- published: 03 Feb 2008
- views: 6336
9:47
Carl Sagan on the Big Bang - Milton Humason & Edwin Hubble
Milton Humason & Edwin Hubble's contributions to the theory of the "Big Bang." This clip c...
published: 03 Feb 2008
Carl Sagan on the Big Bang - Milton Humason & Edwin Hubble
Milton Humason & Edwin Hubble's contributions to the theory of the "Big Bang." This clip comes from Carl Sagan's Cosmos episode 10, "The Edge of Forever."
- published: 03 Feb 2008
- views: 6336
4:15
Hubble's Expanding Universe Red Shifts The Big Bang
http://www.myspace.com/acorvettes
Before 1919, most scientists held that the universe was...
published: 02 Aug 2007
Hubble's Expanding Universe Red Shifts The Big Bang
http://www.myspace.com/acorvettes
Before 1919, most scientists held that the universe was only as large as the Milky Way and that it was a constant size. Then, in 1919, the American astronomer Edwin Hubble — aided by a technologically advanced 100-inch telescope — was able to discern individual stars within what he believed to be a nebula, a fuzzy cloud of light composed of cosmic gases. After calculating that the distance to these stars from Earth was much further than the known reaches of the Milky Way, he concluded that the stars were part of a galaxy separate from our own. The idea that our galaxy was just one of many galaxies changed forever the way we view our place in the universe.
- published: 02 Aug 2007
- views: 46222
3:06
The Edwin Hubble-Red-Shift-Big-Bang-in-English-Accent Rap
Edwin Hubble provided the experimental evidence for an expanding universe. He used doppler...
published: 05 Jan 2011
The Edwin Hubble-Red-Shift-Big-Bang-in-English-Accent Rap
Edwin Hubble provided the experimental evidence for an expanding universe. He used doppler shift measurements of the light from distant stars to show the relationship between a star's distance and the rate at which it is receding from us.
also check www.sciencerapper.com
Lyrics:
Intro: Edwin Hubble was an American astronomer who first noted the relationship between a stars distance and the rate at which it is receding from us. This relationship, the Hubble Constant, provides evidence that the universe is expanding, allows for theories of whether the universe will continue to expand, and suggests that our current universe must have started as a dense mass 13 billion years ago - and that it was kick started with a bang.
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Hubble here but please call me Ed
My discoveries outlive me in your in your head
i used wake up when you go to bed
through the telescope the night sky i tread
train my scope on the most distant galaxies
so faint so faint the bare eye cannot see
yet I capture light from the star-break it apart
spectral analysis is where i've made my mark
see red-shifted lines in absorption spectra
calculate velocity shift of stars- AH bless ya!
its made possible using Einstein's laws
we observe that the stare are receding PAUSE
from a bit of light you know from us the stars are fading
my dear old Edwin you must be crazy
I'm stark raving mad for what do i see
the further the star the greater the velocity
the universe it seems to be expanding
computers make these calculations non-demanding
using a stars mass and the laws of gravity
we back calculate each stars trajectories
but i'm not done - i've got a bigger impact
I looked back in time using current rates and mass
If the universe is expanding at a given rate
can we back calculate to find the date
at which time all the mass was compressed
13 billion years is the date that fits best
it was then that began the shot that rang
round the universe - we call it the big bang.
from redshifted light get the constant hubble
see the universe as an expanding bubble
backward in time the bubble does shrink
to a point mass that represents the brink
of knowledge, perhaps what can be known
we live in a most mysterious home
with keen insight and vision we may see
into deep space beyond human mortality
of fundamental rules of physics, of dark matter
of galactic cores seen with clever light patterns
though I'm gone i've left with fame
cosmologists will forever know my name
as the old poem asks if we've got enough mass
in which case a fiery crunch will come to pass
or whether our low mass will pay the price
and we will expand forever until we ice
outro:
though future physicists will determine the fate of the bubble
you will forever remember the name of Hubble
- published: 05 Jan 2011
- views: 12233
9:22
Meilensteine der Naturwissenschaft 7 Hubble 1 von 2
Doku über das Leben und die wissenschaftlichen Leistungen von Edwin Hubble...
