![History of the Universe and Solar System](http://s1.studyres.com/store/data/000307933_1-cd47fef0b27eed6f73999ae07c8658ac-300x300.png)
History of the Universe and Solar System
... first 2/3 of the Universe’s history. The expansion rate now seems to have increased for the last 1/3 of the Universe’s history. This is explained by “dark phantom energy”, which is hypothesized to be forming between galaxies and pushing them apart by repulsive gravitational force. Dark energy is cal ...
... first 2/3 of the Universe’s history. The expansion rate now seems to have increased for the last 1/3 of the Universe’s history. This is explained by “dark phantom energy”, which is hypothesized to be forming between galaxies and pushing them apart by repulsive gravitational force. Dark energy is cal ...
Solutions to problem set 5
... Maximum angle on the sky occurs when the angle from Callisto to Jupiter to Earth is 90 degrees. From basic geometry, the angle between the Earth–Callisto and Earth–Jupiter sides of this right triangle is: θ = arctan(dCJ /dJE ) where dCJ is the distance from Callisto to Jupiter and dJE is the distanc ...
... Maximum angle on the sky occurs when the angle from Callisto to Jupiter to Earth is 90 degrees. From basic geometry, the angle between the Earth–Callisto and Earth–Jupiter sides of this right triangle is: θ = arctan(dCJ /dJE ) where dCJ is the distance from Callisto to Jupiter and dJE is the distanc ...
red shift summary sheet
... universe expanded from tiny point and formed the galaxies, stars, planets, asteroids, gases, dust and energy. Even today the universe is still expanding. In fact one example of how we can prove this is by looking at a phenomenon called red shift. It was discovered by accident that light emitted from ...
... universe expanded from tiny point and formed the galaxies, stars, planets, asteroids, gases, dust and energy. Even today the universe is still expanding. In fact one example of how we can prove this is by looking at a phenomenon called red shift. It was discovered by accident that light emitted from ...
Stars, Sun, and Moon Test Study Guide
... 3. What season is the Northern hemisphere experiencing when it is tilted towards the sun? ...
... 3. What season is the Northern hemisphere experiencing when it is tilted towards the sun? ...
Regents Earth Science – Unit 5: Astronomy
... dark lines where wavelengths have been absorbed lines have the same fingerprint as in a bright line spectra produced by light that produces a continuous spectrum passing through a cooler gas ...
... dark lines where wavelengths have been absorbed lines have the same fingerprint as in a bright line spectra produced by light that produces a continuous spectrum passing through a cooler gas ...
Constellations
... • The constellations that lie along the ecliptic are called the zodiac. – 12 constellations ...
... • The constellations that lie along the ecliptic are called the zodiac. – 12 constellations ...
September Evening Skies
... Vega, Capella, Altair, Antares, Fomalhaut, and Deneb. In addition to stars, other objects that should be visible to the unaided eye are labeled on the map. The double star (Dbl) at the bend of the handle of the Big Dipper is easily detected. Much more difficult is the double star near Vega in Lyra. ...
... Vega, Capella, Altair, Antares, Fomalhaut, and Deneb. In addition to stars, other objects that should be visible to the unaided eye are labeled on the map. The double star (Dbl) at the bend of the handle of the Big Dipper is easily detected. Much more difficult is the double star near Vega in Lyra. ...
Comparing Earth, Sun and Jupiter
... smaller than this, the density would be >5.0x1010 kg/m3, and it would have to be a neutron star. b. How fast can a star rotate before it breaks up? Equate centripetal and gravitational accelerations: ...
... smaller than this, the density would be >5.0x1010 kg/m3, and it would have to be a neutron star. b. How fast can a star rotate before it breaks up? Equate centripetal and gravitational accelerations: ...
Astronomy Review - Cockeysville Middle
... Although we don’t see it because it travels so quickly, all light takes time to go any distance. Light travels at 3 x 108 m/s. To the right, are some light travel times. Even when I look at you, I see what was! The further away we look, the further back in time we see. ...
