HR DIAGRAM (Page 1) - McDonald Observatory

... Looking up into the night sky, you see thousands of stars at varying distances from Earth. The luminosity and temperature of each star varies as well. These are the reasons behind the wide range of apparent magnitudes of stars. Imagine being able to magically pull or push each star (including the su ...

Star-S_Teacher_Guide - The University of Texas at Dallas

... o If your students have already done the Scale Model Solar System Activity, discuss the usefulness of the scale factor. Ask your students what the advantage would be of modeling stars on the same scale. By using the same scale factor of 1:10 billion, the students will more easily be able to make com ...

First young loose association in the northern hemisphere?

... catalogue creating the largest ("14 000 active stars) and most comprehensive set of late-type stellar X-ray sources, the so-called RasTyc sample. This stellar population can be used as a tracer of young local structures (Guillout et al. 1998). !!Presently, nine nearby (30 ! 150 pc) young (5 ! 70 Myr ...

Starspots (AIP – Klaus G

... to the close proximity of any potentially habitable planets, but also due to the fact that M dwarfs tend to be more magnetically active than earlier-type stars. Solid number statistics are still missing and an observing campaign for selected targets with our APT in Arizona or STELLA and BMK10k in Te ...

Modified True/False - Indicate whether the statement is true or false

... ____ 16. HS-ESS1-1 The process in which smaller atomic nuclei combine into larger atomic nuclei is known as a. Gravitational attraction. c. The Doppler effect. b. Parallax. d. Nuclear fusion. ____ 17. HS-ESS1-2 The apparent shift in a star’s position caused by the motion of the observer is called __ ...

The Death of Stars

... b. produced by a supernova explosion. c. produced by a nova explosion. d. a nebula within which planets are forming. e. a cloud of hot gas surround a planet 3. The Chandrasekhar limit tells us that a. accretion disks can grow hot through friction. b. neutron stars of more than 3 solar masses are not ...

CHP 13

... b. produced by a supernova explosion. c. produced by a nova explosion. d. a nebula within which planets are forming. e. a cloud of hot gas surround a planet 3. The Chandrasekhar limit tells us that a. accretion disks can grow hot through friction. b. neutron stars of more than 3 solar masses are not ...

Stellar Physics

... have done the ‘opposite’ to emphasise the point. Historic The Greek astronomer Hipparchus is usually credited with creating the first ever catalogue of stars, containing over 1000 stars and compiled possibly around 135 BC. He also ranked stars according to their brightness into a six point scale. He ...

Constituents of the Milky Way

... Measuring Ages of Individual Stars For individual stars that aren’t in clusters (like the Sun), we can’t use the cluster turnoff method to measure an age. For instance, a lone G star might be young, or it might be 10 billion years old. How do we measure its age? The universe contained only hydrogen ...

Stellar Evolution : The Life and Death of Our Luminous Neighbors

... degenerate - The phenomenon, due to quantum mechanical effects, whereby the pressure exerted by a gas does not depend on its temperature event horizon - The location around a black hole where the escape velocity equals the speed of light; the surface of a black hole fusion - combination of lower mas ...

Stars - cayugascience

... explosion is directed not only outward, but also inward. This force causes the atoms in the star’s core to compress and collapse. When an atom collapses, it forms neutrons, particles that are at the centre of most atoms already. When the star’s core becomes little more than a ball of neutrons only a ...

Opakování z minulého cvičení

... interested in the properties of the glass in the prisms, and how in affected the light, but to his surprise he discovered that there are many dark lines in the spectrum of white light, including light from the Sun. A few of these dark lines in the solar spectrum, now known as Fraunhofer lines, had b ...

galaxies and stars

... 44. Which process was occurring during some of these stages that resulted in the formation of heavier elements from lighter elements? A conduction C radioactive decay ...

$G W ORIONIS, A 20000 YEARS OLD T TAURI STAR? 1\/"", _ 0.14$

G W ORIONIS, A 20000 YEARS OLD T TAURI STAR? 1\/"", _ 0.14

... Our knowledge 01' the actual ages 01' very young stars is very meager; the first indication Lhat we may be observing stars with ages 01' the onler 01' 10 000 years came indirectly from the analysis 01' the density distribution in the Orion nebula (Kahn am! Menon ]9(1) which showed that the latter co ...

doc - Pocket Stars

... are performed for proper motions and parallax. Planet ephemeris data from Jet Propulsion Laboratory using the DE405 database. DE405 is JPL’s latest planetary ephemeris with correction for both nutations and librations. DE405 uses the J2000 International Celestial Reference Frame (ICRF). The portion ...

