Chapter 26 Book Questions

... 30. Circle the letter of each sentence that is true according to the big bang theory. A. The matter and energy in the universe was once concentrated in a very hot region smaller than a sentence period. B. The universe began billions of years ago with an enormous explosion. C. The universe came into ...

Astronomy Exam #2 for the 10

... sequence lifetime compared to the Sun’s lifetime. Some as short as a few million years. The giant stars appear to be mostly G and K spectral types with luminosities over 100 solar luminosities. These giant stars are at the end of their evolution and will shortly perish. Although it appears on this H ...

AST 207 Test 1 28 September 2011

... Star X is on a bigger orbit. The radius of the orbit is the distance from the star to the center of mass of the star-companion system. Since , the mass of the companion is 1000 bigger for star X than for 51 Peg. Star X is orbiting another star, not a planet. 2. Use the drawing on the front page, whi ...

Planisphere Exercise

Lecture 13

... Not so White Dwarfs. They are as stable as a rock. Literally. A quadrillion years in the future all the stars will be gone, but the White Dwarfs will still be here. Their glow is fossil energy left from their youth as a regular star. ...

Black Hole

... A small, highly dense star composed almost entirely of tightly packed neutrons; radius about 10 km. ...

Powerpoint for today

Jeopardy - Cloudfront.net

... a. absorption spectrum of elements to the emission spectra of a star b. continuous spectrum of elements to the emission spectra of a star c. emission spectrum of elements to the absorption spectra of a star d. emission spectrum of elements to continuous spectra of a star ...

Prospecting for Planets – Radial Velocity Searches

... you go from blue to green to yellow to red. The black lines of the three spectra above are called absorption lines, this is where certain wavelengths of light have been absorbed by certain elements in the star. We know at exactly what wavelengths these absorption lines should occur for a particular ...

Zairamink_Lifecycle of a Star

... Nebula, a star uses all of it’s fuel, after which all that is left is the very hot, very dense core of the star.  It cools down over Millions of years, during which all it does is radiate lowenergy X-rays into space.  A white dwarf has a low luminosity but have about half the mass of the sun while ...

Astronomical Ideas Fall 2012 HW 2 solutions 1. a. Compare the

... This problem can be solved either by plugging in all of the numbers, and converting between AU and solar radii, or by calculating it as a ratio compared to the Earth-Sun system. I plugged in. 1 Solar radius ~ 0.004 AU. When using that value, I found 242 K for my equilibrium temperature (compared wit ...

H-R Diagram Student

Answer

... Luminosity remains constant at about 1 Lsun until about 10,000 Myr when it suddenly (and briefly) increases to over 4500 Lsun. 2. Describe how the radius of this star changes with time. Radius remains constant at about 1 Rsun until about 10,000 Myr when it suddenly (and briefly) increases to over 20 ...

Life of stars, formation of elements

... • Built up of molecules of most common elements after hydrogen and helium • Core: Silicates or Graphite (Si, O, C) • Mantle: C,N,O combined with H ...

How to Find the North Star ppt

Report Sheet

I. Parallax

What stars do Summary: Nuclear burning in stars •

... shuts off after Heflash. ...

The First Star at Night

ON THE FORMATION OF MASSIVE STELLAR CLUSTERS

Stellar Evolution - Harnett County High Schools Wiki

... The white dwarf in the AE Aquarii system is the first star of its type known to give off pulsar-like pulsations that are powered by its rotation and particle acceleration. Credit: Casey Reed ...

presentation source

... • Masses from binary star orbits (K3L). – 0.01 to 100 x Sun GENS4001 1999-X1 ...

PHYS 2410 General Astronomy Homework 1

SpfFin - Academic Program Pages

Photographs of a Star Cluster Spectra of a Star Cluster

< 1 ... 104 105 106 107 108 109 110 111 112 ... 167 >

Dyson sphere

A Dyson sphere is a hypothetical megastructure that completely encompasses a star and hence captures most or all of its power output. It was first described by Olaf Stapledon in his science fiction novel, ""Star Maker"". The concept was later popularly adopted by Freeman Dyson. Dyson speculated that such structures would be the logical consequence of the long-term survival and escalating energy needs of a technological civilization, and proposed that searching for evidence of the existence of such structures might lead to the detection of advanced intelligent extraterrestrial life. Different types of Dyson spheres correlate with information on the Kardashev scale.Since then, other variant designs involving building an artificial structure or series of structures to encompass a star have been proposed in exploratory engineering or described in science fiction under the name ""Dyson sphere"". These later proposals have not been limited to solar-power stations. Many involve habitation or industrial elements. Most fictional depictions describe a solid shell of matter enclosing a star, which is considered the least plausible variant of the idea (see below). In May 2013, at the Starship Century Symposium in San Diego, Dyson repeated his comments that he wished the concept had not been named after him.

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Dyson sphere