Measuring the Masses of Galaxies in the Sloan Digital Sky Survey

... Comparison of Milky Way and NGC 2798 Milky Way ...

NASC 1100

... The total energy production rate falls from its red giant phase peak. This reduces the star’s luminosity and decreases the star’s radius, making its surface hotter. In the H-R diagram, the star goes down and to the left. All low-mass stars fuse helium into carbon at nearly the same rate  they have ...

Stars - TeacherWeb

... together by gravity and is composed of gas and emits light. • A star is born when the gases inside a nebula contract together. Inside the nebula you will find new starts. ...

Presentation for perspective graduate students 2006

... To determine stellar mases we rely on binary star systems. As seen from Earth, the two stars that make up this binary system are separated by less than 1/3 arcsecond. For simplicity, the diagram shows one star as remaining stationary; in reality, both stars move around their common center of mass ...

Astronomy 1 – Winter 2011

... To determine stellar mases we rely on binary star systems. As seen from Earth, the two stars that make up this binary system are separated by less than 1/3 arcsecond. For simplicity, the diagram shows one star as remaining stationary; in reality, both stars move around their common center of mass ...

Stellar Evolution and the HR Diagram – Study Guide

... 13. White dwarfs are about the size of __Earth (planets)__ . 14. Neutron stars are about ___12__ miles in diameter. 15. Our Sun is a G2___ class star. 16. The MOST massive of stars live (the longest or the shortest) lives. 17. Supernovas are produced by the explosion of _super massive__ stars. The r ...

THE HERTZSPRUNG-RUSSELL DIAGRAM (H

... NOTE: Absolute Magnitude IS THE SAME THING AS LUMINOSITY ON THE GRAPH DEFINE: absolute magnitude (Pg. 372 if you don’t know) ...

A Universe of Dwarfs and Giants

... Some of them are so small that they are not even classed as proper stars. A star must produce its own light. These objects are either very dim or even black when looked at in visible light. The little they radiate is mainly infra-red light. Brown dwarfs can be thought of as failed stars; much bigger ...

REGIONAL exam 2013

... 5. Each question is worth one point. Tiebreaker questions are indicated with a (T#) in which the number indicates the order of consultation in the event of a tie. Tiebreaker questions count toward the overall raw score, and are only used as tiebreakers when there is a tie. In such cases, (T1) will b ...

VLA 90 cm Brogan et al. (2006)

... • These results (35 new SNRs) suggest that a similar study of a larger part of the Galactic plane would find up to ~500 SNRs ...

Conversations with the Earth

... What do else do you need? ...

Astronomy Notes: Deep Space

... http://sohowww.nascom.nasa.gov Age: 4.6 billion years old Red Giant stage in 5 billion years. It will nova and become a white dwarf. Weird Stars: Cepheid variables, Pulsars, supergiants, brown dwarfs, cataclysmic variable stars III. Measuring Distances and Energy in Space: 1.Lightyear is the distanc ...

Characteristics of Stars

... 23.When it runs out of the fuel, the core will contract and the outer layers of the star will expand to form a _red giant 24. The outer layers of the star will peel away forming a -planetary nebula . Examples of other stars that have already met this fate are _the Hourglass nebula_., _the cars eye n ...

Extension worksheet – Topic 6 - Cambridge Resources for the IB

... Spectroscopic parallax makes use of the formula so requires knowledge of luminosity and apparent brightness; apparent brightness can easily be measured with a CCD camera; the luminosity can be determined if we know the temperature of the star (obtained form its spectrum) and the stellar type so the ...

Note

... Teff = 4500 K. The two stars are of nearly equal V magnitude. What is the ratio of their fluxes at 2 microns? • In an eclipsing binary system, comprised of a B5V star at Teff = 16,000K and an F0III star at Teff = 7000K, the two stars are known to have nearly equal diameters. How deep will the primar ...

Galaxies

... This lesson deals with important topics relating to galaxies. Each of these topics represents a great body of knowledge and areas of interest to research. Historically, galaxies were called nebulae meaning clouds and only later was it realised that they were vast collections of stars, gas and dust l ...

