http://www3.open.ac.uk/courses/s282-podcastcourse Thanks to cutting-edge radio and infra-red astronomy, our understanding of the universe is moving very fast. Ideas about black holes and cosmic jets are constantly being refined as new discoveries are made using new, more powerful telescopes. This album explores the incredible discoveries and theories developed in recent years and introduces the astronomical observatories, space missions and satellites that have made it possible. The 12 video tracks reveal that our sun, though essential for our existence, is an unremarkable member of the stellar menagerie. They describe how astronomers study the structure and dynamics of our galaxy, the Milky Way and they introduce the challenges inherent in mapping the geometry and expansion of the universe. This material forms part of the course S282 Astronomy. The Open University 2008 en Wed, 13 Feb 2013 07:08:49 +0000 OU Podcast System by KMi http://blogs.law.harvard.edu/tech/rss http://media-podcast.open.ac.uk/feeds/s282-astronomy/s282-astronomy_00263_std.jpg http://www3.open.ac.uk/courses/s282-podcastcourse Astronomy - for iPod/iPhone Thanks to cutting-edge radio and infra-red astronomy, our understanding of the universe is moving very fast. Ideas about black holes and cosmic jets are constantly being refined as new discoveries are made using new, more powerful telescopes. This album explores the incredible discoveries and theories developed in recent years and introduces the astronomical observatories, space missions and satellites that have made it possible. The 12 video tracks reveal that our sun, though essential for our existence, is an unremarkable member of the stellar menagerie. They describe how astronomers study the structure and dynamics of our galaxy, the Milky Way and they introduce the challenges inherent in mapping the geometry and expansion of the universe. This material forms part of the course S282 Astronomy. wavelength, planet, radio, cosmology, space, magnetic, experiment, Doppler, red-shift, emission, star, field Thanks to cutting-edge radio and infra-red astronomy, our understanding of the universe is moving very fast. Ideas about black holes and cosmic jets are constantly being refined as new discoveries are made using new, more powerful telescopes. This album explores the incredible discoveries and theories developed in recent years and introduces the astronomical observatories, space missions and satellites that have made it possible. The 12 video tracks reveal that our sun, though essential for our existence, is an unremarkable member of the stellar menagerie. They describe how astronomers study the structure and dynamics of our galaxy, the Milky Way and they introduce the challenges inherent in mapping the geometry and expansion of the universe. This material forms part of the course S282 Astronomy. wavelength, planet, radio, cosmology, space, magnetic, experiment, Doppler, red-shift, emission, star, field The Open University Ben Hawkridge true A short introduction to this album. Astronomy A short introduction to this album. A short introduction to this album. The Open University No A short introduction to this album. 1 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282-01intro.mp3 Tue, 13 Apr 2010 00:26:38 +0100 00:01:10 Transcript -- A short introduction to this album. Transcript -- Astronomy Transcript -- A short introduction to this album. A short introduction to this album. The Open University No Transcript -- A short introduction to this album. 2 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282-01intro.pdf Tue, 13 Apr 2010 00:26:37 +0100 Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. Our Invisible Sun Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. granulation, force, eruption, YOHKOH, VLA, kelvin, plasma, Ultraviolet, gamma, penumbra, corona, magnetograph Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. granulation, force, eruption, YOHKOH, VLA, kelvin, plasma, Ultraviolet, gamma, penumbra, corona, magnetograph The Open University No Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. 3 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282sun1.m4v Fri, 23 Jan 2009 03:15:44 +0000 00:10:15 Transcript -- Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. Transcript -- Our Invisible Sun Transcript -- Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. granulation, force, eruption, YOHKOH, VLA, kelvin, plasma, Ultraviolet, gamma, penumbra, corona, magnetograph Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. granulation, force, eruption, YOHKOH, VLA, kelvin, plasma, Ultraviolet, gamma, penumbra, corona, magnetograph The Open University No Transcript -- Scientists investigate sun spots, solar flares and arcs using x-ray telescopes, featuring the Big Bear Observatory in LA. 4 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282sun1.pdf Fri, 23 Jan 2009 03:15:43 +0000 What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. VLA, HEIDI & YOKOH What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. X-ray, orbit, heliopause, solar, ejection, rocket, ultraviolet, corona, electron, gamma, magnetogram, photospheric, What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. X-ray, orbit, heliopause, solar, ejection, rocket, ultraviolet, corona, electron, gamma, magnetogram, photospheric, The Open University No What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. 5 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282sun2.m4v Fri, 23 Jan 2009 03:14:44 +0000 00:09:21 Transcript -- What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. Transcript -- VLA, HEIDI & YOKOH Transcript -- What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. X-ray, orbit, heliopause, solar, ejection, rocket, ultraviolet, corona, electron, gamma, magnetogram, photospheric, What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. X-ray, orbit, heliopause, solar, ejection, rocket, ultraviolet, corona, electron, gamma, magnetogram, photospheric, The Open University No Transcript -- What would the sun look like if we had magnetically sensitive eyes? How the most sensitive radio telescopes on earth work. 6 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282sun2.pdf Fri, 23 Jan 2009 03:14:43 +0000 Astronomers compare events on other stars to helps us better understand our sun. Is Our Sun Normal? Astronomers compare events