STARS and GALAXIES

... • A large ball of gas held together by gravity that produces tremendous amounts of heat and light. • Some stars are very old and the size of planets or moons, and some no longer emit radiation (no light). ...

The Danger of Deadly Cosmic Explosions

... • Across galaxy, maybe 50,000 light years away. • Rotating neutron star, fantastic magnetic field. • Spectacular, but not lethally dangerous – well, except for astronauts maybe. ...

Chapter 25 Study guide Answer Key

... What color is the most massive type of main sequence star? The least massive? Blue = Most massive Red = Least ...

chapter 18

... helium nuclei to form carbon nuclei. c) hydrogen nuclei to form helium nuclei. d) carbon nuclei to form magnesium nuclei. ...

Abstract

... mass of 109 M (where M is the solar mass) building up a total mass of 1011 M. The overdensity region of this mass-scale decouples from the cosmic expansion at redshift 7.8 (0.65109 yr after the Big-Bang) at a radius of 53.7 kpc (1 kpc=3,260 light yr), where the initial conditions are set up. The ...

Stars and Galaxies - Earth Science: Astronomy

... a. Gravity is so strong not even light can escape b. Beyond a black hole’s event horizon gravity operates as it would before the mass collapsed ...

Introduction to Astronomy

... (suns) ...

Practice Homework 2: Properties of Stars 1. Star A is 100 times more

... 6. The Light in sun is created in the interior of the sun which is extremely hot and dense while the outer layers are relatively colder. What kind of spectrum it should produce? Helium in the sun causes absorption at certain frequencies, in which regions of sun do you think this mostly occurs? 7. Th ...

Chapter 27 Review Guide// ESS

... 3. How do astronomers determine a star’s composition and temperature? 4. What are the two types of stellar motion? a. What causes the stars to “move” westward across the night sky? b. Why do we see different stars at different times of the year? ...

Stars and Sun

... Irregular Common, smaller, not easily classified ...

The Whole Darn Thing!

... Elliptical galaxies are very common, contain little gas and dust, and have few young stars. It is not surprising that Earth (a metal-rich planet) is on the arm of a spiral galaxy! Most galaxies (all?) have a supermassive central black hole. Ours is 2,600,000 Msun. There are a few hundred billion gal ...

The Pulsar “Lighthouse”

... • Degenerate pressure of neutrons can support stars only up to 3M • For M > 3M: Further collapse Î black hole • Mass is so concentrated that light cannot escape. • One way to think about it: – vescape = 2GM/R becomes greater than speed of light. – So photons can’t escape. • Black holes now known o ...

Chapter 30 Study Notes

... A star with the sun’s mass would stay on the main sequence of the H-R diagram for about _____ 10 billion years. ...

Stellar Evolution

... Sunlike stars: With a mass between .4 and 4 solar masses, use fusion to combine hydrogen into helium.When they run out of hydrogen (6 trillion to 310 million years), the outer layers of the star expand into a “red giant” while the core contracts and starts to fuse helium into carbon and oxygen. The ...

The “Big Bang” Theory

... • Matter started to “_______” back together • This was due to __________ • The ________, _______ and __________ formed from these clumps of dust and gas • There are __________ of galaxies in the universe and each galaxy consists of __________ of stars ...

Astronomy 102, Spring 2003 Solutions to Review Problems

... 5. Given what we have learned about the interstellar medium and where stars form, consider the following. Spiral galaxies, like our own, have a lot of cool gas (including both atomic and molecular galaxy). There is another type of large galaxy known as an Elliptical galaxy. Such galaxies usually do ...

ASTRONOMY WEBQUEST…… EXPLORE THE UNIVERSE

... Universe - http://starchild.gsfc.nasa.gov/docs/StarChild/universe_level2/universe.html Using the website find the following box and Click on the topics to find your answers: The Milky Way ...

Notes: Astronomy and Groups of Stars

... The core of stars is very hot. The temperatures observed are of the outer layer of the star. ...

Study Guide_galaxies, Tools, and Stars Test

... 6. Name and describe the 3 types of galaxies. 7. Where is our solar system located in the Milky Way galaxy? 8. What is a light year? 9. What contains all the matter and energy that exists? 10. Name two types of optical telescopes. 11. What do radio telescopes receive and where do they come from? 12. ...

ii. star clusters

... 4. Tiny, extremely ________ core within Ex/ _____ (1.5 MSUN, 23 RSUN, orange) B. Helium Flash / Horizontal Branch 1. Temps rise-helium fuses into ________ at *___ million K: Triple-Alpha Process 2. *_______ steadily burning around core 3. Hydrogen-shell still burning C. Supergiant (asymptotic) branc ...

Stars are classified according to their color

... • Stars are classified according to their color temperature: ...

Chapter 29

... • Electromagnetic Spectrum ...

Stars, Galaxies, and the Universe

... When solar winds enter our atmosphere, they release energy, which can produce beautiful glowing light in the sky.  Sometimes referred to the northern or southern lights since they occur near the ...

Ch. 27 Stars & Galaxies

... • No energy source available for fusion. • Star looses its outer gases, core is left, leaving a planetary nebula or white dwarf o As the white dwarf cools and no longer emits energy it becomes a black dwarf. o Novas: Explosions that occur during the process of cooling. ...

Blank Jeopardy

... (luminosity) stars are bigger than low absolute magnitude (luminosity) stars. ...

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H II region

An H II region is a large, low-density cloud of partially ionized gas in which star formation has recently taken place. The short-lived blue stars forged in these regions emit copious amounts of ultraviolet light that ionize the surrounding gas. H II regions—sometimes several hundred light-years across—are often associated with giant molecular clouds. The first known H II region was the Orion Nebula, which was discovered in 1610 by Nicolas-Claude Fabri de Peiresc.H II regions are named for the large amount of ionised atomic hydrogen they contain, referred to as H II, pronounced H-two by astronomers (an H I region being neutral atomic hydrogen, and H2 being molecular hydrogen). Such regions have extremely diverse shapes, because the distribution of the stars and gas inside them is irregular. They often appear clumpy and filamentary, sometimes showing bizarre shapes such as the Horsehead Nebula. H II regions may give birth to thousands of stars over a period of several million years. In the end, supernova explosions and strong stellar winds from the most massive stars in the resulting star cluster will disperse the gases of the H II region, leaving behind a cluster of birthed stars such as the Pleiades.H II regions can be seen to considerable distances in the universe, and the study of extragalactic H II regions is important in determining the distance and chemical composition of other galaxies. Spiral and irregular galaxies contain many H II regions, while elliptical galaxies are almost devoid of them. In the spiral galaxies, including the Milky Way, H II regions are concentrated in the spiral arms, while in the irregular galaxies they are distributed chaotically. Some galaxies contain huge H II regions, which may contain tens of thousands of stars. Examples include the 30 Doradus region in the Large Magellanic Cloud and NGC 604 in the Triangulum Galaxy.

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H II region