ppt
... Cores appear either critical or supercritical based on recent OH data Ambipolar diffusion models predict cores to be subcritical ...
... Cores appear either critical or supercritical based on recent OH data Ambipolar diffusion models predict cores to be subcritical ...
Stars change over their life cycles.
... Some stars are much larger than the Sun. Giant and supergiant stars range from ten to hundreds of times larger. A supergiant called Betelgeuse (BEET-uhl-JOOZ) is more than 600 times greater in diameter than the Sun. If Betelgeuse replaced the Sun, it would fill space in our solar system well beyond ...
... Some stars are much larger than the Sun. Giant and supergiant stars range from ten to hundreds of times larger. A supergiant called Betelgeuse (BEET-uhl-JOOZ) is more than 600 times greater in diameter than the Sun. If Betelgeuse replaced the Sun, it would fill space in our solar system well beyond ...
PH607 The Physics of Stars
... Convection will occur if temperature gradient exceeds a certain multiple of the pressure gradient. The criterion for convection derived above can be satisfied in two ways : a) The ratio of specific heats, , is close to unity In the cool outer layers of a star, the gas is only partially ionized, muc ...
... Convection will occur if temperature gradient exceeds a certain multiple of the pressure gradient. The criterion for convection derived above can be satisfied in two ways : a) The ratio of specific heats, , is close to unity In the cool outer layers of a star, the gas is only partially ionized, muc ...
Astronomy 100, Fall 2006 Name: Due: December 5, 2006 at 11 a.m.
... on a turntable, and the “swirling taffy” model, in which stars at a certain distance from the center all move at the same angular rate, but stars at different distances move at different and not predictable rates, like the motion of taffy being swirled in a mixer. Which model is more consistent with ...
... on a turntable, and the “swirling taffy” model, in which stars at a certain distance from the center all move at the same angular rate, but stars at different distances move at different and not predictable rates, like the motion of taffy being swirled in a mixer. Which model is more consistent with ...
Slide 1
... over the disk population? • The cooling sequences are “pinned” to the CMD by the main sequence and white dwarfs fitted together – sliding is not allowed. • If we ignore the observational errors, the CMD location of a star uniquely determines its mass and radius: setting the mechanical properties of ...
... over the disk population? • The cooling sequences are “pinned” to the CMD by the main sequence and white dwarfs fitted together – sliding is not allowed. • If we ignore the observational errors, the CMD location of a star uniquely determines its mass and radius: setting the mechanical properties of ...
Slide 1
... Superbubbles, and the Source of Cosmic Rays” 2005, ApJ, 268, 738 Ikeuchi, S. “Evolution of Evolution of Superbubbles” 1998, LNP, 506, 399 Mac Low, M.M. & McCray, R. “Superbubbles in disk galaxies”, 1988, ApJ, 324, 776 Maiz-Apellaniz, J. “The Origin of the Local Bubble” 2001, ApJ, 560, L86 Oey, M.S. ...
... Superbubbles, and the Source of Cosmic Rays” 2005, ApJ, 268, 738 Ikeuchi, S. “Evolution of Evolution of Superbubbles” 1998, LNP, 506, 399 Mac Low, M.M. & McCray, R. “Superbubbles in disk galaxies”, 1988, ApJ, 324, 776 Maiz-Apellaniz, J. “The Origin of the Local Bubble” 2001, ApJ, 560, L86 Oey, M.S. ...
Scientific Method
... • The principles & empirical processes of discovery & demonstration considered characteristic of or necessary for scientific investigation, generally involving a) The observation of phenomena b) The formation of a hypothesis concerning the phenomena c) Experimentation to demonstrate the truth or fal ...
... • The principles & empirical processes of discovery & demonstration considered characteristic of or necessary for scientific investigation, generally involving a) The observation of phenomena b) The formation of a hypothesis concerning the phenomena c) Experimentation to demonstrate the truth or fal ...
MS Word
... stars against their spectral types. It is named after Hertzprung and Russell who discovered this relation. You will discover that there are many different kinds of stars of different brightness, surface temperature and size. ...
... stars against their spectral types. It is named after Hertzprung and Russell who discovered this relation. You will discover that there are many different kinds of stars of different brightness, surface temperature and size. ...
Neutron Stars and Black Holes
... them to be very far away—2 billion parsecs for the first one measured. ...
... them to be very far away—2 billion parsecs for the first one measured. ...
River - Phillips Indian Educators
... sizes, locations, and motions of the Sun, the Moon, the planets, and the stars. This book contains activities that will help you develop skills in observing and inquiry…We believe you learn science better by making measurements and observations than by memorizing “facts.” Understanding science also ...
... sizes, locations, and motions of the Sun, the Moon, the planets, and the stars. This book contains activities that will help you develop skills in observing and inquiry…We believe you learn science better by making measurements and observations than by memorizing “facts.” Understanding science also ...
The Nuclear Reactions
... influence the roles that these nuclear burning stages may play: * Successive nuclear burning stages, involving more massive nuclei with higher charges, will require increasingly high temperatures to overcome the increased electrical repulsion. * The amount of energy released by each successive react ...
... influence the roles that these nuclear burning stages may play: * Successive nuclear burning stages, involving more massive nuclei with higher charges, will require increasingly high temperatures to overcome the increased electrical repulsion. * The amount of energy released by each successive react ...
Clase-06_Star_Formation - Departamento de Astronomía
... timescales are of order 107-108 years the burst is often confined to a few hundred pc near the nucleus, although disc-wide bursts are also common SB are usually found in interacting galaxies, merging systems and bursting dwarves ...
... timescales are of order 107-108 years the burst is often confined to a few hundred pc near the nucleus, although disc-wide bursts are also common SB are usually found in interacting galaxies, merging systems and bursting dwarves ...
When the Sun Dies—12 Oct Composition of the sun
... • Core shrinks, gets hotter • H? He in the a shell surrounding inert core ...
... • Core shrinks, gets hotter • H? He in the a shell surrounding inert core ...
Ch. 18
... • Pulsars are rotating neutron stars with magnetic fields. Hot spots at the magnetic poles of these neutron stars send out beams of radiation. If the magnetic poles do not align with the poles of the rotation, the beamed radiation from the hot spots sweeps through space like a lighthouse beam swings ...
... • Pulsars are rotating neutron stars with magnetic fields. Hot spots at the magnetic poles of these neutron stars send out beams of radiation. If the magnetic poles do not align with the poles of the rotation, the beamed radiation from the hot spots sweeps through space like a lighthouse beam swings ...
Question Paper - SAVE MY EXAMS!
... The ultimate fate of the universe depends upon the total amount of matter in the universe. One possibility is a big crunch where the universe eventually contracts back into a point of infinite density. A universe with such a future would be described as being A closed. B critical. C flat. D open. (T ...
... The ultimate fate of the universe depends upon the total amount of matter in the universe. One possibility is a big crunch where the universe eventually contracts back into a point of infinite density. A universe with such a future would be described as being A closed. B critical. C flat. D open. (T ...
Collapse: Method 2
... critical mass – the Jeans mass (after Sir James Jeanss (1877-1946) - it collapses to form a star. Gas and dust are then pulled together by gravity until a star is formed. ...
... critical mass – the Jeans mass (after Sir James Jeanss (1877-1946) - it collapses to form a star. Gas and dust are then pulled together by gravity until a star is formed. ...
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.