on other stars to helps us better understand our sun. earth, flares, telescope, spectrometer, plasma, ion, aurora Astronomers compare events on other stars to helps us better understand our sun. earth, flares, telescope, spectrometer, plasma, ion, aurora The Open University No Astronomers compare events on other stars to helps us better understand our sun. 7 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282sun3.m4v Fri, 23 Jan 2009 03:13:44 +0000 00:03:05 Transcript -- Astronomers compare events on other stars to helps us better understand our sun. Transcript -- Is Our Sun Normal? Transcript -- Astronomers compare events on other stars to helps us better understand our sun. earth, flares, telescope, spectrometer, plasma, ion, aurora Astronomers compare events on other stars to helps us better understand our sun. earth, flares, telescope, spectrometer, plasma, ion, aurora The Open University No Transcript -- Astronomers compare events on other stars to helps us better understand our sun. 8 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282sun3.pdf Fri, 23 Jan 2009 03:13:43 +0000 The discovery of radio emissions from the Milky Way, and the theory of dark-matter. Mapping the Milky Way The discovery of radio emissions from the Milky Way, and the theory of dark-matter. Jansky, static, Oort, Blaaw, interstellar, hydrogen, atomic, optical, rotation, gravity, mass, warp. The discovery of radio emissions from the Milky Way, and the theory of dark-matter. Jansky, static, Oort, Blaaw, interstellar, hydrogen, atomic, optical, rotation, gravity, mass, warp. The Open University No The discovery of radio emissions from the Milky Way, and the theory of dark-matter. 9 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282milkyway1.m4v Fri, 23 Jan 2009 03:12:44 +0000 00:07:45 Transcript -- The discovery of radio emissions from the Milky Way, and the theory of dark-matter. Transcript -- Mapping the Milky Way Transcript -- The discovery of radio emissions from the Milky Way, and the theory of dark-matter. Jansky, static, Oort, Blaaw, interstellar, hydrogen, atomic, optical, rotation, gravity, mass, warp. The discovery of radio emissions from the Milky Way, and the theory of dark-matter. Jansky, static, Oort, Blaaw, interstellar, hydrogen, atomic, optical, rotation, gravity, mass, warp. The Open University No Transcript -- The discovery of radio emissions from the Milky Way, and the theory of dark-matter. 10 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282milkyway1.pdf Fri, 23 Jan 2009 03:12:43 +0000 Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. The Shape of Our Galaxy Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. Leiden, radiation, interstellar, spiral, Goddard, micron, longitude, monoxide, hydrogen, ion, Sagittarius, plasma Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. Leiden, radiation, interstellar, spiral, Goddard, micron, longitude, monoxide, hydrogen, ion, Sagittarius, plasma The Open University No Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. 11 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282milkyway2.m4v Fri, 23 Jan 2009 03:11:44 +0000 00:05:18 Transcript -- Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. Transcript -- The Shape of Our Galaxy Transcript -- Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. Leiden, radiation, interstellar, spiral, Goddard, micron, longitude, monoxide, hydrogen, ion, Sagittarius, plasma Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. Leiden, radiation, interstellar, spiral, Goddard, micron, longitude, monoxide, hydrogen, ion, Sagittarius, plasma The Open University No Transcript -- Infra-red satellites. The DIRBE experiment on NASA's Cosmic Explorer opened a new window into the Milky Way. 12 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282milkyway2.pdf Fri, 23 Jan 2009 03:11:43 +0000 A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. The Scale of Our Galaxy A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. infra-red, parsec, atmosphere, earth, Kapteyn, 3-D A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. infra-red, parsec, atmosphere, earth, Kapteyn, 3-D The Open University No A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. 13 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282milkyway3.m4v Fri, 23 Jan 2009 03:10:44 +0000 00:03:01 Transcript -- A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. Transcript -- The Scale of Our Galaxy Transcript -- A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. infra-red, parsec, atmosphere, earth, Kapteyn, 3-D A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. infra-red, parsec, atmosphere, earth, Kapteyn, 3-D The Open University No Transcript -- A route map to the stars. The Hipparcos satellite measured the position of stars with better precision than ever before. 14 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282milkyway3.pdf Fri, 23 Jan 2009 03:10:43 +0000 The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. Radio Telescopes and Stellar Jets The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. Mullard, Observatory, array, membrane, aluminium, diode, spectra, monoxide, molecule, bi-polar, supernova, accretion The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. Mullard, Observatory, array, membrane, aluminium, diode, spectra, monoxide, molecule, bi-polar, supernova, accretion The Open University No The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. 15 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282jets1.m4v Fri, 23 Jan 2009 03:09:44 +0000 00:08:24 Transcript -- The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. Transcript -- Radio Telescopes and Stellar Jets Transcript -- The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. Mullard, Observatory, array, membrane, aluminium, diode, spectra, monoxide, molecule, bi-polar, supernova, accretion The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. Mullard, Observatory, array, membrane, aluminium, diode, spectra, monoxide, molecule, bi-polar, supernova, accretion The Open University No Transcript -- The advent of radio astronomy. How radio telescopes like the Maxwell telescope in Hawaii work and what they can tell us about cosmic jets. 16 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282jets1.pdf Fri, 23 Jan 2009 03:09:43 +0000 How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. Detecting Galactic Jets How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. milky, resolution, optical, correlator, antenna, torus, VLBI, interferometry How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. milky, resolution, optical, correlator, antenna, torus, VLBI, interferometry The Open University No How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. 