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