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Transcript
7.2 GALAXIES
pp. 268 - 275
Our Solar System: A Speck in the
Milky Way

The Milky Way appears to be
curved when we view it but in
reality it is a straight line.
 It
is curved due to the
combination of pictures taken

The dark smudgy line along
the band is dust. This dust
obscures our view into the
centre of the galaxy.
Our Solar System: A Speck in the
Milky Way


Our galaxy is about
100,000 ly in diameter
and about 2000 ly thick at
its widest point, near the
core.
In Perspective:
 The
Solar system is huge
compared to earth.
 It takes light 5 h to reach
Neptune form the sun but
100 000 years to cross the
Milky Way
Properties of Galaxies
All galaxies contain stars, planets, and dust.
 Galaxies with more dust than others tend to
produce more new stars, because stars form from
dust and gases present in nebulae.
 Very ancient galaxies have almost no dust
because it has all been used up in star-making.
 Ancient galaxies are thought to have had larger
stars than exist today, when those stars exploded
the material was pulled back in by gravity and the
cycle repeated.
Star Clusters


Galaxies also contain distinct groupings of stars
known as star clusters.
A concentration of stars in a relatively small
region of space.
Star Clusters
Two Types
 Star clusters occur in two broad types. One is an open
cluster, which contains a few hundred to a few
thousand stars.
 Open
clusters are among the youngest star groups in a
galaxy.
Star Clusters
 Globular
clusters contain hundreds of thousands of stars,
drawn together in a spherical form by the stars’ gravity.
Globular clusters are the oldest star groups in a galaxy.
Galaxy Shapes

Galaxies are commonly classified according to four
main shapes:
 spiral
 barred
spiral
 elliptical
 irregular
Spiral and Barred Spiral Galaxies

Named for their spiral-shaped arms that radiate out
from the galaxy’s centre. Most spiral galaxies have
hundreds to thousands of star clusters. The disk of a
spiral galaxy is not completely flat. Near the core is a
widening called the central bulge. It consists mainly of
very old stars. New stars rarely form here because of
the lack of dust and gases between the stars.
Surrounding the central bulge and most of the disk is the
galactic halo. The halo is also made up of individual
stars.
Spiral Galaxies
Barred spiral galaxies

About half of all spiral galaxies, including the Milky
Way, have what appears to be a bar across them.
A wave moving outward from the central regions of
the galaxy causes the gas and dust to compress into
arm-like bands that rotate around the central hub.
Barred spiral galaxies



New arms continually form as older ones disappear or
change shape.
Gravity keeps the spirals from flying apart
From the side, a spiral galaxy looks like a thin disk. The
disk is difficult to see through because of all the dust and
gases between the stars. New star form in the dusty
regions
Elliptical Galaxies

An ellipsoid is a shape like a flattened sphere. Elliptical
galaxies are those whose shape ranges from almost
spherical to football-shaped or long and cylindrical, like
a pencil. Such galaxies are thought to result when other
galaxies, such as spiral galaxies, merge.
Elliptical Galaxies


The largest galaxies in the universe are elliptical.
Elliptical galaxies contain very little dust. (less young
stars)
Many of the stars in elliptical galaxies are extremely
old.
Irregular Galaxies

Some galaxies are neither spiral nor elliptical. Those
without a regular shape are called irregular galaxies.
The distorted form of an irregular galaxy may result
because the galaxy collided with another one or got
close enough that the gravitational force from the other
galaxy drew stars away.
Galaxy Clusters

If we could get out beyond our own galaxy and look
back at it, we would see that the Milky Way is part of
a group of about 20 galaxies called a galaxy cluster.
Galaxy Clusters


The one containing the Milky Way is known as the Local
Group. More than 2000 billion stars lie inside the
cluster.
The Local Group is part of the Local Cluster of galaxies,
and that in turn is part of the Local Supercluster.
Black Holes

A region of space where gravity is so strong that
nothing, not even light, can escape.
 In
the Milky Way a number of stars can be seen orbiting
around points in space that seem to have nothing in it.
These are thought to be black holes.
 It is thought that there is a super massive black hole at
the centre of the Milky Way.
Black Holes

A Black hole affects its surroundings trough
gravitational pull. Even stars can be pulled in.
 Whatever
mass is sucked in adds to the mass, size
and gravity of the hole.
 Currently the Milky Way’s supermassive black hole
has a mass of 3 million stars the size of the sun.
Dark Matter

Matter in the universe is invisible when it does not
interact with light or any other kind of radiation.
Astronomers believe that only 10% of the matter
in space is visible. The rest is thought to be dark
matter.
 Astronomers believe that dark matter exists
because the movement of galaxies cannot be
explained otherwise.

 There
must be huge gravitational pull in order to keep
galaxies from coming apart.
Dark Matter

By observing how matter in this galaxy cluster
bends light rays, astronomers were able to compute
and map out where they believe the dark matter
(shown by the dark blue ring) is distributed in the
cluster.
Homework


Read pp. 268 – 275
Answer the following questions:
 p.
273 # 1 – 5
 p. 277 # 1, 6, 8, 9, 11