17 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282jets2.m4v Fri, 23 Jan 2009 03:08:44 +0000 00:07:17 Transcript -- How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. Transcript -- Detecting Galactic Jets Transcript -- How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. milky, resolution, optical, correlator, antenna, torus, VLBI, interferometry How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. milky, resolution, optical, correlator, antenna, torus, VLBI, interferometry The Open University No Transcript -- How do radio astronomers see jets far outside our galaxy? Introducing the MERLIN array in the UK and the VLA in New Mexico. 18 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282jets2.pdf Fri, 23 Jan 2009 03:08:43 +0000 What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. Measuring Black Holes What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. accretion, orbit, torus, infra-red, radiation, ejection, particle, charge, interstellar, density, nucleus, What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. accretion, orbit, torus, infra-red, radiation, ejection, particle, charge, interstellar, density, nucleus, The Open University No What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. 19 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282jets3.m4v Fri, 23 Jan 2009 03:07:44 +0000 00:04:02 Transcript -- What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. Transcript -- Measuring Black Holes Transcript -- What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. accretion, orbit, torus, infra-red, radiation, ejection, particle, charge, interstellar, density, nucleus, What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. accretion, orbit, torus, infra-red, radiation, ejection, particle, charge, interstellar, density, nucleus, The Open University No Transcript -- What is the connection between black holes and cosmic jets? Scientists measure the mass and gravitational energy of black holes. 20 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282jets3.pdf Fri, 23 Jan 2009 03:07:43 +0000 What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. What Causes Jets? What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. shock-wave, kinetic, viscous, friction, radiate, proto-star, galactic, black-hole, astrophysics, What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. shock-wave, kinetic, viscous, friction, radiate, proto-star, galactic, black-hole, astrophysics, The Open University No What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. 21 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282jets4.m4v Fri, 23 Jan 2009 03:06:44 +0000 00:03:23 Transcript -- What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. Transcript -- What Causes Jets? Transcript -- What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. shock-wave, kinetic, viscous, friction, radiate, proto-star, galactic, black-hole, astrophysics, What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. shock-wave, kinetic, viscous, friction, radiate, proto-star, galactic, black-hole, astrophysics, The Open University No Transcript -- What goes on deep in the centre of galaxies? Revealing the power source for stars and galactic jets. 22 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282jets4.pdf Fri, 23 Jan 2009 03:06:43 +0000 Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. The Expanding Universe Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. cluster, atomic, chemistry, gravitational, dimension, Hubble, Einstein, relativity, horizon Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. cluster, atomic, chemistry, gravitational, dimension, Hubble, Einstein, relativity, horizon The Open University No Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. 23 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282expanding1.m4v Fri, 23 Jan 2009 03:05:44 +0000 00:06:08 Transcript -- Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. Transcript -- The Expanding Universe Transcript -- Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. cluster, atomic, chemistry, gravitational, dimension, Hubble, Einstein, relativity, horizon Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. cluster, atomic, chemistry, gravitational, dimension, Hubble, Einstein, relativity, horizon The Open University No Transcript -- Russell Stannard uses simple analogies to explain difficult concepts. The expansion of space, and the cosmological red-shift, or doppler shift. 24 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282expanding1.pdf Fri, 23 Jan 2009 03:05:43 +0000 Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. Geometry of the Universe Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. parallel, infinity, triangle, degrees, circle, radius, pi, circumnavigate, longitude, arc, equator, intersect Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. parallel, infinity, triangle, degrees, circle, radius, pi, circumnavigate, longitude, arc, equator, intersect The Open University No Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. 25 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/ipod-all/s282geometry1.m4v Fri, 23 Jan 2009 03:04:44 +0000 00:11:43 Transcript -- Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. Transcript -- Geometry of the Universe Transcript -- Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. parallel, infinity, triangle, degrees, circle, radius, pi, circumnavigate, longitude, arc, equator, intersect Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. parallel, infinity, triangle, degrees, circle, radius, pi, circumnavigate, longitude, arc, equator, intersect The Open University No Transcript -- Russell Stannard explains why standard Euclidean geometry doesn't apply when considering the geometry of outer space. 26 http://www3.open.ac.uk/study/undergraduate/science/index.htm?LKCAMPAIGN=it001_sub&MEDIA=it001_sci http://podcast.open.ac.uk/feeds/s282-astronomy/transcript/s282geometry1.pdf Fri, 23 Jan 2009 03:04:43 +0000