Astro 1050 Wed., Nov. 19, 2003

Today: Extra Credit Articles

Homework 9 questions

Review Ch. 10-13

Chapter 10: The Deaths of Stars

-- Evolution off the main sequence (=> giant)

Degenerate Matter

Planetary Nebulae and White Dwarfs

Binary Star Evolution (Disks, Novae, etc.)

Massive Star Evolution and Supernovae

Q. Massive stars cannot generate energy through iron fusion because:

c iron fusion requires very high densities.

c stars contain very little iron.

c no star can get high enough for iron fusion.

c iron is the most tightly bound of all nuclei.

c massive stars go supernova before they create an iron core

Chapter 11: Neutron Stars & Black Holes

Neutron Stars

Pulsars (Radio pulsation, lighthouse model)

Properties (size, density, composition)

Black holes

Schwarzschild Radius

Properties

Detection (Gravity, X-rays from Disks)

Review Chapter 12: Milky Way

The discovery of the Galaxy

Variable stars as distance indicators

Globular clusters

The size and overall structure of the Galaxy

21 cm Hydrogen emission

Motions in the galaxy

The Halo

The Disk population

Spiral Arms

The Nuclear Bulge

The Rotation curve and the Galaxy’s mass

The origin of the galaxy

The Galactic Center

Chapter 13: Galaxies

Family of Galaxies

Classification

Properties of Galaxies

Distance; The Hubble Law

Size and Luminosity

Mass (including Dark Matter)

Evolution of Galaxies

Clusters

Mergers

Exam #3 on Fri., Nov. 21

20 multiple choice (3 pts each), 10 true/false (2 pts each), 1 or 2 essay (20 pts total).

Essay question(s) drawn from these topics:

The Milky Way galaxy

The Hubble Law

Falling into a Black Hole

Exam #3 on Fri., Nov. 21

Sample questions.

True/False:

The Milky Way galaxy is a small galaxy of the Local Group.

Neutron stars can be found in supernova remnants.

The Magellanic Clouds are irregular galaxies.

The more luminous a Cepheid variable star, the shorter its period.

Elliptical galaxies evolve into spiral galaxies.

Exam #3 on Fri., Nov. 21

Sample questions: Multiple choice:

Which sequence below gives objects in order of decreasing size?

A. Red Giant -> the Sun -> the moon -> white dwarf

B. The Sun -> the Earth -> neutron star -> 3 solar mass black hole

C. Red Dwarf -> white dwarf -> the Sun -> neutron star

D. Red Giant -> white dwarf -> red dwarf -> neutron star

The center of our galaxy lies in the direction of the constellation of

A. Ursa Minor.

B. Ursa Major.

C. Sagittarius.

D. Orion.

E. Andromeda.


	Today: Extra Credit Articles
	Homework 9 questions
	Review Ch. 10-13


		-- Evolution off the main sequence (=> giant)
		Degenerate Matter
		Planetary Nebulae and White Dwarfs
		Binary Star Evolution (Disks, Novae, etc.)
		Massive Star Evolution and Supernovae

	Q. Massive stars cannot generate energy through iron fusion because:
	c iron fusion requires very high densities.
	c stars contain very little iron.
	c no star can get high enough for iron fusion.
	c iron is the most tightly bound of all nuclei.
	c massive stars go supernova before they create an iron core


	Neutron Stars
		Pulsars (Radio pulsation, lighthouse model)
		Properties (size, density, composition)

	Black holes
		Schwarzschild Radius
		Properties
		Detection (Gravity, X-rays from Disks)


The discovery of the Galaxy
	Variable stars as distance indicators
	Globular clusters
The size and overall structure of the Galaxy
21 cm Hydrogen emission
Motions in the galaxy
	The Halo
	The Disk population
		Spiral Arms
	The Nuclear Bulge
	The Rotation curve and the Galaxy’s mass
The origin of the galaxy
The Galactic Center


	Family of Galaxies
		Classification
	Properties of Galaxies
		Distance; The Hubble Law
		Size and Luminosity
		Mass (including Dark Matter)
	Evolution of Galaxies
		Clusters
		Mergers


	20 multiple choice (3 pts each), 10 true/false (2 pts each), 1 or 2 essay (20 pts total).
	Essay question(s) drawn from these topics:
		The Milky Way galaxy
		The Hubble Law
		Falling into a Black Hole


	Sample questions.
	True/False:
		The Milky Way galaxy is a small galaxy of the Local Group.
		Neutron stars can be found in supernova remnants.
		The Magellanic Clouds are irregular galaxies.
		The more luminous a Cepheid variable star, the shorter its period.
		Elliptical galaxies evolve into spiral galaxies.


Sample questions: Multiple choice:
	Which sequence below gives objects in order of decreasing size?
		A. Red Giant -> the Sun -> the moon -> white dwarf
		B. The Sun -> the Earth -> neutron star -> 3 solar mass black hole
		C. Red Dwarf -> white dwarf -> the Sun -> neutron star
		D. Red Giant -> white dwarf -> red dwarf -> neutron star

	The center of our galaxy lies in the direction of the constellation of
		A. Ursa Minor.
		B. Ursa Major.
		C. Sagittarius.
		D. Orion.
		E. Andromeda.