Stages of star formation (the classical view)
... High-mass star-forming regions are farther than low-mass. The closest is the Orion molecular cloud, at 500 pc (compared with Taurus at 140 pc) ...
... High-mass star-forming regions are farther than low-mass. The closest is the Orion molecular cloud, at 500 pc (compared with Taurus at 140 pc) ...
(Mike Riddle CTI)-84_eng_cr_v4.0
... Ph.D. Astronomy Ph.D. Astronomy Ph.D. Astronomy Ph.D. Astrophysics Ph.D. Astrophysics Ph.D. Mathematical Physics Ph.D. Condensed Matter Physics Ph.D. Physics Ph.D. Physics Ph.D. Physics Ph.D. Physics Ph.D. Nuclear Physics Ph.D. Physics Ph.D. Aeronautics Ph.D. Combustion Theory Ph.D. Nuclear Engineer ...
... Ph.D. Astronomy Ph.D. Astronomy Ph.D. Astronomy Ph.D. Astrophysics Ph.D. Astrophysics Ph.D. Mathematical Physics Ph.D. Condensed Matter Physics Ph.D. Physics Ph.D. Physics Ph.D. Physics Ph.D. Physics Ph.D. Nuclear Physics Ph.D. Physics Ph.D. Aeronautics Ph.D. Combustion Theory Ph.D. Nuclear Engineer ...
EPB_Paper1_EarlyUniverse
... The solar system formed about 4.6 billion years ago stemming from a gravitational disturbance to a molecular cloud (also known as a nebula) which now makes up our home solar system. The molecular cloud was initially several light years across. The nebula had a net rotation, and as it continued to co ...
... The solar system formed about 4.6 billion years ago stemming from a gravitational disturbance to a molecular cloud (also known as a nebula) which now makes up our home solar system. The molecular cloud was initially several light years across. The nebula had a net rotation, and as it continued to co ...
1. This question is about some of the properties of Barnard`s star
... On the axes above, draw a sketch-graph showing the intensity spectrum for a black-body at 8000 K. ...
... On the axes above, draw a sketch-graph showing the intensity spectrum for a black-body at 8000 K. ...
Ten Years Of XMM-Newton: Scientific Achievements And Future Prospects Norbert Schartel
... • Distance to globular clusters is well known ...
... • Distance to globular clusters is well known ...
Spectra PowerPoint
... Three types of Spectra Continuous: from glowing solids or very compressed gases, such as the photosphere of the Sun Emission: from hot, glowing gases that are rarefied (not very compressed, such as an emission nebula or features in the solar atmosphere Absorption: a combination spectrum produced b ...
... Three types of Spectra Continuous: from glowing solids or very compressed gases, such as the photosphere of the Sun Emission: from hot, glowing gases that are rarefied (not very compressed, such as an emission nebula or features in the solar atmosphere Absorption: a combination spectrum produced b ...
Word
... there is sufficient fuel for fusion. Such a stabilized object is, of course, a proper star. However, some objects may never attain high enough central temperatures for fusion to occur. It is, in principle, easy to calculate that proto-stars whose mass is less than 0.08 times the mass of the Sun will ...
... there is sufficient fuel for fusion. Such a stabilized object is, of course, a proper star. However, some objects may never attain high enough central temperatures for fusion to occur. It is, in principle, easy to calculate that proto-stars whose mass is less than 0.08 times the mass of the Sun will ...
doc - Pocket Stars
... are performed for proper motions and parallax. Planet ephemeris data from Jet Propulsion Laboratory using the DE405 database. DE405 is JPL’s latest planetary ephemeris with correction for both nutations and librations. DE405 uses the J2000 International Celestial Reference Frame (ICRF). The portion ...
... are performed for proper motions and parallax. Planet ephemeris data from Jet Propulsion Laboratory using the DE405 database. DE405 is JPL’s latest planetary ephemeris with correction for both nutations and librations. DE405 uses the J2000 International Celestial Reference Frame (ICRF). The portion ...
PowerPoint
... • Quantum mechanics– electrons can be wave-like – Electrons around nucleus have certain orbits– defines emission and absorption of each atom – When excited, atoms emit certain lines (like in class)– fingerprint or barcode of atom ...
... • Quantum mechanics– electrons can be wave-like – Electrons around nucleus have certain orbits– defines emission and absorption of each atom – When excited, atoms emit certain lines (like in class)– fingerprint or barcode of atom ...
Linking Asteroids and Meteorites through Reflectance
... • The disk includes all of the material (gas, dust, stars, and star clusters) which are confined to the plane of rotation of the galaxy • Contains lots of gas and dust and is therefore the site of active star formation • Lots of blue stars (O and B stars) ...
... • The disk includes all of the material (gas, dust, stars, and star clusters) which are confined to the plane of rotation of the galaxy • Contains lots of gas and dust and is therefore the site of active star formation • Lots of blue stars (O and B stars) ...
The Ultraluminous X-ray Source in Holmberg IX and its Environment
... higher. This strongly suggests the presence of an accretion disk that is heated by the very luminous X-ray source. This constitutes further evidence against beaming in ULX and opens the possibility to measure the binary orbit from radial velocity observations. Isochrone fitting to our multi-colour ph ...
... higher. This strongly suggests the presence of an accretion disk that is heated by the very luminous X-ray source. This constitutes further evidence against beaming in ULX and opens the possibility to measure the binary orbit from radial velocity observations. Isochrone fitting to our multi-colour ph ...
Some observed properties of Dark Matter: a progress report on an
... • How common are systems like ours? • How do planetary systems form? • To date many planets have been detected indirectly • Direct detection: – Mass, radius, temperature, composition – ELT will provide large samples of mature giant planets in reflected light – Earth-like planets may be within reach ...
... • How common are systems like ours? • How do planetary systems form? • To date many planets have been detected indirectly • Direct detection: – Mass, radius, temperature, composition – ELT will provide large samples of mature giant planets in reflected light – Earth-like planets may be within reach ...
Constituents of the Milky Way
... For individual stars that aren’t in clusters (like the Sun), we can’t use the cluster turnoff method to measure an age. For instance, a lone G star might be young, or it might be 10 billion years old. How do we measure its age? The universe contained only hydrogen, helium, and one other element (lit ...
... For individual stars that aren’t in clusters (like the Sun), we can’t use the cluster turnoff method to measure an age. For instance, a lone G star might be young, or it might be 10 billion years old. How do we measure its age? The universe contained only hydrogen, helium, and one other element (lit ...
10 - Keele Astrophysics Group
... the continuum. By the end of that century, astronomers were able to examine the spectra of stars in large numbers and realised that stars could be divided into groups according to the general appearance of their spectra. Classification schemes were developed that grouped together stars depending on ...
... the continuum. By the end of that century, astronomers were able to examine the spectra of stars in large numbers and realised that stars could be divided into groups according to the general appearance of their spectra. Classification schemes were developed that grouped together stars depending on ...
D ASTROPHYSICS
... Stars gas and radiation pressure Like the Sun, all stars initially form when gravity causes the gas in a gravity nebula to condense. As the atoms move towards one another, they lose gravitational potential energy that is converted into kinetic energy. This raises the temperature of the atoms which t ...
... Stars gas and radiation pressure Like the Sun, all stars initially form when gravity causes the gas in a gravity nebula to condense. As the atoms move towards one another, they lose gravitational potential energy that is converted into kinetic energy. This raises the temperature of the atoms which t ...
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.