Presentation is loading. Please wait.

Presentation is loading. Please wait.

Vicki Murillo Amherst Education Center Earth Science March 2010.

Published byScott Thornton Modified over 8 years ago

Similar presentations

Presentation on theme: "Vicki Murillo Amherst Education Center Earth Science March 2010."— Presentation transcript:

1 Vicki Murillo Amherst Education Center Earth Science March 2010

2  After this lesson, you will be able to:  List the sequence of stages in the evolution of both low mass and high mass stars  Describe how the gas composition of a star changes as it evolves  Track the position of a star on a H-R diagram as it evolves

3 Eagle NebulaOrion Nebula Image credit: http://hubblesite.org

4  Nebula: a large cloud of gas and dust where stars form  A nebula contracts due to the force of gravity exerted by the particles of gas and dust.  As the particles condense and move closer together, temperature increases.  Fusion begins at 10 million degrees K (~ 18 million °F).  Energy radiates into space.

5  Four hydrogen (H) nuclei combine to create one helium (He) nucleus, releasing huge amounts of energy Image credit: http://nobelprize.org

6  The life cycle of a star depends on its mass.  Low mass stars spend much more time in the main sequence stage and eventually end up as white dwarfs.  High mass stars evolve more quickly and violently. They end up as neutron stars or black holes.

7 Image credit: http://essayweb.net/astronomy

8 Image credits: http://hubblesite.org, http://chandra.harvard.edu, www.windows.ucar.edu Main sequence star (Proxima Centauri) White Dwarf (Sirius B) Increasing time Nebula (Eskimo) Red Giant (Arcturus)

9 Image credit: http://www.theresilientearth.com, http://chandra.harvard.edu

10 Image credits: http://hubblesite.org, http://antwrp.gsfc.nasa.gov, www.windows.ucar.edu Supergiant (Betelgeuse) Main sequence star (Regulus compared to Sun) Supernova (M1) Neutron Star Black Hole (NGC 1097) Nebula (Cone)

11 Image credit: http://astronomyonline.org

12  Supernova: the explosion of the outer portion of a supergiant.  Neutron star: a supernova becomes a neutron star if its mass is between 1.4 and 3 times that of the Sun. Neutron stars are so dense that a teaspoonful would weigh more than 600 million tons in Earth’s gravity.  Black hole: If a supernova’s core is more than 3 times the Sun’s mass, it becomes a black hole. Its gravity is so strong that nothing can escape from it, not even light.

13  As supernovas explode, they release clouds of gas and dust. This material is recycled and is used to form new stars.  Crab Nebula:  A supernova remnant  Observers in China and Japan recorded the supernova nearly 1,000 years ago, in 1054. Image credit: http://hubblesite.org

14  Are you able to:  List the sequence of stages in the evolution of both low mass and high mass stars?  Describe how the gas composition of a star changes as it evolves?  Track the position of a star on a H-R diagram as it evolves? Let’s give it a try!

15 Image credits: http://hubblesite.org, http://chandra.harvard.edu, www.windows.ucar.edu Main sequence star (Proxima Centauri) White Dwarf (Sirius B) Increasing time Nebula (Eskimo) Red Giant (Arcturus)

16 Image credits: http://hubblesite.org, http://antwrp.gsfc.nasa.gov, www.windows.ucar.edu Supergiant (Betelgeuse) Main sequence star (Regulus compared to Sun) Supernova (M1) Neutron Star Black Hole (NGC 1097) Nebula (Cone)

17 Image credits: http://www.suntrek.org What will happen to these percentages in the future? Why?

18 Image credit: http://lcogt.net/en/book/h-r-diagram Which stars are the youngest? Oldest? Which started as high mass stars? Where is our Sun and what will happen to it?

Download ppt "Vicki Murillo Amherst Education Center Earth Science March 2010."

Similar presentations

Life Cycle of a Star!.

Life Cycle of a Star!.
Stellar Evolution Astrophysics Lesson 12. Learning Objectives To know:-  How stars form from clouds of dust and gas.  How main sequence stars evolve.

Stellar Evolution Astrophysics Lesson 12. Learning Objectives To know:-  How stars form from clouds of dust and gas.  How main sequence stars evolve.
Stars The life and death of stars in our universe.

Stars The life and death of stars in our universe.
THE LIFE CYCLE OF STARS This star has entered the last stage of its life cycle.

THE LIFE CYCLE OF STARS This star has entered the last stage of its life cycle.
Life Cycle of Stars. Omega / Swan Nebula (M17) Stars are born from great clouds of gas and dust called Stars are born from great clouds of gas and dust.

Life Cycle of Stars. Omega / Swan Nebula (M17) Stars are born from great clouds of gas and dust called Stars are born from great clouds of gas and dust.
Star Life Cycle.

Star Life Cycle.
THE LIFE OF A STAR

THE LIFE OF A STAR
Stars, Galaxies, and Constellations

Stars, Galaxies, and Constellations
The Life Cycle of a Star.

The Life Cycle of a Star.
Classifying Stars Brightness. Some stars are so bright that you can see them even in a lighted city, while others are so dim that you can only see them.

Classifying Stars Brightness. Some stars are so bright that you can see them even in a lighted city, while others are so dim that you can only see them.
DO NOW QUESTION Yesterday we talked about the future of the universe. What do you think will happen to the universe?

DO NOW QUESTION Yesterday we talked about the future of the universe. What do you think will happen to the universe?
The Evolution of Stars - stars evolve in stages over billions of years 1.Nebula -interstellar clouds of gas and dust undergo gravitational collapse and.

The Evolution of Stars - stars evolve in stages over billions of years 1.Nebula -interstellar clouds of gas and dust undergo gravitational collapse and.
DO NOW QUESTION What life stage is our Sun currently in? What do you think will happen to our Sun as it gets older?

DO NOW QUESTION What life stage is our Sun currently in? What do you think will happen to our Sun as it gets older?
Chapter 26 Part 1 of Section 2: Evolution of Stars

Chapter 26 Part 1 of Section 2: Evolution of Stars
NOT THOSE TYPES OF STARS! LIFE CYCLE OF STARS WHAT IS A STAR? Star = ball of plasma undergoing nuclear fusion. Stars give off large amounts of energy.

NOT THOSE TYPES OF STARS! LIFE CYCLE OF STARS WHAT IS A STAR? Star = ball of plasma undergoing nuclear fusion. Stars give off large amounts of energy.
A. Earth’s Galaxy—and Others Galaxy: A large group of stars, gas, and dust held together by gravity. Milky Way: Our galaxy which contains about 200 billion.

A. Earth’s Galaxy—and Others Galaxy: A large group of stars, gas, and dust held together by gravity. Milky Way: Our galaxy which contains about 200 billion.
THE LIFE OF A STAR

THE LIFE OF A STAR
Lives of stars.

Lives of stars.
TOPIC: Astronomy AIM: What are stars?

TOPIC: Astronomy AIM: What are stars?
The Universe Science 8.

The Universe Science 8.

Similar presentations

Ads by Google