Københavns Universitets Videoportal web@adm.ku.dk https://ku.23video.com da-dk Visualplatform http://blogs.law.harvard.edu/tech/rss Københavns Universitets Videoportal episodic no https://ku.23video.com/files/rv1.9/sitelogo.gif https://ku.23video.com http://video.ku.dk/photo/4603865/universe-of-physics-episode-4-the <p>We live in an era of science, and we know an incredible lot about our world. But there are still three unanswered questions to our fundamental understanding of the universe. How do particles in the standardmodel acquire mass? What does the dark matter in our universe consist of? And what makes the expansion og the universe accellerate?</p> <p>Length: 11:14<br /> Produced by The Compound for The Niels Bohr Institute 2012<br /> Produced with support from the Danish Agency for Science, Technology and Innovation</p><p><a href="http://video.ku.dk/photo/4603865/universe-of-physics-episode-4-the"><img src="http://video.ku.dk/4465687/4603865/82fa122c3c552fd586ca7c0caedbb795/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4603865 Fri, 09 Mar 2012 14:07:06 GMT Universe of Physics - Episode 4: The Invisible Universe We live in an era of science, and we know an incredible lot about our world. But there are still three unanswered questions to our fundamental understanding of the universe. How do particles in the standardmodel acquire mass? What does the dark matter in our universe consist of? And what makes the expansion og the universe accellerate? Length: 11:14 Produced by The Compound for The Niels Bohr Institute 2012 Produced with support from the Danish Agency for Science, Technology and Innovation We live in an era of science, and we know an incredible lot about our world. But there are still three unanswered questions to our fundamental understanding of the universe. How do particles in the standardmodel acquire mass? What does the dark... Københavns Universitets Videoportal 11:14 <p>We live in an era of science, and we know an incredible lot about our world. But there are still three unanswered questions to our fundamental understanding of the universe. How do particles in the standardmodel acquire mass? What does the dark matter in our universe consist of? And what makes the expansion og the universe accellerate?</p> <p>Length: 11:14<br /> Produced by The Compound for The Niels Bohr Institute 2012<br /> Produced with support from the Danish Agency for Science, Technology and Innovation</p><p><a href="http://video.ku.dk/photo/4603865/universe-of-physics-episode-4-the"><img src="http://video.ku.dk/4465687/4603865/82fa122c3c552fd586ca7c0caedbb795/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> CERN Fysik Higgs Institutete LHC Niels Physics Space The bohr institutet particles http://video.ku.dk/photo/4600271/universe-of-physics-part-2-cern-the <p>How do physicists investigate the smallest components in the universe?<br /> A hair is usually a million atoms thick, and the particles which atoms consist of are much smaller. To investigate the smallest components in our universe we actually need to build huge workshops. On CERN physicists have build the worlds largest particle accellerator (Large Hadron Collider) where millions of protons are smashed togeather in search of the univers’ smallest components. In this episode of Universe Of Physics Particle Physicist Troels Petersen shows you how CERN and the Large Hadron Collider work.</p> <p>Length: 12:32<br /> Produceret by The Compound for The Niels Bohr Institute 2012<br /> Produced with support from the Danish Agency for Science, Technology and Innovation</p><p><a href="http://video.ku.dk/photo/4600271/universe-of-physics-part-2-cern-the"><img src="http://video.ku.dk/4465641/4600271/551545127ab08cd4d1120bf750e0fb37/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4600271 Tue, 06 Mar 2012 14:44:54 GMT Universe of Physics - Part 2: CERN - The Physicists' Workshop How do physicists investigate the smallest components in the universe? A hair is usually a million atoms thick, and the particles which atoms consist of are much smaller. To investigate the smallest components in our universe we actually need to build huge workshops. On CERN physicists have build the worlds largest particle accellerator (Large Hadron Collider) where millions of protons are smashed togeather in search of the univers’ smallest components. In this episode of Universe Of Physics Particle Physicist Troels Petersen shows you how CERN and the Large Hadron Collider work. Length: 12:32 Produceret by The Compound for The Niels Bohr Institute 2012 Produced with support from the Danish Agency for Science, Technology and Innovation How do physicists investigate the smallest components in the universe? A hair is usually a million atoms thick, and the particles which atoms consist of are much smaller. To investigate the smallest components in our universe we actually need to... Københavns Universitets Videoportal 12:32 <p>How do physicists investigate the smallest components in the universe?