Lecture 10: Interstellar gas

... Although grains make up a very small fraction of the total IS medium, they influence the form of the gas. Grains are probably the sites of molecule formation for some of the simpler molecules (at least H2). Their surfaces act as catalysts by allowing atoms (or simple molecules) to stick to them so t ...

First Light Sources at the End of the Dark Ages: Direct

... Brian O’Shea (Michigan State University) ...

interactive.hr.diagram

... To receive credit, you must answer in complete sentences! Don’t be afraid to think! 1) What is plotted along the horizontal axis of an H-R Diagram? ...

Powerpoint for today

... If core with about 3 MSun or more collapses, not even neutron pressure can stop it (total mass of star about 25 MSun). Core collapses to a point, a "singularity". Gravity is so strong that nothing can escape, not even light => black hole. Schwarzschild radius for Earth is 1 cm. For a 3 MSun object, ...

Light and Spectroscopy Concept Inventory

... laboratory spectrum on Earth, which of the following properties of the nebula can be directly determined? a. Motion towards or away from Earth only. b. Temperature only. c. Chemical composition (type of atoms) only. d. Motion and chemical composition. e. Motion, temperature, and chemical composition ...

IS AN ALTERNATE COSMOLOGY BECOMING NECESSARY?

Exoplanets Properties of the host stars Characterization of the

... The α/Fe ratio in low-metallicity, planet hosting stars •  The α/Fe ratio is a diagnostic tool of Galactic chemical evolution –  The α elements are produced by α capture of atomic nuclei (e.g. Mg, Si, …) –  The ratio α/Fe decreases in the course of chemical evolution due to the different time scales ...

HCKim_NR

The Southern Winter PDF

Angular momentum evolution

... • Several thousands of rotational periods now available for solar-type and low-mass stars from ~1 Myr to a ~10 Gyr (0.2-1.2 Msun) • Kepler still expected to yield many more rotational periods for field stars • Several tens of vsini measurements available for VLM stars and brown dwarfs ...

Chapter 8 – Continuous Absorption

Part 6

... are typically larger than those of particles. Thus one region can be aected by the radiation eld in another part of the atmosphere (e.g., a deeper, hotter region). As a rule of thumb, therefore, LTE is a poor approximation if the radiation eld is important in establishing the ionization and excit ...

Nature paper - University of Southampton

... Two types of supernova are thought to produce the overwhelming majority of neutron stars in the Universe1. The first type, iron-corecollapse supernovae, occurs when a high-mass star develops a degenerate iron core that exceeds the Chandrasekhar limit2. The second type, electron-capture supernovae, i ...

The Sun and Stars

R 2

... star and does not allow to the nuclearly energy generated luminosity to freely escape from the surface. If the star has a convective envelope, it expands on the thermal timescale at its bottom Although the long term effect of illumination is not easy to be understood, the short term effect on the on ...

Extragalactic Astrophysics 1 AA 2011-2012 Prof. LA Antonelli

... - photons do not interact with matter any more - Universe is transparent to radiation - matter is not supported by photon pressure, and can collapse to form condensations condensations which will later form galaxies (protogalaxies) begin to grow in regions of higher density ...

theh – rdiagramsofyoungclust ersandtheformati on ofp

revealing star formation processes in the nearby universe

... q  Stellar light q  Stellar evolution q  Stellar feedback q  Stellar mass function ...

X-ray binaries

... and Magellanic Clouds LMXBs with NSs and BHs as accreting components. Donors can be WDs, or normal low-mass stars (main sequence or sub-giants). ...

Name: Hour:______ Directions for website use: This web activity is

Chapter 3 - BITS Pilani

... a surface temperature of 22,000 K. (a) Use the values CU-B = -0.87, and CB-V = 0.65 and estimate the U-B and B-V color indices of Shaula. Compare your answers with the measured values, UB=-0.90, and B-V = -0.23. (b) The parallax for this star is 0.00464”. ...

Spectroscopic parallax

The Milky Way - Montgomery College

... All elements heavier than He are very rare. ...

Carolina Kehrig

Chapter 14 Neutron Stars and Black holes

... As the planets orbit around the pulsar, they cause it to wobble around, resulting in slight changes of the observed pulsar period. ...

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Stellar evolution

Stellar evolution is the process by which a star changes during its lifetime. Depending on the mass of the star, this lifetime ranges from a few million years for the most massive to trillions of years for the least massive, which is considerably longer than the age of the universe. The table shows the lifetimes of stars as a function of their masses. All stars are born from collapsing clouds of gas and dust, often called nebulae or molecular clouds. Over the course of millions of years, these protostars settle down into a state of equilibrium, becoming what is known as a main-sequence star.Nuclear fusion powers a star for most of its life. Initially the energy is generated by the fusion of hydrogen atoms at the core of the main-sequence star. Later, as the preponderance of atoms at the core becomes helium, stars like the Sun begin to fuse hydrogen along a spherical shell surrounding the core. This process causes the star to gradually grow in size, passing through the subgiant stage until it reaches the red giant phase. Stars with at least half the mass of the Sun can also begin to generate energy through the fusion of helium at their core, whereas more-massive stars can fuse heavier elements along a series of concentric shells. Once a star like the Sun has exhausted its nuclear fuel, its core collapses into a dense white dwarf and the outer layers are expelled as a planetary nebula. Stars with around ten or more times the mass of the Sun can explode in a supernova as their inert iron cores collapse into an extremely dense neutron star or black hole. Although the universe is not old enough for any of the smallest red dwarfs to have reached the end of their lives, stellar models suggest they will slowly become brighter and hotter before running out of hydrogen fuel and becoming low-mass white dwarfs.Stellar evolution is not studied by observing the life of a single star, as most stellar changes occur too slowly to be detected, even over many centuries. Instead, astrophysicists come to understand how stars evolve by observing numerous stars at various points in their lifetime, and by simulating stellar structure using computer models.In June 2015, astronomers reported evidence for Population III stars in the Cosmos Redshift 7 galaxy at z = 6.60. Such stars are likely to have existed in the very early universe (i.e., at high redshift), and may have started the production of chemical elements heavier than hydrogen that are needed for the later formation of planets and life as we know it.

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Stellar evolution