... Although we don’t see it because it travels so quickly, all light takes time to go any distance. Light travels at 3 x 108 m/s. To the right, are some light travel times. Even when I look at you, I see what was! The further away we look, the further back in time we see. ...
Lecture 1: Nucleosynthesis, solar composition, chondrites, volatility
... – Gravitational instabilities developed which lead to formation of galaxies and collapse of molecular clouds to form stars – At sufficient temperature and density (~107 K), nuclear fusion begins in star cores Young Magellan stars ...
... – Gravitational instabilities developed which lead to formation of galaxies and collapse of molecular clouds to form stars – At sufficient temperature and density (~107 K), nuclear fusion begins in star cores Young Magellan stars ...
StarType
... à=Ð/Ð8Types of Stars When you look at the stars you’ll notice that some are white, some are yellow, and some are red. Stars are classified according to their colors, ranging from electric blue for the hottest stars to dull red for the coolest stars. Early spectrometers identified emission lines in t ...
... à=Ð/Ð8Types of Stars When you look at the stars you’ll notice that some are white, some are yellow, and some are red. Stars are classified according to their colors, ranging from electric blue for the hottest stars to dull red for the coolest stars. Early spectrometers identified emission lines in t ...
15 Billion
... of Moon. Oldest fossils are about 3.8 by old. f. Mathematical models predict that stars the size of the Sun will undergo nuclear fusion in their core. g. All galaxies are red-shifting, i.e., the universe is expanding. Cosmic background radiation, a remnant of the big bang, is observed. h. Hubble spa ...
... of Moon. Oldest fossils are about 3.8 by old. f. Mathematical models predict that stars the size of the Sun will undergo nuclear fusion in their core. g. All galaxies are red-shifting, i.e., the universe is expanding. Cosmic background radiation, a remnant of the big bang, is observed. h. Hubble spa ...
07 May: Omnis In Exitu Eius Pulchrima
... • As of today, 453 planets known outside the solar system • Most are very different from planets in our solar system (hot Jupiters) • Developments in astronomical observations will discover many more, including ones like in the solar system ...
... • As of today, 453 planets known outside the solar system • Most are very different from planets in our solar system (hot Jupiters) • Developments in astronomical observations will discover many more, including ones like in the solar system ...
January 23
... A rock, initially at rest with respect to Earth and located an infinite distance away, is released and accelerates toward Earth. An observation tower is built 3 Earth-radii high to observe the rock as it plummets to Earth. Neglecting friction, the rock s speed when it hits the ground is ...
... A rock, initially at rest with respect to Earth and located an infinite distance away, is released and accelerates toward Earth. An observation tower is built 3 Earth-radii high to observe the rock as it plummets to Earth. Neglecting friction, the rock s speed when it hits the ground is ...
il 3 ~ )
... (c) Estimate the surface area of your body (in m2). You are welcome to make any reasonable assumptions and approximations, but be sure to state what they are! (d) Assuming your body radiates like a blackbody (OK within a factor of 2-3), estjmate the total power L radiated by your body in Watts. How ...
... (c) Estimate the surface area of your body (in m2). You are welcome to make any reasonable assumptions and approximations, but be sure to state what they are! (d) Assuming your body radiates like a blackbody (OK within a factor of 2-3), estjmate the total power L radiated by your body in Watts. How ...
R136a1
![](https://commons.wikimedia.org/wiki/Special:FilePath/R136a1_star.jpg?width=300)
RMC 136a1 (usually abbreviated to R136a1) is a Wolf-Rayet star located at the center of R136, the central condensation of stars of the large NGC 2070 open cluster in the Tarantula Nebula. It lies at a distance of about 50 kiloparsecs (163,000 light-years) in the Large Magellanic Cloud. It has the highest mass and luminosity of any known star, at 265 M☉ and 8.7 million L☉, and also one of the hottest at over 50,000 K.