<br /> A hair is usually a million atoms thick, and the particles which atoms consist of are much smaller. To investigate the smallest components in our universe we actually need to build huge workshops. On CERN physicists have build the worlds largest particle accellerator (Large Hadron Collider) where millions of protons are smashed togeather in search of the univers’ smallest components. In this episode of Universe Of Physics Particle Physicist Troels Petersen shows you how CERN and the Large Hadron Collider work.</p> <p>Length: 12:32<br /> Produceret by The Compound for The Niels Bohr Institute 2012<br /> Produced with support from the Danish Agency for Science, Technology and Innovation</p><p><a href="http://video.ku.dk/photo/4600271/universe-of-physics-part-2-cern-the"><img src="http://video.ku.dk/4465641/4600271/551545127ab08cd4d1120bf750e0fb37/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> CERN Fysik Institutete LHC Niels Physics The bohr institutet particles http://video.ku.dk/photo/4485080/cern-partikelfysik-pa-kanten-til-det <p>Partikelfysikerne er på jagt efter at opklare, hvad universts mindste bestanddele bestod af lige efter Big Bang for 13.7 milliarder år siden. Partikelacceleratoren LHC på CERN giver fysikerne mulighed for at studere vores verden i hidtil ukendt detalje.</p> <p>Produceret af: Niels Bohr Institutet<br /> Varighed: 35:40 min.</p><p><a href="http://video.ku.dk/photo/4485080/cern-partikelfysik-pa-kanten-til-det"><img src="http://video.ku.dk/4465660/4485080/033c72deb54cf9e79b6bfa36aed6d548/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4485080 Wed, 08 Feb 2012 09:37:13 GMT CERN: Partikelfysik på kanten til det ukendte Partikelfysikerne er på jagt efter at opklare, hvad universts mindste bestanddele bestod af lige efter Big Bang for 13.7 milliarder år siden. Partikelacceleratoren LHC på CERN giver fysikerne mulighed for at studere vores verden i hidtil ukendt detalje. Produceret af: Niels Bohr Institutet Varighed: 35:40 min. Partikelfysikerne er på jagt efter at opklare, hvad universts mindste bestanddele bestod af lige efter Big Bang for 13.7 milliarder år siden. Partikelacceleratoren LHC på CERN giver fysikerne mulighed for at studere vores verden i hidtil ukendt... Københavns Universitets Videoportal 35:55 <p>Partikelfysikerne er på jagt efter at opklare, hvad universts mindste bestanddele bestod af lige efter Big Bang for 13.7 milliarder år siden. Partikelacceleratoren LHC på CERN giver fysikerne mulighed for at studere vores verden i hidtil ukendt detalje.</p> <p>Produceret af: Niels Bohr Institutet<br /> Varighed: 35:40 min.</p><p><a href="http://video.ku.dk/photo/4485080/cern-partikelfysik-pa-kanten-til-det"><img src="http://video.ku.dk/4465660/4485080/033c72deb54cf9e79b6bfa36aed6d548/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> CERN Eksperimentel Jørgen Beck Hansen LHC Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet foredrag fysik subatomar http://video.ku.dk/photo/4451934/cern-power-research-in-the-mysteries-of <p>AT the largest particle accelerator, LHC at CERN, researchers collide nuclei and protons at the highest energies ever reached on Earth.</p> <p>It is the largest physics experiment in the world. Here, the highest temperatures in the Universe are produced and measured – and also some of the lowest temperatures in the magnets and the LHC ring. The enormous energies are necessary, for Danish researchers from the Niels Bohr Institute to investigate in detail how the Universe looked in the very first fraction of a second after the Big Bang.</p> <p>The purpose of the experiments is to explore natures fundamental forces, that govern the Universe, in particular the strong and weak forces.</p> <p>These new and spectacular experiments offer completely new possibilities for studying the conditions prevailing in the Universe billions of years ago, only about 1 millionth of a second after its birth.</p> <p>Produced by: The Compound for the Niels Bohr Institute, 2011<br /> Duration: 17:03 min.