published: 28 Apr 2009
Meilensteine der Naturwissenschaft 7 Hubble 1 von 2
Doku über das Leben und die wissenschaftlichen Leistungen von Edwin Hubble
- published: 28 Apr 2009
- views: 2482
6:08
Edwin Hubble: an Informational Video
This video holds much of the history of Edwin Hubble's life in a broad way and also gives ...
published: 01 Mar 2012
Edwin Hubble: an Informational Video
This video holds much of the history of Edwin Hubble's life in a broad way and also gives a basic understanding into who the man was, what his discoveries were, and what we see of his legacy today. Keep in mind this was made by a high school student, not a teacher, so there are many things that might have been worded better or with more detail
- published: 01 Mar 2012
- views: 483
13:25
Biography - HE - Edwin Hubble Changed Our Ideas About the Universe -
10/31/2012
Edwin Hubble Changed Our Ideas About the Universe and Its Birth
EXPLORATIONS --...
published: 29 Nov 2012
Biography - HE - Edwin Hubble Changed Our Ideas About the Universe -
10/31/2012
Edwin Hubble Changed Our Ideas About the Universe and Its Birth
EXPLORATIONS -- a program in Special English by the Voice of America.
Today, Richard Rael and Tony Riggs tell the story of American astronomer Edwin Hubble. He changed our ideas about the universe and how it developed. Edwin Hubble made his most important discoveries in the nineteen twenties. Today, other astronomers continue the work he began. Many of them are using the Hubble Space Telescope that is named after him.
Edwin Powell Hubble was born in eighteen eighty-nine in Marshfield, Missouri. He spent his early years in the state of Kentucky. Then he moved with his family to Chicago, Illinois. He attended the University of Chicago. He studied mathematics and astronomy.
Hubble was a good student. He was a good athlete, too. He was a member of the University of Chicago championship basketball team in nineteen-oh-nine. He also was an excellent boxer. Several people urged him to train for the world heavyweight boxing championship after college. Instead, he decided to continue his studies. He went to Queen's College at Oxford, England.
At Oxford, Hubble studied law. He was interested in British Common Law, because his family had come to America from England many years before. He spent three years at Oxford.
In nineteen thirteen, Hubble returned to the United States. He opened a law office in Louisville, Kentucky. After a short time, however, he decided he did not want to be a lawyer. He returned to the University of Chicago. There, once again, he studied astronomy.
Hubble watched the night sky with instruments at the university's Yerkes Observatory. His research involved a major question astronomers could not answer: What are nebulae?
The astronomical term "nebulae," Hubble explained, had come down through the centuries. It was the name given to permanent, cloudy areas in the sky outside our solar system. Some astronomers thought nebulae were part of our Milky Way galaxy. Others thought they were island universes farther away in space. In his research paper, Hubble said the issue could be decided only by more powerful instruments. And those instruments had not yet been developed.
In nineteen seventeen, the United States was fighting in World War One in Europe. Edwin Hubble joined the American army and served in France.
Earlier, astronomer George Ellery Hale had offered Hubble a position at the Mount Wilson Observatory in Southern California. When Hubble returned to the United States after World War One, he accepted Hale's offer. Hubble was thirty years old. He was just beginning the work that would make him famous.
In his first observations from Mount Wilson, Hubble used a telescope with a mirror one hundred fifty-two centimeters across. He studied objects within our own galaxy. And he made an important discovery about nebulae.
Hubble said the light that appeared to come from nebulae really came from stars near the nebulae. The nebulae, he said, were clouds of atoms and dust. They were not hot enough -- like stars -- to give off light.
Soon after, Hubble began working with a larger and more powerful telescope at Mount Wilson. Its mirror was two hundred fifty centimeters across. It was the most powerful telescope in the world for twenty-five years. It had the power Hubble needed to make his major discoveries.
