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/4481577/our-cosmic-roots <p>By scrutinising images from Hubble Ultra Deep Field – the deepest images of the sky ever made – researchers have gained fascinating new insights about the distant universe.</p> <p>Knowledge of our cosmic roots.</p> <p>Duration: 6 min and 30 Seconds.<br /> Produced by: The Niels Bohr Institute, 2008 - Editor: Gertie Skaarup - Film Editor: Rune Eggers Sørensen - Images: Hubble Telescope</p><p><a href="http://video.ku.dk/photo/4481577/our-cosmic-roots"><img src="http://video.ku.dk/4465687/4481577/cc80d9e7fe310db6e4a7984937a68562/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4481577 Tue, 07 Feb 2012 12:41:43 GMT Our cosmic roots By scrutinising images from Hubble Ultra Deep Field – the deepest images of the sky ever made – researchers have gained fascinating new insights about the distant universe. Knowledge of our cosmic roots. Duration: 6 min and 30 Seconds. Produced by: The Niels Bohr Institute, 2008 - Editor: Gertie Skaarup - Film Editor: Rune Eggers Sørensen - Images: Hubble Telescope By scrutinising images from Hubble Ultra Deep Field – the deepest images of the sky ever made – researchers have gained fascinating new insights about the distant universe. Knowledge of our cosmic roots. Duration: 6 min and 30 Seconds. Produced... Københavns Universitets Videoportal 07:27 <p>By scrutinising images from Hubble Ultra Deep Field – the deepest images of the sky ever made – researchers have gained fascinating new insights about the distant universe.</p> <p>Knowledge of our cosmic roots.</p> <p>Duration: 6 min and 30 Seconds.<br /> Produced by: The Niels Bohr Institute, 2008 - Editor: Gertie Skaarup - Film Editor: Rune Eggers Sørensen - Images: Hubble Telescope</p><p><a href="http://video.ku.dk/photo/4481577/our-cosmic-roots"><img src="http://video.ku.dk/4465687/4481577/cc80d9e7fe310db6e4a7984937a68562/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> Cosmos Nature science Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet Rummet Space http://video.ku.dk/photo/4481575/vores-kosmiske-rodder <p>Ved at granske billederne fra Hubble Ultra Deep Field - de mest yderligt-liggende billeder, der nogensinde er lavet af rummet, har forskerne fået helt ny viden om det fjerne univers.</p> <p>Varighed: 6 min og 30 Sekunder<br /> Produceret af: Niels Bohr Institutet, 2008</p><p><a href="http://video.ku.dk/photo/4481575/vores-kosmiske-rodder"><img src="http://video.ku.dk/4465685/4481575/38d6b03039f0fe99ce9041be7b2035b0/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4481575 Tue, 07 Feb 2012 12:40:51 GMT Vores kosmiske rødder Ved at granske billederne fra Hubble Ultra Deep Field - de mest yderligt-liggende billeder, der nogensinde er lavet af rummet, har forskerne fået helt ny viden om det fjerne univers. Varighed: 6 min og 30 Sekunder Produceret af: Niels Bohr Institutet, 2008 Ved at granske billederne fra Hubble Ultra Deep Field - de mest yderligt-liggende billeder, der nogensinde er lavet af rummet, har forskerne fået helt ny viden om det fjerne univers. Varighed: 6 min og 30 Sekunder Produceret af: Niels Bohr... Københavns Universitets Videoportal 07:06 <p>Ved at granske billederne fra Hubble Ultra Deep Field - de mest yderligt-liggende billeder, der nogensinde er lavet af rummet, har forskerne fået helt ny viden om det fjerne univers.</p> <p>Varighed: 6 min og 30 Sekunder<br /> Produceret af: Niels Bohr Institutet, 2008</p><p><a href="http://video.ku.dk/photo/4481575/vores-kosmiske-rodder"><img src="http://video.ku.dk/4465685/4481575/38d6b03039f0fe99ce9041be7b2035b0/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> Naturvidenskab Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet Rummet Space kosmos http://video.ku.dk/photo/4431177/mars-the-phoenix-mission-part-2 <p>After having flown 250 million kilometres through the solar system, Phoenix landed on the 25th of May 2008 in the northern polar region.</p> <p>Here there is water in the form of ice under the surface and now researchers can begin to investigate the habitability of the planet. Just below the surface there could be traces of life – life in the form of microorganisms. Just a week after the landing researchers dig down with the robot arm and take the first spoonful of Martian soil, which will be examined by an instrument on the lander’s deck.