Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Physics of Star Formation Alec Fisher 09/17/2012.

Published byFerdinand May Modified over 8 years ago

Similar presentations

Presentation on theme: "The Physics of Star Formation Alec Fisher 09/17/2012."— Presentation transcript:

1 The Physics of Star Formation Alec Fisher 09/17/2012

2 A Quick Background on Stars A star is held together from its enormous mass, and its ability to produce its own energy via nuclear fusion. There are many different types of stars. Some are magnitudes more massive than the sun, and some are magnitudes less massive. Stars exist mostly inside of the many various types of galaxies. A star not gravitationally locked into a galaxy is very rare. Rate of star formation is approximately 275 million a day

3

4 Formed in the ISM Areas of dense molecular clouds Mostly H 2 Bok globules (2) The Pillars of Creation in the Eagle Nebula

5 Collapsing of the cloud

6 Shockwave

7 Black holes can emit accreted matter via x- ray radiation creating a relativistic jet, hindering or aiding star formation

8 As the molecular clouds collapse, they break apart into smaller pieces Gravitational Potential Energy increases Cloud fragments collapse to a stellar mass Density increases causing opaqueness

9 The opaque cloud is now at a temperature of roughly 100 K. Infrared radiation occurs. First Hydrostatic core is formed. Continues to heat up due to Virial Theorem. Shockwaves further heat up the star. Hydrogen ionization occurs at roughly 2000 K. Density decreases due to these processes. Convection and radiation continue cause the radius of the core to drop.

10 Protostar As the radius decreases, the temperature of the hydrostatic core will increase. Continues until star can support itself.

11 Material will continue to rain down on the protostar, causing an increase in mass and, thus, an increase in density as the star continues to contract. The star will achieve a temperature of 10 6 K, and deuterium fusion will begin:

12 Once deuterium begins fusing, contraction will slow drastically. Gravitation contraction fuels the star. Protostar will continue to contract until the Hayashi limit is reached, where it will then fuse Hydrogen. The star has been created.

13 (7)H-R diagram of a protostar

14 Timescales of protostar collapse can range between 10 4 and 10 9. 30 solar mass protostar < 10,000 years 1 solar mass protostar = 30 million years 0.2 solar mass protostar = 1 billion years

15 Terrestrial and Jovian Planets form

16 (1)http://curious.astro.cornell.edu/question.php?number=644 (2) https://encrypted- tbn0.google.com/images?q=tbn:ANd9GcTp5uMXCwBK4drAqi6ta- kKdSzFUdj1z8Z7h7ZCLls7ViveejLghttps://encrypted- tbn0.google.com/images?q=tbn:ANd9GcTp5uMXCwBK4drAqi6ta- kKdSzFUdj1z8Z7h7ZCLls7ViveejLg (3) http://en.wikipedia.org/wiki/Star_formation http://en.wikipedia.org/wiki/Star_formation (4) http://en.wikipedia.org/wiki/Jeans_mass http://en.wikipedia.org/wiki/Jeans_mass (5) http://en.wikipedia.org/wiki/Virial_theoremhttp://en.wikipedia.org/wiki/Virial_theorem (6) http://www.google.com/imgres?um=1&hl=en&sa=N&biw=1600&bih=799&tbm=isch&tbnid=OB_M- UnM9l5KdM:&imgrefurl=http://www.uni.edu/morgans/astro/course/Notes/section2/new9.html&docid=VV- PWcUj1rrInM&imgurl=http://www.uni.edu/morgans/astro/course/Notes/section2/shockwave_sn.jpg&w=900&h=900&ei=Fm1 WUP2uDYbY8gSC8YDQAg&zoom=1&iact=rc&dur=227&sig=116826453993561246470&page=1&tbnh=146&tbnw=139&start=0 &ndsp=34&ved=1t:429,r:4,s:0,i:88&tx=58&ty=63 (7) http://www.google.com/imgres?um=1&hl=en&sa=N&biw=1600&bih=799&tbm=isch&tbnid=96FdjbnFB4YVbM:&imgrefurl= http://boojum.as.arizona.edu/~jill/NS102_2006/Lectures/Starformation/starformation.html&docid=Ab6IiK8Sa6BMhM&imgurl= http://boojum.as.arizona.edu/~jill/NS102_2006/Lectures/Starformation/17- 06.jpg&w=800&h=600&ei=MZRWUPi9Mom89QTcjoCoBg&zoom=1&iact=rc&dur=701&sig=116826453993561246470&page=1& tbnh=144&tbnw=192&start=0&ndsp=32&ved=1t:429,r:0,s:0,i:76&tx=141&ty=78 (7) http://www.google.com/imgres?um=1&hl=en&sa=N&biw=1600&bih=799&tbm=isch&tbnid=96FdjbnFB4YVbM:&imgrefurl= http://boojum.as.arizona.edu/~jill/NS102_2006/Lectures/Starformation/starformation.html&docid=Ab6IiK8Sa6BMhM&imgurl= http://boojum.as.arizona.edu/~jill/NS102_2006/Lectures/Starformation/17- 06.jpg&w=800&h=600&ei=MZRWUPi9Mom89QTcjoCoBg&zoom=1&iact=rc&dur=701&sig=116826453993561246470&page=1& tbnh=144&tbnw=192&start=0&ndsp=32&ved=1t:429,r:0,s:0,i:76&tx=141&ty=78 (8)http://www.astronomy.ohio-state.edu/~pogge/Ast162/Unit2/starform.html

Download ppt "The Physics of Star Formation Alec Fisher 09/17/2012."

