pps - TUM

... bursts is of the order ~ 10 seconds or so. If the matter flow piles up at a waiting point nucleus whose effective lifetime never gets below ~10 s, the explosion and nucleosynthesis will stall and “fizzle”. ...

Heavy elements game

... 5. What does the presence of atoms as large as Mercury (80 protons) or Lead (82 protons) on earth suggest about our star (the sun)? ...

SALT Science – UW Madison

... These line profiles were observed for the recurrent nova T Pyx a year and a half after the outburst. Nebular [O III] lines at 5007 Å were still very strong and confirmed a bipolar mass ejection. There seem to be two distincts region of emission, both asymmetric. The He II emission line at 4686 Å, mu ...

UV habitable zones around M stars - IAFE

... masses 0.25–0.35 M is almost constant during the main sequence stage. For this reason, we do not need to simulate the temporal evolution of the habitable zones. Both the LW-HZ and the UV-HZ plotted in Fig. 2 would remain constant for near 100 Gyr (Kasting et al., 1993; Tarter et al., 2007). Lowampl ...

eventful-szkody

... low mass stars comprise 70% of stars in Milky Way flare physics and planet habitability, flares may act as a ‘fog’ for other transients • flaring rate depends on flare energy, spectral type, stellar age, line of sight • model can be used to ‘observe’ the Galaxy and predict the number of flares seen ...

HST Paα Survey of the Galactic Center – Seeking the Missing

... young massive star clusters. As we mentioned previously, they are evolved massive stars with ages of a few Myr. Studying their origin can help us understand the star formation mode within the GC. Two third of these field Paα stars are located on the positive Galactic longitude side of Sgr A* and are ...

Using exoplanet systems with highly elliptical orbits to search for star

... Abstract. We are investigating if the orbital geometry of exoplanets aﬀects the activity of their host star by studying a sample of planetary systems known to contain massive planets on short period, highly elliptical orbits. While recent studies in the optical, UV, and X-Ray have shown enhanced chr ...

ref star birth - russballard.com

... star popped up nearby ... … and blasted them with stellar wind! ...

ppt

... Age Main Sequence (chemically homogeneous star) to present solar age Fixed quantities Solar mass ...

Lecture 29 Our Galaxy: "Milky Way"

... • Plane ("Milky Way") is highly tilted (62 deg) to Earth's equatorial plane. "North Galactic Pole" is just between Leo and Ursa Major. • Galactic positions are sometimes given in "galactic latitude and longitude", with longitude 0 in the direction of the center. • Center (longitude 0) between Sagitt ...

Connecting Stars, Galaxies and the Universe

... of detached eclipsing binaries (DEBs) will be particularly useful. For DEBs within 1.5 kpc or so, SIM-Lite can measure distances to better than ½%, which makes it possible to determine their ages with similar accuracies as can be accomplished with cosmological methods1. This “d½%sample” would be the ...

LesHouches_VanGrootel

... • Global parameters of the star (mass, radius, luminosity, etc.) • Structural and core parameters (Menv, Mcore, core composition, etc) • Constraints for convection, stellar formation & evolution theories... ...

Presentation in PDF format.

... Why does the Sun shine? What holds the Sun up? How did the Sun form? How long will the Sun last? How will the Sun end? Can we “see” inside the Sun? Where did the Sun’s constituents come from? What will happen when the Sun runs out of fuel? What governs the size and brightness of the Sun? ...

Physics of Galaxies 2016 Exercises with solutions – Batch II

... Figure 2: The predicted temporal evolution of the Hα emission-line equivalent width EW(Hα). These models assume a Salpeter IMF and metallicity Z = 0.020. The red line represents a singleage stellar population (red line), whereas the black line is for a stellar population that continuously forms new ...

Read more - University of Central Lancashire

... The Gemini telescope in Chile was 8 meters in diameter, all the way across. We are not building telescopes that are 30 meters in diameter so imagine what we can see with them! How hot is the biggest star? The biggest star is called R136a1 and is about 10 times hotter than the Sun on the surface, but ...

Weighing a galaxy / Black holes / Quasars —16 Nov Nov-09

... Thurs, 18th & 19th. Extra credit. • Test 3 is on Mon, 23rd. – Covers material through “dark matter” today. ...

the paper - Universitäts

... of He 2-131 (middle), since its mass loss rate is obviously too small, as evidenced by the presence of almost only purely photospheric lines hardly influenced by the thin wind – indicating that this CSPN must have a much larger luminosity, because L is the major factor determining the mass loss rate ...