From nineteen twenty-two on, Edwin Hubble began examining more and more distant objects. His first great discovery was made when he recognized a Cepheid variable star. It was in the outer area of the great nebula called Andromeda. Cepheid variable stars are stars whose brightness changes at regular periods.
An astronomer at Harvard College, Henrietta Leavitt, had discovered that these periods of brightness could be used to measure the star's distance from Earth. Hubble made the measurements. They showed that the Andromeda nebula lay far outside our Milky Way Galaxy.
http://learningenglish.voanews.com/content/edwin-hubble-changed-our-ideas-about-the-universe-and-its-birth/1537071.html
- published: 29 Nov 2012
- views: 664
14:58
A descoberta de Edwin Hubble part-1
I created this video with the YouTube Video Editor (http://www.youtube.com/editor)...
published: 04 Jun 2012
A descoberta de Edwin Hubble part-1
I created this video with the YouTube Video Editor (http://www.youtube.com/editor)
- published: 04 Jun 2012
- views: 127
1:03
Edwin Hubble & el Big-Bang
Historia de como Edwin Hubble descubrió la expansión del Universo. Video incluido en la re...
published: 02 Jun 2011
Edwin Hubble & el Big-Bang
Historia de como Edwin Hubble descubrió la expansión del Universo. Video incluido en la representación "Contacto Pelicano" producida por el IAA-CSIC y FECYT. Autor: Emilio García & Silbia López
- published: 02 Jun 2011
- views: 1570
24:33
Biografia di Edwin Powell Hubble - I grandi della scienza del novecento
Edwin Powell Hubble (20/11/1889 - 28/09/1953)
L'astronomo che scoprì la relazione lineare...
published: 11 Apr 2012
Biografia di Edwin Powell Hubble - I grandi della scienza del novecento
Edwin Powell Hubble (20/11/1889 - 28/09/1953)
L'astronomo che scoprì la relazione lineare tra il redshift cosmologico e la distanza delle galassie.
L'astronomo statunitense Edwin Powell Hubble, al quale è stato intitolato il più grande telescopio spaziale attualmente in orbita intorno alla Terra da 2,4 metri di diametro, ha dato alcuni contributi fondamentali alla nostra visione dell'universo.
Le osservazioni condotte da Hubble all'osservatorio di Mount Wilson dimostrarono che esistono molte altre galassie oltre alla Via Lattea di cui fa parte il nostro Sistema solare. Nel 1929, sulla base delle misure del red shift, lo spostamento verso il rosso dello spettro della luce emessa dalle sorgenti cosmiche, Hubble mostrò inoltre che le altre galassie si allontanano dalla nostra con una velocità proporzionale alla loro distanza. Questo risultato è ancora oggi considerato dalla maggior parte dei cosmologi come prova del fatto che l'universo è in espansione.
Fin da bambino Hubble fu appassionato di astronomia: a 12 anni scrisse un breve trattato su Marte. Figlio di un avvocato, studiò legge e iniziò a praticare nel Kentucky. Ma era affascinato dal lavoro di George Hale, e abbandonò la toga per un posto di ricercatore all'osservatorio Yerkes fondato da Hale.
Era anche un ragazzo molto sportivo: praticò l'atletica leggera e il calcio e, durante gli anni dell'università a Oxford, si dedicò al pugilato con tanto successo che gli fu proposto di passare al professionismo. Se non avesse rifiutato, forse la storia della cosmologia sarebbe stata diversa.