Star Jeopardy Review #2

... What is the ejected envelope, often bipolar, of a red giant surrounding a white dwarf ...

PHYS 2410 General Astronomy Homework 1

... the star must have formed 4.2 billion years ago. ...

May 2017 - Museums Wellington

... constellation of Virgo, and below, just above the horizon is orange coloured Arcturus, the brightest star in the northern celestial hemisphere and the 4th brightest in the night sky. Arcturus has a similar mass to the Sun, but has already expanded to become a red giant, with 25 times the diameter an ...

Earth Science: Chapter 7: Stellar Evolution: Spring 2017: Student

... Greater than 20 Less than 10 million years Same as above except the mass is great enough to solar masses form a BLACK HOLE (see below) Planetary nebula: after a red giant forms material from the star is ejected and forms what looks like a nebula. The name planetary is actually misnamed by an early a ...

Stars Notes

... Characteristics used to classify stars include color, temperature, size, composition and brightness Color – red, red-orange, yellow, white, blue  Temperature – ranges from 3,000 to 50,000  Size – super giant, giant, medium, dwarf, neutron  Composition – what makes up the star (elements)  Brightn ...

Star Lifecycle

... What is a star?  A star is a really hot ball of gas, with hydrogen fusing into helium at its core.  Stars produce light energy, heat energy, and electromagnetic waves.  Stars spend the majority of their lives fusing hydrogen, and when the hydrogen fuel is gone, stars fuse helium into carbon.  Th ...

Two Summers in the UCSC Science Internship Program

... clusters. In conducting background research, I learned that field stars are unusual: Stars are known to form in clusters, so it is rare to find a young, recently formed star in isolation. This anomalous behavior makes field stars an exciting and hotly debated subject. One theory proposes that field ...

- Stevenson High School

... 2. How many constellations are there? 3. Constellations are made up by the apparent arrangement of stars. Are those stars in a constellations physically connected/bound to one another? Tell me about those stars. 4. Are there any stars that are not part of a constellation? Explain. 5. How is astrolog ...

Microsoft Power Point version

... If p is in arcsec and d is in parsecs A star with a parallax of 1 arcsec is 1 parsec distant ...

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Serpens

Serpens (""the Serpent"", Greek Ὄφις) is a constellation of the northern hemisphere. One of the 48 constellations listed by the 2nd-century astronomer Ptolemy, it remains one of the 88 modern constellations defined by the International Astronomical Union. It is unique among the modern constellations in being split into two non-contiguous parts, Serpens Caput (Serpent's Head) to the west and Serpens Cauda (Serpent's Tail) to the east. Between these two halves lies the constellation of Ophiuchus, the ""Serpent-Bearer"". In figurative representations, the body of the serpent is represented as passing behind Ophiuchus between Mu Serpentis in Serpens Caput and Nu Serpentis in Serpens Cauda.The brightest star in Serpens is the red giant star Alpha Serpentis, or Unukalhai, in Serpens Caput, with an apparent magnitude of 2.63. Also located in Serpens Caput are the naked-eye globular cluster Messier 5 and the naked-eye variables R Serpentis and Tau4 Serpentis. Notable extragalactic objects include Seyfert's Sextet, one of the densest galaxy clusters known; Arp 220, the prototypical ultraluminous infrared galaxy; and Hoag's Object, the most famous of the very rare class of galaxies known as ring galaxies.Part of the Milky Way's galactic plane passes through Serpens Cauda, which is therefore rich in galactic deep-sky objects, such as the Eagle Nebula (IC 4703) and its associated star cluster Messier 16. The nebula measures 70 light-years by 50 light-years and contains the Pillars of Creation, three dust clouds that became famous for the image taken by the Hubble Space Telescope. Other striking objects include the Red Square Nebula, one of the few objects in astronomy to take on a square shape; and Westerhout 40, a massive nearby star-forming region consisting of a molecular cloud and an H II region.

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Serpens