Chapter 17 Star Stuff

... Stellar Mass and Fusion • The mass of a main sequence star determines its core pressure and temperature • Stars of higher mass have higher core temperature and more rapid fusion, making those stars both more luminous and shorter-lived • Stars of lower mass have cooler cores and slower fusion rates, ...

Final Stages of Stellar Evolution - supernovae and the synthesis of

... Naming of Supernovae prefix “SN” followed by year of discovery first 26 supernovae upper case letter from A to Z following combination of lower case letters aa to zz eg. SN1987A was the first observed supernova in 1987 last supernova in 2005: SN2005nc ...

Support worksheet – Topic 3 Questions

... A star has apparent magnitude m  3.1 and absolute magnitude M  1.3 . Calculate the distance to this star. ...

The Chemical Composition of Stars in Open Clusters

... Most important will be: Photoelectric uvby and Hß photometry in order to determine distances and ages of the clusters. Radial velocity and proper motion measurements in order to derive space velocities. Medium-dispersion spectroscopy to get spectral types and information on possible peculiarities or ...

Data Tables - AlmaMiddleSchoolScience

... Name________________________ Date___________ Hour _____ ...

References - becquerel

... challenge is to find indications for the formation of quasi-stable or loosely bound systems significantly exceeding the sizes of the fragments. Search for such states on the nuclear scale is of undoubted interest since they can play a role of intermediate states ("waiting stations") for a stellar nu ...

Grade 8: Physical Science

... systems. As a basis for understanding this concept, students know: a. carbon, because of its ability to combine in many ways with itself and other elements, has a central role in the chemistry of living organisms. b. living organisms are made of molecules largely consisting of carbon, hydrogen, nitr ...

powerpoint

... NEBULA (cloud of gas and dust)… aka the STELLAR NURSERY • The nebula begins to contract due to gravity in response to some interstellar disturbance • One or more PROTOSTARS are formed ...

30-3

... Original content Copyright © Holt McDougal. All rights reserved. Additions and changes to the original content are the responsibility of the instructor. ...

Sample Exam 2

... D. 106 E. 108 11. What kind of celestial observation would be best done using an infrared telescope? A. Measuring the thermal radiation from a star. B. Measuring the emission from electrons spiraling around magnetic fields in a pulsar. C. Measuring the chemical composition of a planet's atmosphere. ...

Future Directions for Astronomy at MSU The lab The rest

... • Huge light-travel times  we can see galaxies being assembled from smaller units, over 13 billion years ago. ...

Die Sonne im Röntgenlicht - ST-ECF

... 0.6 million stars are detected: • accounting for > 80% light • including all stars with M > 8 M and evolved lower mass ones. • strong red clump indicates a major starburst about 300 Myr ago. ...

Geochemistry - an Introduction

... of light elements  A strong preference for evennumbered elements  A peak in abundance at iron, followed by a steady decrease.  Elements 3-5, Lithium, Beryllium and Boron, are very low in abundance. ...

Accuracy of spectroscopy-based radioactive dating of stars

... constitute the dominant ionization stage in the late-type stars of interest here. Moreover, the diagnostic lines of Th and Hf emerge from low lying energy levels which makes the Boltzmann factor and consequently the temperature sensitivity of the level populations modest. The similar atomic properti ...

... The atoms that make up the Sun, planets, asteroids, comets, and us formed in numerous places in the galaxy, mostly the interiors of stars and during supernova explosions. The products of the element-forming events are generally well mixed in the Solar System. There are some notable exceptions to thi ...

1. The distances to the most remote galaxies can be

... b) Have only their high mass stars on the main sequence while the low-mass protostars are still contracting (and hence are not on the main sequence yet). c) Have only their low mass stars on the main sequence while the high-mass protostars are still contracting (and hence are not on the main sequenc ...

Pre-test on THE UNIVERSE, GALAXIES, AND STARS

... hotter with time. b) The universe started out very dense and has become less dense with time. c) The universe is the same age as the Earth. ...