Tratto da "X Day: i grandi della scienza del novecento" la biografia di Edwin Hubble, una realizzazione Quadro Film per Rai Educational 1998-2001 di Enrico Agapito, Luisa Bonolis, Pietro Greco, e Franco Pacini, direttore dell'Osservatorio Astrofisico presso Arcetri - Firenze, ci accompagnano nella vita dell'astronomo che scoprì l'esistenza di altre galassie al di fuori della Via Lattea.
http://www.facebook.com/liberascienza
- published: 11 Apr 2012
- views: 1361
2:49
Lesch + Gaßner: Edwin Hubble
Ausschnitt aus der Lesung der beiden Autoren, Prof.Dr. Harald Lesch und Dr. Josef Gaßner, ...
published: 23 Nov 2012
Lesch + Gaßner: Edwin Hubble
Ausschnitt aus der Lesung der beiden Autoren, Prof.Dr. Harald Lesch und Dr. Josef Gaßner, aus ihrem neuen Buch "Urknall, Weltall und das Leben", erschienen in der-wissens-verlag: www.der-wissens-verlag.de
- published: 23 Nov 2012
- views: 172
14:31
MdNuT 076 Edwin Powell Hubble Das expandierende Universum
Die Expansion des Universums beschreibt eine zeitliche Veränderung, nämlich eine Ausdehnun...
published: 25 Sep 2012
MdNuT 076 Edwin Powell Hubble Das expandierende Universum
Die Expansion des Universums beschreibt eine zeitliche Veränderung, nämlich eine Ausdehnung bzw. Vergrößerung, des Universums.
Edwin Powell Hubble (* 20. November 1889 in Marshfield, Missouri; † 28. September 1953 in San Marino, Kalifornien) war ein US-amerikanischer Astronom. Er entdeckte die Natur der Spiralnebel und die Hubble-Konstante der galaktischen Kosmologie und ist Namensgeber des Hubble-Weltraumteleskops.
- published: 25 Sep 2012
- views: 274
Youtube results:
11:35
HUBBLE Nasa IMAX Zoom 3d Full HD + Gran Telescopio Canarias + Large Binocular Telescope space
The Hubble Space Telescope (HST) is a space telescope that was carried into orbit by a Spa...
published: 12 Mar 2013
HUBBLE Nasa IMAX Zoom 3d Full HD + Gran Telescopio Canarias + Large Binocular Telescope space
The Hubble Space Telescope (HST) is a space telescope that was carried into orbit by a Space Shuttle in 1990 and remains in operation. A 2.4-meter (7.9 ft) aperture telescope in low Earth orbit, Hubble's four main instruments observe in the near ultraviolet, visible, and near infrared. The telescope is named after the astronomer Edwin Hubble.Hubble's orbit outside the distortion of Earth's atmosphere allows it to take extremely sharp images with almost no background light. Hubble's Deep Field have been some of the most detailed visible-light images ever, allowing a deep view into space and time. Many Hubble observations have led to breakthroughs in astrophysics, such as accurately determining the rate of expansion of the universe.Although not the first space telescope, Hubble is one of the largest and most versatile, and is well known as both a vital research tool and a public relations boon for astronomy. The HST was built by the United States space agency NASA, with contributions from the European Space Agency, and is operated by the Space Telescope Science Institute. The HST is one of NASA's Great Observatories, along with the Compton Gamma Ray Observatory, the Chandra X-ray Observatory, and the Spitzer Space Telescope.Space telescopes were proposed as early as 1923. Hubble was funded in the 1970s, with a proposed launch in 1983, but the project was beset by technical delays, budget problems, and the Challenger disaster. When finally launched in 1990, scientists found that the main mirror had been ground incorrectly, compromising the telescope's capabilities. The telescope was restored to its intended quality by a servicing mission in 1993.Hubble is the only telescope designed to be serviced in space by astronauts. Between 1993 and 2002, four missions repaired, upgraded, and replaced systems on the telescope; a fifth mission was canceled on safety grounds following the Columbia disaster. However, after spirited public discussion, NASA administrator Mike Griffin approved one final servicing mission, completed in 2009 by Space Shuttle Atlantis. The telescope is now expected to function until at least 2013. Its scientific successor, the James Webb Space Telescope (JWST), is to be launched in 2018 or possibly later.