Today in Astronomy 142: observations of stars

... Classified based on what their spectrum looks like. Is also a temperature scale. Is also a mass scale --- on the main sequence. M-stars are cool and low mass ~0.1 M⊙ and faint (0.01 L⊙). O stars are very very hot and more massive ~10M⊙ and bright (104 L⊙). Beta Pictorus (A5V) is more massive and lum ...

Journey to the Stars Educator`s Guide

... the Big Bang), all that existed in the universe was dark matter and the elements hydrogen, helium, and trace amounts of lithium. Dark matter’s gravity gathered the gas to form the ﬁrst stars. Over the next few billion years, stars were born more rapidly than at any other period in the history of the ...

Surveying the Stars

HR Diagram

... Uncheck show luminosity classes and check show instability strip. Note that this region of the HR Diagram indicates where pulsating stars are found such as RR Lyrae stars and Cepheid variable stars. These stars vary in brightness because they are pulsating – alternately growing bigger and smaller – ...

Carolina Kehrig

...  Searches for PopIII-objects is one of the main science drivers for JWST (Johnson 2010; Visbal+2015)  preparation of future studies of the first SF galaxies  Before interpreting high-z HeII-emitters & use HeII line to infer properties of distant starburst, it is crucial to understand the formatio ...

Homework #2 1. There are two ways to estimate the energy carried

My power point presentation on spectroscopy of stars (ppt file)

... • This star shows strong Zeeman splitting in almost every spectral line, due to a magnetic field of 14.5 kG (1.45 Tesla) • The trace elements in the atmosphere are stratified vertically and horizontally patchy. I have not included enough of these effects in my model to reproduce the observed spectru ...

Here

Chapter 17 Star Stuff Agenda How does a star`s mass affect nuclear

Lecture 12

... • Ptolemy also used them in his Almagest – Catalog of ~1000 naked eye stars. – 6 "magnitude" classes: • 1 = brightest • 6 = faintest ...

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Star

A star is a luminous sphere of plasma held together by its own gravity. The nearest star to Earth is the Sun. Other stars are visible from Earth during the night, appearing as a multitude of fixed luminous points in the sky due to their immense distance from Earth. Historically, the most prominent stars were grouped into constellations and asterisms, and the brightest stars gained proper names. Extensive catalogues of stars have been assembled by astronomers, which provide standardized star designations.For at least a portion of its life, a star shines due to thermonuclear fusion of hydrogen into helium in its core, releasing energy that traverses the star's interior and then radiates into outer space. Once the hydrogen in the core of a star is nearly exhausted, almost all naturally occurring elements heavier than helium are created by stellar nucleosynthesis during the star's lifetime and, for some stars, by supernova nucleosynthesis when it explodes. Near the end of its life, a star can also contain degenerate matter. Astronomers can determine the mass, age, metallicity (chemical composition), and many other properties of a star by observing its motion through space, luminosity, and spectrum respectively. The total mass of a star is the principal determinant of its evolution and eventual fate. Other characteristics of a star, including diameter and temperature, change over its life, while the star's environment affects its rotation and movement. A plot of the temperature of many stars against their luminosities, known as a Hertzsprung–Russell diagram (H–R diagram), allows the age and evolutionary state of a star to be determined.A star's life begins with the gravitational collapse of a gaseous nebula of material composed primarily of hydrogen, along with helium and trace amounts of heavier elements. Once the stellar core is sufficiently dense, hydrogen becomes steadily converted into helium through nuclear fusion, releasing energy in the process. The remainder of the star's interior carries energy away from the core through a combination of radiative and convective processes. The star's internal pressure prevents it from collapsing further under its own gravity. Once the hydrogen fuel at the core is exhausted, a star with at least 0.4 times the mass of the Sun expands to become a red giant, in some cases fusing heavier elements at the core or in shells around the core. The star then evolves into a degenerate form, recycling a portion of its matter into the interstellar environment, where it will contribute to the formation of a new generation of stars with a higher proportion of heavy elements. Meanwhile, the core becomes a stellar remnant: a white dwarf, a neutron star, or (if it is sufficiently massive) a black hole.Binary and multi-star systems consist of two or more stars that are gravitationally bound, and generally move around each other in stable orbits. When two such stars have a relatively close orbit, their gravitational interaction can have a significant impact on their evolution. Stars can form part of a much larger gravitationally bound structure, such as a star cluster or a galaxy.

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Star