</p> <p>Produced by: The Niels Bohr Institute<br /> Duration: 14:52 minutes</p><p><a href="http://video.ku.dk/photo/4431177/mars-the-phoenix-mission-part-2"><img src="http://video.ku.dk/4309457/4431177/c85899d57a0ee722fcb940017e366584/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4431177 Wed, 01 Feb 2012 12:09:23 GMT MARS: The Phoenix Mission, Part 2 After having flown 250 million kilometres through the solar system, Phoenix landed on the 25th of May 2008 in the northern polar region. Here there is water in the form of ice under the surface and now researchers can begin to investigate the habitability of the planet. Just below the surface there could be traces of life – life in the form of microorganisms. Just a week after the landing researchers dig down with the robot arm and take the first spoonful of Martian soil, which will be examined by an instrument on the lander’s deck. Produced by: The Niels Bohr Institute Duration: 14:52 minutes After having flown 250 million kilometres through the solar system, Phoenix landed on the 25th of May 2008 in the northern polar region. Here there is water in the form of ice under the surface and now researchers can begin to investigate the... Københavns Universitets Videoportal 14:52 <p>After having flown 250 million kilometres through the solar system, Phoenix landed on the 25th of May 2008 in the northern polar region.</p> <p>Here there is water in the form of ice under the surface and now researchers can begin to investigate the habitability of the planet. Just below the surface there could be traces of life – life in the form of microorganisms. Just a week after the landing researchers dig down with the robot arm and take the first spoonful of Martian soil, which will be examined by an instrument on the lander’s deck.</p> <p>Produced by: The Niels Bohr Institute<br /> Duration: 14:52 minutes</p><p><a href="http://video.ku.dk/photo/4431177/mars-the-phoenix-mission-part-2"><img src="http://video.ku.dk/4309457/4431177/c85899d57a0ee722fcb940017e366584/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> English Mars Natural science Naturvidenskab Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet Rummet Space http://video.ku.dk/photo/4431159/mars-the-phoenix-mission-part-3 <p>The Phoenix Mars Lander produces power using large solar panels, so it is only during the summer months that the mission has enough sunlight to carry out all of the experiments and the researchers work around the clock. The experiments show, that there is water in the form of ice just below the surface. But are there also other conditions for biological life? That is what the chemical analysis of the soil can reveal. Violent storms blow the dust around in the air and it is captured by the Danish dust magnets on the lander. The dust is being studied by the Danish research team from the Niels Bohr Institute. The actual airborne dust can tell about water’s effect and with that the basis for life on the harsh planet.</p><p><a href="http://video.ku.dk/photo/4431159/mars-the-phoenix-mission-part-3"><img src="http://video.ku.dk/4309457/4431159/0ac96cc0b6c57dcaf1ed1ce8be46f77f/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> http://video.ku.dk/photo/4431159 Wed, 01 Feb 2012 11:14:50 GMT MARS: The Phoenix Mission, Part 3 The Phoenix Mars Lander produces power using large solar panels, so it is only during the summer months that the mission has enough sunlight to carry out all of the experiments and the researchers work around the clock. The experiments show, that there is water in the form of ice just below the surface. But are there also other conditions for biological life? That is what the chemical analysis of the soil can reveal. Violent storms blow the dust around in the air and it is captured by the Danish dust magnets on the lander. The dust is being studied by the Danish research team from the Niels Bohr Institute. The actual airborne dust can tell about water’s effect and with that the basis for life on the harsh planet. The Phoenix Mars Lander produces power using large solar panels, so it is only during the summer months that the mission has enough sunlight to carry out all of the experiments and the researchers work around the clock. The experiments show, that... Københavns Universitets Videoportal 14:45 <p>The Phoenix Mars Lander produces power using large solar panels, so it is only during the summer months that the mission has enough sunlight to carry out all of the experiments and the researchers work around the clock. The experiments show, that there is water in the form of ice just below the surface. But are there also other conditions for biological life? That is what the chemical analysis of the soil can reveal. Violent storms blow the dust around in the air and it is captured by the Danish dust magnets on the lander. The dust is being studied by the Danish research team from the Niels Bohr Institute. The actual airborne dust can tell about water’s effect and with that the basis for life on the harsh planet.</p><p><a href="http://video.ku.dk/photo/4431159/mars-the-phoenix-mission-part-3"><img src="http://video.ku.dk/4309457/4431159/0ac96cc0b6c57dcaf1ed1ce8be46f77f/standard/download-1-thumbnail.jpg" width="600" height="338"/></a></p> English Mars Natural science Naturvidenskab Niels Bohr Institute Niels Bohr Institutet Niels Bohr Instituttet Rummet Space