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The Gran Telescopio Canarias (meaning "Canaries Great Telescope"), also known as GranTeCan or GTC, is a 10.4 m (410 in) reflecting telescope undertaking commissioning observations at the Roque de los Muchachos Observatory on the island of La Palma, in the Canary Islands of Spain, as of July 2009.Construction of the telescope, sited on a volcanic peak 2,267 metres (7,438 ft) above sea level, took seven years and cost €130 million (£112 million).[3] Its installation had been hampered by weather conditions and the logistical difficulties of transporting equipment to such a remote location. The GTC Project is a partnership formed by several institutions from Spain and Mexico, the University of Florida, the National Autonomous University of Mexico,and the Instituto de Astrofísica de Canarias (IAC). Planning for the construction of the telescope, which started in 1987, involved more than 1,000 people from 100 companies. As of 2009, it is the world's largest single-aperture optical telescope.[6] The distribution of the availability of time to use the telescope meets its financial structure: 90% Spain, 5% Mexico and 5% the University of Florida.
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Large Binocular Telescope (LBT) is an optical telescope for astronomy located on Mount Graham (10,700-foot (3,300 m)) in the Pinaleno Mountains of southeastern Arizona, and is a part of the Mount Graham International Observatory. The LBT is currently one of the world's most advanced optical telescopes; using two 8.4 m (27 ft) wide mirrors can give the same light gathering ability as a 11.8 m (39 ft) wide single circular telescope and detail of 22.8 m (75 ft) wide one. Either of its mirrors would be the second-largest optical telescope in continental North America, behind the Hobby-Eberly Telescope in West Texas. Optical performance of the telescope is excellent, and Strehl ratios of 60-90% in the infrared H band and 95% in the infrared M band have been achieved by the LBT.
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Vangelis (born March 29, 1943) is a Greek composer and performer. He gained wide popularity after composing soundtracks to Chariots of Fire (1981) and Blade Runner (1982).
1968) The Clock / Our Love Sleeps on the Water
(1976) So Long Ago, So Clear / Heaven and Hell Theme
(1976) Pulstar / Alpha
(1978) To the Unknown Man / To the Unknown Man 2
(1979) The Long March / The Long March 2
(1980) Don't Be Foolish / Doesn't Matter - Peter Marsh
(1980) My Love / Domestic Logic One
(1981) Chariots of Fire: Titles / Eric's Theme
(1981) Cosmos Theme (Heaven and Hell) / Alpha
(1988) Will of the Wind / Intergalactic Radio Station / Metallic Rain
(1992) Conquest of Paradise / Moxica and the Horse
(1992) Conquest of Paradise / Moxica and the Horse / Line Open / Landscape
- published: 12 Mar 2013
- views: 46
5:07
Das expandierende Universum - Das Rätsel der beschleunigten Ausdehnung
http://facebook.com/WissensMagazin ... Die Entdeckungsgeschichte des beschleunigt expandie...
published: 06 Oct 2012
Das expandierende Universum - Das Rätsel der beschleunigten Ausdehnung
http://facebook.com/WissensMagazin ... Die Entdeckungsgeschichte des beschleunigt expandierenden Universums. Wissensmagazin mit André Lampe (Physiker, FU Berlin/FMP). Für ihre Entdeckung des sich beschleunigt ausdehnenden Universums wurden die Astronomen Saul Perlmutter, Brian P. Schmidt und Adam G. Riess mit dem Physik-Nobelpreis 2011 ausgezeichnet.
Seit Tausenden von Jahren ringen Kosmologen mit den grundlegenden Fragen über die Größe und das Alter des Universums. Ist das Universum unendlich oder hat es irgendwo eine Grenze? Hat es schon immer existiert, oder entstand es vor einiger Zeit in der Vergangenheit? 1929 machte Edwin Hubble eine entscheidende Entdeckung, die bald zu wissenschaftlichen Antworten zu diesen Fragen führen sollte: er entdeckte, dass das Universum expandiert.
