Integrative Studies 410 Our Place in the Universe
... • H0 = (68 ± 1) km/sec/Mpc is Hubble’s constant • Compare to distance = velocity time • Appears the universe “exploded” from a single point in the past – the Big Bang • Age of the universe is 1/H0 or about 14 billion years ...
... • H0 = (68 ± 1) km/sec/Mpc is Hubble’s constant • Compare to distance = velocity time • Appears the universe “exploded” from a single point in the past – the Big Bang • Age of the universe is 1/H0 or about 14 billion years ...
ppt
... few galaxies (1-2 Mpc). Even Hubble Space Telescope cannot find Cepheids beyond the Virgo cluster (16 Mpc). Beyond 1-2Mpc, Hubble used… ...
... few galaxies (1-2 Mpc). Even Hubble Space Telescope cannot find Cepheids beyond the Virgo cluster (16 Mpc). Beyond 1-2Mpc, Hubble used… ...
Section 19.3
... exploded outward from a single point. This idea is known as the Big Bang theory. ...
... exploded outward from a single point. This idea is known as the Big Bang theory. ...
EXERCISES: Set 2 of 4 Q1: The absolute magnitude of the Sun in
... Q1: The absolute magnitude of the Sun in the optical V band is MV = 4.8. The brightness of the night sky at a dark astronomical site is 22 magnitudes per square arcsec in the V band. (a) At what distances would: (i) a star like the Sun, (ii) a globular cluster, (iii) a galaxy like the Milky Way be a ...
... Q1: The absolute magnitude of the Sun in the optical V band is MV = 4.8. The brightness of the night sky at a dark astronomical site is 22 magnitudes per square arcsec in the V band. (a) At what distances would: (i) a star like the Sun, (ii) a globular cluster, (iii) a galaxy like the Milky Way be a ...
Where a limit?
... "Cedar" the Touch: 01 hour, 48 minutes. A world championship: the first cosmonaut of a planet (on April, 12th, 1961 has made flight by spaceship "East"); the maximum cargo lifted into an orbit — 4725 kg; мах. Flight height — 327 km that remains a record till today. ...
... "Cedar" the Touch: 01 hour, 48 minutes. A world championship: the first cosmonaut of a planet (on April, 12th, 1961 has made flight by spaceship "East"); the maximum cargo lifted into an orbit — 4725 kg; мах. Flight height — 327 km that remains a record till today. ...
Chapter 7 Review Answers
... The CBR found fits with the predictions consistent with the BBT, supporting the BBT. 13. It is unlikely that we will travel across even our own galaxy because it is 100,000 ly across, meaning that it would take 100,000 years travelling at the speed of light to get across the galaxy. 14.All galaxies ...
... The CBR found fits with the predictions consistent with the BBT, supporting the BBT. 13. It is unlikely that we will travel across even our own galaxy because it is 100,000 ly across, meaning that it would take 100,000 years travelling at the speed of light to get across the galaxy. 14.All galaxies ...
5X_Measuring_galaxy_redshifts
... beforehand by drawing out each fibre from its storage and placing the button on a metal plate exactly where the light of a particular galaxy will fall. One field can be set up whilst another is being observed. ...
... beforehand by drawing out each fibre from its storage and placing the button on a metal plate exactly where the light of a particular galaxy will fall. One field can be set up whilst another is being observed. ...
Astronomy 101 Section 4
... educational lectures and activities to talk to someone when something isn’t right ...
... educational lectures and activities to talk to someone when something isn’t right ...
PARTS OF THE UNIVERSE
... v Big Bang Theory: states that all matter and energy were once packed into a tiny particle smaller than a speck of dust. v The particle began to expand and matter and energy moved rapidly outward in all directions. v The matter cooled and collected to form stars, galaxies, nebulae, and planets ...
... v Big Bang Theory: states that all matter and energy were once packed into a tiny particle smaller than a speck of dust. v The particle began to expand and matter and energy moved rapidly outward in all directions. v The matter cooled and collected to form stars, galaxies, nebulae, and planets ...
HW4 due - Yale Astronomy
... than the Sun. How far away could a Type Ia supernovae be, and still be detected with the Hubble Space Telescope? Express your answer in light years. ...
... than the Sun. How far away could a Type Ia supernovae be, and still be detected with the Hubble Space Telescope? Express your answer in light years. ...