</p><p><a href="http://video.ku.dk/photo/4451934/cern-power-research-in-the-mysteries-of"><img src="http://video.ku.dk/4309456/4451934/ce6de0d108e51dfd72ccf6071bf7f8fc/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4451934 Thu, 02 Feb 2012 13:10:56 GMT CERN – Power research in the mysteries of the Universe AT the largest particle accelerator, LHC at CERN, researchers collide nuclei and protons at the highest energies ever reached on Earth. It is the largest physics experiment in the world. Here, the highest temperatures in the Universe are produced and measured – and also some of the lowest temperatures in the magnets and the LHC ring. The enormous energies are necessary, for Danish researchers from the Niels Bohr Institute to investigate in detail how the Universe looked in the very first fraction of a second after the Big Bang. The purpose of the experiments is to explore natures fundamental forces, that govern the Universe, in particular the strong and weak forces. These new and spectacular experiments offer completely new possibilities for studying the conditions prevailing in the Universe billions of years ago, only about 1 millionth of a second after its birth. Produced by: The Compound for the Niels Bohr Institute, 2011 Duration: 17:03 min. AT the largest particle accelerator, LHC at CERN, researchers collide nuclei and protons at the highest energies ever reached on Earth. It is the largest physics experiment in the world. Here, the highest temperatures in the Universe are produced... Københavns Universitets Videoportal 17:03 <p>AT the largest particle accelerator, LHC at CERN, researchers collide nuclei and protons at the highest energies ever reached on Earth.</p> <p>It is the largest physics experiment in the world. Here, the highest temperatures in the Universe are produced and measured – and also some of the lowest temperatures in the magnets and the LHC ring. The enormous energies are necessary, for Danish researchers from the Niels Bohr Institute to investigate in detail how the Universe looked in the very first fraction of a second after the Big Bang.</p> <p>The purpose of the experiments is to explore natures fundamental forces, that govern the Universe, in particular the strong and weak forces.</p> <p>These new and spectacular experiments offer completely new possibilities for studying the conditions prevailing in the Universe billions of years ago, only about 1 millionth of a second after its birth.</p> <p>Produced by: The Compound for the Niels Bohr Institute, 2011<br /> Duration: 17:03 min.</p><p><a href="http://video.ku.dk/photo/4451934/cern-power-research-in-the-mysteries-of"><img src="http://video.ku.dk/4309456/4451934/ce6de0d108e51dfd72ccf6071bf7f8fc/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> CERN English FYSIK LHC Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet atomic physics http://video.ku.dk/photo/4451929/cern-powerforskning-i-universets-gader <p>Her i verdens største partikelaccelerator LHC på CERN kolliderer forskerne atomkerne-partikler med højere energi end nogensinde før.</p> <p>Det er verdens største fysik-eksperiment. Her registreres den højeste temperatur målt på Jorden - og nogle af de laveste i minusgrader. De kolossale energier er nødvendige, når man som de danske forskere fra Niels Bohr Institutet forsker i, hvordan universet så ud i det allerførste splitsekund efter Big Bang.</p> <p>Formålet er at udforske de fundamentale naturkræfter, der styrer universet.</p> <p>Nye spektakulære forsøg giver mulighed for helt ny forskning i universets begyndelse for milliarder af år siden - Big Bang.</p> <p>Produceret af: The Compound for Niels Bohr Institutet, 2011<br /> Varighed: 16:23 min.</p><p><a href="http://video.ku.dk/photo/4451929/cern-powerforskning-i-universets-gader"><img src="http://video.ku.dk/4309457/4451929/32b7bcc5077089c1568051efdd3abd60/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4451929 Thu, 02 Feb 2012 13:09:47 GMT CERN – Powerforskning i universets gåder Her i verdens største partikelaccelerator LHC på CERN kolliderer forskerne atomkerne-partikler med højere energi end nogensinde før. Det er verdens største fysik-eksperiment. Her registreres den højeste temperatur målt på Jorden - og nogle af de laveste i minusgrader. De kolossale energier er nødvendige, når man som de danske forskere fra Niels Bohr Institutet forsker i, hvordan universet så ud i det allerførste splitsekund efter Big Bang. Formålet er at udforske de fundamentale naturkræfter, der styrer universet. Nye spektakulære forsøg giver mulighed for helt ny forskning i universets begyndelse for milliarder af år siden - Big Bang. Produceret af: The Compound for Niels Bohr Institutet, 2011 Varighed: 16:23 min. Her i verdens største partikelaccelerator LHC på CERN kolliderer forskerne atomkerne-partikler med højere energi end nogensinde før. Det er verdens største fysik-eksperiment. Her registreres den højeste temperatur målt på Jorden - og nogle af de... Københavns Universitets Videoportal 16:23 <p>Her i verdens største partikelaccelerator LHC på CERN kolliderer forskerne atomkerne-partikler med højere energi end nogensinde før.</p> <p>Det er verdens største fysik-eksperiment. Her registreres den højeste temperatur målt på Jorden - og nogle af de laveste i minusgrader. De kolossale energier er nødvendige, når man som de danske forskere fra Niels Bohr Institutet forsker i, hvordan universet så ud i det allerførste splitsekund efter Big Bang.</p> <p>Formålet er at udforske de fundamentale naturkræfter, der styrer universet.