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Bitte ABONNIEREN nicht vergessen:
• http://www.youtube.com/WissensMagazin
• http://www.youtube.com/WissenXXL
• http://www.youtube.com/WeltDerWissenschaft
• http://www.youtube.com/PlanetZukunft
• http://www.youtube.com/vipmagazin
Danke! :)
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Die Expansion des Universums
1929 maß Edwin Hubble, der an den Carnegie Observatorien in Pasadena in Kalifornien arbeitete, die Rotverschiebungen von einer Vielzahl entfernter Galaxien. Er maß auch ihre relative Entfernung, indem er die ersichtliche Helligkeit einer Klasse von veränderlichen Sternen, Cepheide genannt, in jeder Galaxie maß. Als er die Rotverschiebung im Verhältnis zur relativen Entfernung auftrug, fand er, dass die Rotverschiebung entfernter Galaxien als eine lineare Funktion zu ihren Entfernungen stieg. Die einzige Erklärung für diese Beobachtung, ist, dass das Universum expandiert.
Als die Wissenschaftler erst einmal begriffen hatten, dass das Universum expandierte, realisierten sie sofort, dass es in der Vergangenheit kleiner gewesen sein müsste. Zu einem Zeitpunkt in der Vergangenheit muss das gesamte Universum ein einzelner Punkt gewesen sein. Dieser Punkt, später der Urknall genannt, war der Beginn des Universums, so wie wir es heute kennen.
Das expandierende Universum ist sowohl in der Zeit, als auch im Raum begrenzt. Der Grund dafür, warum das Universum nicht in sich zusammenfiel, so wie Newtons und Einsteins Gleichungen es gesagt haben, ist dass es von dem Moment seiner Entstehung an expandierte. Das Universum ist ein konstanter Zustand des Wandels. Das expandierende Universum, eine Idee, die auf der modernen Physik basiert, beendete die Paradoxa, die die Astronomen seit der Antike bis ins frühe 20. Jahrhundert gequält hatten.
• http://cas.sdss.org/dr6/de/astro/universe/universe.asp
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Entdeckungsgeschichte des expandierenden Kosmos
Die Expansion des Universums beschreibt eine zeitliche Veränderung, nämlich eine Ausdehnung bzw. Vergrößerung, des Universums.
Die Expansion des Universums wurde 1927 vom Belgier Georges Lemaître entdeckt. Er entdeckte, was vor ihm schon Friedman gefunden hatte, dass die Grundgleichungen der Relativitätstheorie ein dynamisches Universum ergeben. Diese Entdeckung verband er mit Sliphers Rotverschiebungen und Hubbles Distanzen. Er schloss daraus, dass das Universum expandiert. In seiner Publikation in den Annales de la Société Scientifique de Bruxelles im Jahr 1927 gab Lemaître bereits das "Hubble-Gesetz".
Hubble fand die Beziehung zwischen den Distanzen der Galaxien und den als Geschwindigkeiten gedeuteten Rotverschiebungen v (Dopplereffekt) im Jahr 1929. Das deutete er allerdings nicht als Expansion des Universums, sondern im Sinn von de Sitters 1917 vorgeschlagenem Modell eines statischen Universums. Hubble hat das Modell des expandierenden Universums nie vertreten und -- nach seinen Publikationen zu schließen -- vermutlich auch nie daran geglaubt.
Hatte Einstein noch in seinen Theorien ein statisches Universum postuliert, revidierte er angesichts dieser damals neuen Theorie des expandierenden Raumes seine Auffassung. So hatte Einstein eine kosmologische Konstante in die Feldgleichungen eingeführt, um statische Lösungen des Universums zu erhalten. Diese Lösungen der Struktur des Universums waren jedoch instabil. Einstein bezeichnete die Idee einer kosmologischen Konstanten später laut George Gamow als die „größte Eselei meines Lebens".
• http://de.wikipedia.org/wiki/Expansion_des_Universums
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- published: 06 Oct 2012
- views: 10637