PowerPoint - Chandra X

... in the green regions near the center of the image. The majority of the X-ray emission from N132D is from surrounding gas swept up and heated by a shock wave produced by the supernova. ...

17. The Universe

... cloud of dust and gas created when a dying star exploded. When shockwaves from other dying stars hit the nebula, it collapsed and formed a globule. Over millions of years, the temperature rose and the globule became more compressed, causing it to start spinning. The force of the spinning shaped the ...

universe new

... cloud of dust and gas created when a dying star exploded. When shockwaves from other dying stars hit the nebula, it collapsed and formed a globule. Over millions of years, the temperature rose and the globule became more compressed, causing it to start spinning. The force of the spinning shaped the ...

10.2 Galaxies

... • If the sun were to collapse into a black hole, its diameter of 1.39 x 106 km would collapse to a diameter of 3 km. This 3 km diameter black hole would have a mass of 1.989 x 1030 kg, the same mass as its full size. 1 cm3 of this black hole (the size of a sugar cube) would have a mass of 1.41 x 101 ...

The Modern Origins Story: From the Big Bang to Habitable Planets

... Simulation of Collapse of Gas Cloud to Form Stars (Matthew Bate) ...

The ISM and Stellar Birth

... • Near the Sun, Extinction amounts to 2 magnitudes per 1000 parsecs. That is, a star 1000pc from Earth will look about 2 magnitudes fainter than if space were empty completely • Dust thought to come from stellar ‘winds’, blowing out molecules of hydrogen, carbon, oxygen and other elements which coo ...

The star is moving away from earth

... 2.will survive for several billion years. 3.is moving very quickly away from Earth. 4.has a mass similar to the mass of Jupiter. ...

Lecture 8

... •A neutron star is a giant atomic nucleus, made almost entirely of neutrons, held together by gravity •Flashes of light seen as pole passes our line of sight (like the light from a searchlight beam sweeping ...

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Nucleosynthesis

Nucleosynthesis is the process that creates new atomic nuclei from pre-existing nucleons, primarily protons and neutrons. The first nuclei were formed about three minutes after the Big Bang, through the process called Big Bang nucleosynthesis. It was then that hydrogen and helium formed to become the content of the first stars, and this primeval process is responsible for the present hydrogen/helium ratio of the cosmos.With the formation of stars, heavier nuclei were created from hydrogen and helium by stellar nucleosynthesis, a process that continues today. Some of these elements, particularly those lighter than iron, continue to be delivered to the interstellar medium when low mass stars eject their outer envelope before they collapse to form white dwarfs. The remains of their ejected mass form the planetary nebulae observable throughout our galaxy.Supernova nucleosynthesis within exploding stars by fusing carbon and oxygen is responsible for the abundances of elements between magnesium (atomic number 12) and nickel (atomic number 28). Supernova nucleosynthesis is also thought to be responsible for the creation of rarer elements heavier than iron and nickel, in the last few seconds of a type II supernova event. The synthesis of these heavier elements absorbs energy (endothermic) as they are created, from the energy produced during the supernova explosion. Some of those elements are created from the absorption of multiple neutrons (the R process) in the period of a few seconds during the explosion. The elements formed in supernovas include the heaviest elements known, such as the long-lived elements uranium and thorium.Cosmic ray spallation, caused when cosmic rays impact the interstellar medium and fragment larger atomic species, is a significant source of the lighter nuclei, particularly 3He, 9Be and 10,11B, that are not created by stellar nucleosynthesis.In addition to the fusion processes responsible for the growing abundances of elements in the universe, a few minor natural processes continue to produce very small numbers of new nuclides on Earth. These nuclides contribute little to their abundances, but may account for the presence of specific new nuclei. These nuclides are produced via radiogenesis (decay) of long-lived, heavy, primordial radionuclides such as uranium and thorium. Cosmic ray bombardment of elements on Earth also contribute to the presence of rare, short-lived atomic species called cosmogenic nuclides.

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Nucleosynthesis