</p> <p>Nye spektakulære forsøg giver mulighed for helt ny forskning i universets begyndelse for milliarder af år siden - Big Bang.</p> <p>Produceret af: The Compound for Niels Bohr Institutet, 2011<br /> Varighed: 16:23 min.</p><p><a href="http://video.ku.dk/photo/4451929/cern-powerforskning-i-universets-gader"><img src="http://video.ku.dk/4309457/4451929/32b7bcc5077089c1568051efdd3abd60/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> CERN Dansk LHC Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet atom atomar fysik fysik http://video.ku.dk/photo/4431909/alice-detektoren-del-2 <p>ALICE er et af verdens største projekter, som forsker i universets fundamentale gåder. Eksperimenterne foregår i atomacceleratoren på CERN i Schweiz.</p> <p>Følg forskerne fra Niels Bohr Institutet i arbejdet med at installere det uhyre fintfølende udstyr, der skal sidde midt inde i en kæmpestor magnet på størrelse med et hus.</p> <p>Produceret af: Niels Bohr Institutet, 2008<br /> Varighed: 13:14 min.</p><p><a href="http://video.ku.dk/photo/4431909/alice-detektoren-del-2"><img src="http://video.ku.dk/4309457/4431909/209ab4b9efc0b6fcb4c9363de9eac33e/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4431909 Wed, 01 Feb 2012 14:48:46 GMT ALICE Detektoren - DEL 2 ALICE er et af verdens største projekter, som forsker i universets fundamentale gåder. Eksperimenterne foregår i atomacceleratoren på CERN i Schweiz. Følg forskerne fra Niels Bohr Institutet i arbejdet med at installere det uhyre fintfølende udstyr, der skal sidde midt inde i en kæmpestor magnet på størrelse med et hus. Produceret af: Niels Bohr Institutet, 2008 Varighed: 13:14 min. ALICE er et af verdens største projekter, som forsker i universets fundamentale gåder. Eksperimenterne foregår i atomacceleratoren på CERN i Schweiz. Følg forskerne fra Niels Bohr Institutet i arbejdet med at installere det uhyre fintfølende... Københavns Universitets Videoportal 13:14 <p>ALICE er et af verdens største projekter, som forsker i universets fundamentale gåder. Eksperimenterne foregår i atomacceleratoren på CERN i Schweiz.</p> <p>Følg forskerne fra Niels Bohr Institutet i arbejdet med at installere det uhyre fintfølende udstyr, der skal sidde midt inde i en kæmpestor magnet på størrelse med et hus.</p> <p>Produceret af: Niels Bohr Institutet, 2008<br /> Varighed: 13:14 min.</p><p><a href="http://video.ku.dk/photo/4431909/alice-detektoren-del-2"><img src="http://video.ku.dk/4309457/4431909/209ab4b9efc0b6fcb4c9363de9eac33e/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> ALICE Atomar Fysik Big Bang CERN Dansk LHC Naturvidenskab Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet http://video.ku.dk/photo/4417150/alice-detektoren-del-1 <p>I fire år har forskerne fra højenergifysik på Niels Bohr Institutet arbejdet på at udvikle og konstruere en detektor, der skal opklare universets mysterier - stoffernes opbygning og de fundamentale fysiske kræfter.</p> <p>Vi følger arbejdet på Niels Bohr Institutet med at opbygge den avancerede detektor, der senere skal installeres i den store atomaccelerator, LHC på CERN, den Europæiske Organisation for Atomforskning ved Génève.</p><p><a href="http://video.ku.dk/photo/4417150/alice-detektoren-del-1"><img src="http://video.ku.dk/4309456/4417150/98ea154b0c21cec0f3424e7f3e0db6b0/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4417150 Thu, 01 Jan 2009 15:32:00 GMT ALICE Detektoren - DEL 1 I fire år har forskerne fra højenergifysik på Niels Bohr Institutet arbejdet på at udvikle og konstruere en detektor, der skal opklare universets mysterier - stoffernes opbygning og de fundamentale fysiske kræfter. Vi følger arbejdet på Niels Bohr Institutet med at opbygge den avancerede detektor, der senere skal installeres i den store atomaccelerator, LHC på CERN, den Europæiske Organisation for Atomforskning ved Génève. I fire år har forskerne fra højenergifysik på Niels Bohr Institutet arbejdet på at udvikle og konstruere en detektor, der skal opklare universets mysterier - stoffernes opbygning og de fundamentale fysiske kræfter. Vi følger arbejdet på Niels Bohr... Københavns Universitets Videoportal 10:11 <p>I fire år har forskerne fra højenergifysik på Niels Bohr Institutet arbejdet på at udvikle og konstruere en detektor, der skal opklare universets mysterier - stoffernes opbygning og de fundamentale fysiske kræfter.</p> <p>Vi følger arbejdet på Niels Bohr Institutet med at opbygge den avancerede detektor, der senere skal installeres i den store atomaccelerator, LHC på CERN, den Europæiske Organisation for Atomforskning ved Génève.</p><p><a href="http://video.ku.dk/photo/4417150/alice-detektoren-del-1"><img src="http://video.ku.dk/4309456/4417150/98ea154b0c21cec0f3424e7f3e0db6b0/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> ALICE Atomar Fysik Big Bang CERN Dansk LHC Naturvidenskab Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet