STAR TYPES
... their existence; this stage generally lasts for about 5 billion years. As stars begin to die, they become giants and supergiants (above the main sequence). These stars have depleted their hydrogen supply and are very old. The core contracts as the outer layers expand. These stars will eventually exp ...
... their existence; this stage generally lasts for about 5 billion years. As stars begin to die, they become giants and supergiants (above the main sequence). These stars have depleted their hydrogen supply and are very old. The core contracts as the outer layers expand. These stars will eventually exp ...
Part 1
... Analyzing Starlight • Starlight is only information we have – Take picture • Measure brightness • Determine color • Measure position ...
... Analyzing Starlight • Starlight is only information we have – Take picture • Measure brightness • Determine color • Measure position ...
Life of the Sun—16 Oct
... • Sun will become a red giant. Surface expands. • Sun will become a planetary nebula • Sun will become a white dwarf ...
... • Sun will become a red giant. Surface expands. • Sun will become a planetary nebula • Sun will become a white dwarf ...
Zero Age Main Sequence (ZAMS)
... – Hydrogen burning and depletion • The increased temperature heats material surrounding the core and starts hydrogen burning in outer layers. • More massive stars (O, B) burn H rapidly (~3x106 years). • Low mass stars (M) burn slowly (~2x1011 yrs). • Mass determines formation time, luminosity, tempe ...
... – Hydrogen burning and depletion • The increased temperature heats material surrounding the core and starts hydrogen burning in outer layers. • More massive stars (O, B) burn H rapidly (~3x106 years). • Low mass stars (M) burn slowly (~2x1011 yrs). • Mass determines formation time, luminosity, tempe ...
ES Chapter 30
... A continuous spectrum is produced by a hot solid, liquid, or dense gas. When a cloud of gas is in front of this hot source, an absorption spectrum is produced. A cloud of gas without a hot source behind it will produce an emission spectrum. ...
... A continuous spectrum is produced by a hot solid, liquid, or dense gas. When a cloud of gas is in front of this hot source, an absorption spectrum is produced. A cloud of gas without a hot source behind it will produce an emission spectrum. ...
Slides from Dr. Frank`s Lecture17
... 1) The binary separation decreases because of gravitational radiation and other angular momentum losses. 2) The component stars will evolve and change size (for example becoming a red giant) Conclusion: Long period (wide) binaries may never become interacting while short period (close) binaries are ...
... 1) The binary separation decreases because of gravitational radiation and other angular momentum losses. 2) The component stars will evolve and change size (for example becoming a red giant) Conclusion: Long period (wide) binaries may never become interacting while short period (close) binaries are ...
Your Star: _____________________ Write down the wavelength at which the one
... will migrate into the evening sky towards the end of the semester. Castor (in the constellation Gemini) is a six-star system; one of its fainter members is included in the table below. ...
... will migrate into the evening sky towards the end of the semester. Castor (in the constellation Gemini) is a six-star system; one of its fainter members is included in the table below. ...
Copyright 1995 Scientific American, Inc.
... should number about 300 in such as the Crab NebulaÕs, our galaxy. whose light reached the earth in A.D. 1054, reveal a neutron Testing General Relativity star surrounded by a luminous cloud of gas, still movSR 1913 +16 has implicaing out into interstellar space. tions that reach far beyond More than ...
... should number about 300 in such as the Crab NebulaÕs, our galaxy. whose light reached the earth in A.D. 1054, reveal a neutron Testing General Relativity star surrounded by a luminous cloud of gas, still movSR 1913 +16 has implicaing out into interstellar space. tions that reach far beyond More than ...
Opakování z minulého cvičení
... with a small volume and small surface area may be hot and white, it cannot be very bright because there is a limit to how much energy can escape across its surface each second without blowing the star apart. But on the main sequence all the stars are more or less the same size (they are all dwarf st ...
... with a small volume and small surface area may be hot and white, it cannot be very bright because there is a limit to how much energy can escape across its surface each second without blowing the star apart. But on the main sequence all the stars are more or less the same size (they are all dwarf st ...
The Sun
... – Although stars may appear to be close to each other, very few are gravitationally bound to one other. – By measuring distances to stars and observing how they interact with each other, scientists can determine which stars are gravitationally bound to each other. – A group of stars that are gravita ...
... – Although stars may appear to be close to each other, very few are gravitationally bound to one other. – By measuring distances to stars and observing how they interact with each other, scientists can determine which stars are gravitationally bound to each other. – A group of stars that are gravita ...
ph507rev1
... This calibration was difficult to perform because of the relative scarcity of Cepheids and their large distances. None are sufficiently near to allow a trigonometric parallax to be determined, so Shapley had to depend upon the ...
... This calibration was difficult to perform because of the relative scarcity of Cepheids and their large distances. None are sufficiently near to allow a trigonometric parallax to be determined, so Shapley had to depend upon the ...
In This Issue The Hottest Planet in the Solar System President`s Article
... Earth to complete exactly one full rotation on its axis (using a distant star … not our sun … as a way to measure when the rotation is completed.) But in that same amount of time, the Earth will have moved forward in its approximately 365¼ day orbit around the Sun — by just shy of 1º. This means the ...
... Earth to complete exactly one full rotation on its axis (using a distant star … not our sun … as a way to measure when the rotation is completed.) But in that same amount of time, the Earth will have moved forward in its approximately 365¼ day orbit around the Sun — by just shy of 1º. This means the ...
X-Ray Binaries
... massive, white dwarf ) transfers matter to a compact companion (neutron star, black hole, [white dwarf ]) • traditionally two main classes: high-mass X-ray binaries (HMXBs; M2 > ∼ 10 M¯) and low-mass X-ray binaries (LMXBs; M2 < ∼ 1.5 M¯) . missing intermediate-mass systems? . probably not: most syst ...
... massive, white dwarf ) transfers matter to a compact companion (neutron star, black hole, [white dwarf ]) • traditionally two main classes: high-mass X-ray binaries (HMXBs; M2 > ∼ 10 M¯) and low-mass X-ray binaries (LMXBs; M2 < ∼ 1.5 M¯) . missing intermediate-mass systems? . probably not: most syst ...
Life Cycle of a Star Lesson Plan
... The material in a white dwarf no longer undergoes fusion reactions, so the star has no source of energy, nor is it supported against gravitational collapse by the heat generated by fusion. It is supported only by electron degeneracy pressure, causing it to be extremely dense. The physics of degenera ...
... The material in a white dwarf no longer undergoes fusion reactions, so the star has no source of energy, nor is it supported against gravitational collapse by the heat generated by fusion. It is supported only by electron degeneracy pressure, causing it to be extremely dense. The physics of degenera ...
Stellar Physics 1
... 9. Red giants are… A. Cool and dim. B. Cool and luminous. y C. Hot and dim. D. Hot and luminous. ...
... 9. Red giants are… A. Cool and dim. B. Cool and luminous. y C. Hot and dim. D. Hot and luminous. ...
Supernova and Supernova Remnants lec 1-2
... From total luminosity derive M Ni that has been synthesized and thus the amount of Fe that has been produced. SNe Ia :the main producer of iron in the universe. Their ...
... From total luminosity derive M Ni that has been synthesized and thus the amount of Fe that has been produced. SNe Ia :the main producer of iron in the universe. Their ...
