farther apart.
If the universe continues to expand, what can you
infer about its average density through time?
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Supporting Evidence…
• First of all, we are reasonably certain that the universe had a beginning.
• Second, galaxies appear to be moving awayfrom us at speeds proportional to their distance. This is called "Hubble's Law."
•This observation supports the expansion of the universe and suggests that the universe was once compacted.
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• Third, if the universe was initially very, very hot as the Big Bang suggests, we should be able to find some remnant of this heat.
• In 1965, Radioastronomers Arno Penzias and Robert Wilson discovered Cosmic Microwave Background radiation (CMB) which pervades the observable universe. This is thought to be the remnant which scientists were looking for.
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A “heat photo” of Cosmic Microwave Background temperature
fluctuations over five years as seen over the full sky.
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• Finally, the abundance of the "light
elements" Hydrogen and Helium found
in the observable universe are thought
to support the Big Bang model of
origins.
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Dark Matter• DARK MATTER is matter that cannot be
directly observed because it does not react to any light waves.
• It can exist in the same place as regular matter, and has gravitational pull on it.
• Regular matter, however, does NOThave gravitational pull on dark matter.
• Dark matter might make up 90% of the universe’s matter.
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This telescope camera used regular, optical light to
photograph this section of space.
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When a camera using x-ray
waves was used, this
strange, bullet-shaped
nebulae was discovered.
Why this shape?
Was something that
scientists couldn’t
see “pulling” on it?
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When a camera that
photographs gravity
was used, these
strange blue shapes
became viewable.
These two clouds of “dark matter”
had collided with the nebula and
was pulling it in two as through
traveled through!