Extragalactic AO Science
... reduce throughput further making it difficult to observe faint extended sources. Normal galaxy disks only achieve a maximum SB of K~16 mag/sq arcsec and this fades as (1+z)4. This means all normal disks are fainter than 22.5 mag within 0.05x0.05”. ...
... reduce throughput further making it difficult to observe faint extended sources. Normal galaxy disks only achieve a maximum SB of K~16 mag/sq arcsec and this fades as (1+z)4. This means all normal disks are fainter than 22.5 mag within 0.05x0.05”. ...
z - STScI
... • When and how do the first stars and galaxies form? – HST and Keck have detected very luminous star ...
... • When and how do the first stars and galaxies form? – HST and Keck have detected very luminous star ...
Galaxies and the Universe - Mr. Jones's Science Class
... the Milky Way • observed that galaxies were moving away from each other ...
... the Milky Way • observed that galaxies were moving away from each other ...
Ch. 27.3 Star Groups
... Patterns of stars in the sky, in which the stars are not necessarily close together. 88 constellations recognized by astronomers. Most don’t look like the figures they are named after. ...
... Patterns of stars in the sky, in which the stars are not necessarily close together. 88 constellations recognized by astronomers. Most don’t look like the figures they are named after. ...
The Universe
... • It provides us with many of the images we have of space. • It is an especially useful telescope because it does not have to view things through our atmosphere ...
... • It provides us with many of the images we have of space. • It is an especially useful telescope because it does not have to view things through our atmosphere ...
2014 Joseph E. Pesce, Ph.D. 1 Astro 113 Final Exam Review 1. What
... 25. An object at room temperature (T = 300 degrees Kelvin) emits blackbody radiation at primarily what wavelength? An object at T = 106 degrees Kelvin? 26. Are galaxies distributed evenly through sp ...
... 25. An object at room temperature (T = 300 degrees Kelvin) emits blackbody radiation at primarily what wavelength? An object at T = 106 degrees Kelvin? 26. Are galaxies distributed evenly through sp ...
Galaxies and the Universe - Grandview Independent School
... including the eight major planets, their satellites, and all the smaller pieces such as asteroids and comets • formed around 4.6 billion years ago What is ...
... including the eight major planets, their satellites, and all the smaller pieces such as asteroids and comets • formed around 4.6 billion years ago What is ...
Slide 1
... the Big Bang theory. For example, we tend to imagine a giant explosion. Experts however say that there was no explosion; there was (and continues to be) an expansion. Rather than imagining a balloon popping and releasing its contents, imagine a balloon expanding: an infinitesimally small balloon exp ...
... the Big Bang theory. For example, we tend to imagine a giant explosion. Experts however say that there was no explosion; there was (and continues to be) an expansion. Rather than imagining a balloon popping and releasing its contents, imagine a balloon expanding: an infinitesimally small balloon exp ...
Hubble Deep Field
The Hubble Deep Field (HDF) is an image of a small region in the constellation Ursa Major, constructed from a series of observations by the Hubble Space Telescope. It covers an area 2.5 arcminutes across, about one 24-millionth of the whole sky, which is equivalent in angular size to a 65 mm tennis ball at a distance of 100 metres. The image was assembled from 342 separate exposures taken with the Space Telescope's Wide Field and Planetary Camera 2 over ten consecutive days between December 18 and December 28, 1995.The field is so small that only a few foreground stars in the Milky Way lie within it; thus, almost all of the 3,000 objects in the image are galaxies, some of which are among the youngest and most distant known. By revealing such large numbers of very young galaxies, the HDF has become a landmark image in the study of the early universe, with the associated scientific paper having received over 900 citations by the end of 2014.Three years after the HDF observations were taken, a region in the south celestial hemisphere was imaged in a similar way and named the Hubble Deep Field South. The similarities between the two regions strengthened the belief that the universe is uniform over large scales and that the Earth occupies a typical region in the Universe (the cosmological principle). A wider but shallower survey was also made as part of the Great Observatories Origins Deep Survey. In 2004 a deeper image, known as the Hubble Ultra-Deep Field (HUDF), was constructed from a few months of light exposure. The HUDF image was at the time the most sensitive astronomical image ever made at visible wavelengths, and it remained so until the Hubble Extreme Deep Field (XDF) was released in 2012.