Similar presentations

Star Formation Why is the sunset red? The stuff between the stars

Star Formation Why is the sunset red? The stuff between the stars
Star Formation Daniel Zajfman Department of Particle Physics Weizmann Institute of Science.

Star Formation Daniel Zajfman Department of Particle Physics Weizmann Institute of Science.
Star Birth How do stars form? What is the maximum mass of a new star? What is the minimum mass of a new star?

Star Birth How do stars form? What is the maximum mass of a new star? What is the minimum mass of a new star?
Stellar Evolution Chapters 12 and 13. Topics Humble beginnings –cloud –core –pre-main-sequence star Fusion –main sequence star –brown dwarf Life on the.

Stellar Evolution Chapters 12 and 13. Topics Humble beginnings –cloud –core –pre-main-sequence star Fusion –main sequence star –brown dwarf Life on the.
Formation of Stars Physics 113 Goderya Chapter(s):11 Learning Outcomes:

Formation of Stars Physics 113 Goderya Chapter(s):11 Learning Outcomes:
Objectives Determine the effect of mass on a star’s evolution.

Objectives Determine the effect of mass on a star’s evolution.
Roger A. Freedman • William J. Kaufmann III

Roger A. Freedman • William J. Kaufmann III
Star Stuff Joy Harjo (1951 – ) from Secrets From the Center of the World I can hear the sizzle of newborn stars, and know anything of meaning, of the fierce.

Star Stuff Joy Harjo (1951 – ) from Secrets From the Center of the World I can hear the sizzle of newborn stars, and know anything of meaning, of the fierce.
Chapter 19.

Chapter 19.
StarsStars. What is a STAR? The objects that heat and light the planets in a system A star is a ball of plasma held together by its own gravity –Nuclear.

StarsStars. What is a STAR? The objects that heat and light the planets in a system A star is a ball of plasma held together by its own gravity –Nuclear.
The Formation of Stars Chapter 11. Giant Molecular Clouds Large Low density Cold To Form Stars Small High density Hot.

The Formation of Stars Chapter 11. Giant Molecular Clouds Large Low density Cold To Form Stars Small High density Hot.
This set of slides This set of slides starts the topic of stellar evolution, overview, protostars, main sequence… Units covered: 59, 60, 61.

This set of slides This set of slides starts the topic of stellar evolution, overview, protostars, main sequence… Units covered: 59, 60, 61.
SH2 136: A Spooky Nebula Ghoulish dust clouds: a region of star formation Halloween corresponds roughly to the cross-quarter day: half-way between equinox.

SH2 136: A Spooky Nebula Ghoulish dust clouds: a region of star formation Halloween corresponds roughly to the cross-quarter day: half-way between equinox.
By Preston B & Kara P (picture of Protostar)

By Preston B & Kara P (picture of Protostar)
Chapter 19 Star Formation (Birth) Chapter 20 Stellar Evolution (Life) Chapter 21 Stellar Explosions (Death) Few issues in astronomy are more basic than.

Chapter 19 Star Formation (Birth) Chapter 20 Stellar Evolution (Life) Chapter 21 Stellar Explosions (Death) Few issues in astronomy are more basic than.
Units to cover: 61, 62. Our Sun will eventually A. Become white dwarf B. Explode as a supernova C. Become a protostar D. Become a black hole.

Units to cover: 61, 62. Our Sun will eventually A. Become white dwarf B. Explode as a supernova C. Become a protostar D. Become a black hole.
Star Formation Processes in Stellar Formation Sequence of Events Role of Mass in Stellar Formation Observational Evidence New Theories.

Star Formation Processes in Stellar Formation Sequence of Events Role of Mass in Stellar Formation Observational Evidence New Theories.
We are “star stuff” because the elements necessary for life were made in stars.

We are “star stuff” because the elements necessary for life were made in stars.
StarsStars. Essential Questions What is a celestial body? What is a star? Wat process powers a star? What is a light year? What is the lifecycle of a.

StarsStars. Essential Questions What is a celestial body? What is a star? Wat process powers a star? What is a light year? What is the lifecycle of a.
Star Formation. Introduction Star-Forming Regions The Formation of Stars Like the Sun Stars of Other Masses Observations of Brown Dwarfs Observations.

Star Formation. Introduction Star-Forming Regions The Formation of Stars Like the Sun Stars of Other Masses Observations of Brown Dwarfs Observations.

Similar presentations

Ads by Google