TWO NEW VARIABLE STARS OBSERVED IN THE FIELD OF THE

... Only on the base of our photometric data some doubts necessairly remain regarding the precise identity of the system, and we considered here two plausible alternatives. The object could be a short-period non eclipsing binary system showing the properties typical of an ellipsoidal variable (ELL varia ...

The Milky Way - Chandra X

... Surrounding the thick Galactic disk is an extremely faint halo that contains the oldest stars in the Galaxy. These stars are located in globular clusters, dense swarms of about 100,000 stars. The Galactic halo is dominated by dark matter, a still mysterious form of matter that cannot be seen with an ...

Chapter 22 Neutron Stars and Black Holes

... After a carbon detonation supernova (white dwarf in binary), little or nothing remains of the original star. After a core collapse supernova, part of the core may survive. It is very dense—as dense as an atomic nucleus—and is called a neutron star. [Recall that during core collapse the iron core (as ...

Mass segregation in star clusters is not energy equipartition

... profiles. If open clusters formed from initial conditions similar to observed star-forming regions, we therefore would not expect any energy equipartition to occur through dynamical evolution. We repeated the simulations without stellar evolution and find similar results; the most massive stars sink ...

Document

... I’m going to focus on their structure, their interiors, and their appearance as it relates to determining the properties of their interiors. ...

Section I - General Information Proposal Title: Mass and Radius of a

... NASA’s upcoming NICER mission will make a high precision (+-10%) measurement of the mass-to-radius ratio of PSR J0751+1807, a millisecond pulsar in a compact orbit with a white dwarf. We propose high-precision timing observations of this pulsar at Arecibo to refine measurements of its relativistic o ...

Taoist North Star Meditations (Fire Practice)

... Mai. I will miss him. I look forward to the day; sometime in the future that 1 will again be able to spend time with him. The Intermediate Formulas: Kan and Li Taoist Yoga as taught by Mantak Chia is an orderly system that builds upon itself as the student progresses. It cannot be learned overnight ...

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Main sequence

In astronomy, the main sequence is a continuous and distinctive band of stars that appears on plots of stellar color versus brightness. These color-magnitude plots are known as Hertzsprung–Russell diagrams after their co-developers, Ejnar Hertzsprung and Henry Norris Russell. Stars on this band are known as main-sequence stars or ""dwarf"" stars.After a star has formed, it generates thermal energy in the dense core region through the nuclear fusion of hydrogen atoms into helium. During this stage of the star's lifetime, it is located along the main sequence at a position determined primarily by its mass, but also based upon its chemical composition and other factors. All main-sequence stars are in hydrostatic equilibrium, where outward thermal pressure from the hot core is balanced by the inward pressure of gravitational collapse from the overlying layers. The strong dependence of the rate of energy generation in the core on the temperature and pressure helps to sustain this balance. Energy generated at the core makes its way to the surface and is radiated away at the photosphere. The energy is carried by either radiation or convection, with the latter occurring in regions with steeper temperature gradients, higher opacity or both.The main sequence is sometimes divided into upper and lower parts, based on the dominant process that a star uses to generate energy. Stars below about 1.5 times the mass of the Sun (or 1.5 solar masses (M☉)) primarily fuse hydrogen atoms together in a series of stages to form helium, a sequence called the proton–proton chain. Above this mass, in the upper main sequence, the nuclear fusion process mainly uses atoms of carbon, nitrogen and oxygen as intermediaries in the CNO cycle that produces helium from hydrogen atoms. Main-sequence stars with more than two solar masses undergo convection in their core regions, which acts to stir up the newly created helium and maintain the proportion of fuel needed for fusion to occur. Below this mass, stars have cores that are entirely radiative with convective zones near the surface. With decreasing stellar mass, the proportion of the star forming a convective envelope steadily increases, whereas main-sequence stars below 0.4 M☉ undergo convection throughout their mass. When core convection does not occur, a helium-rich core develops surrounded by an outer layer of hydrogen.In general, the more massive a star is, the shorter its lifespan on the main sequence. After the hydrogen fuel at the core has been consumed, the star evolves away from the main sequence on the HR diagram. The behavior of a star now depends on its mass, with stars below 0.23 M☉ becoming white dwarfs directly, whereas stars with up to ten solar masses pass through a red giant stage. More massive stars can explode as a supernova, or collapse directly into a black hole.

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Main sequence