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The Haber-Bosch Process: Nitrogen Fixing the World
 
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National History Day Junior Division Individual Documentary State Qualifier Shanna Martin *ALL VIDEO SOURCES HAVE BEEN CITED IN BIBLIOGRAPHY*
Views: 21102 Shanna Martin
The Haber-Bosch Process
 
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This is Team Bourne-Haber's presentation about the Haber-Bosch process and why we think it is the most important Chemistry discovery in the last 100 years. Enjoy!
Views: 10511 KHSChemists
Industrial implementation of the ammonia synthesis -- How does it work?
 
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In September 1913, the first industrial-scale ammonia production plant came on stream at BASF in Ludwigshafen. The Haber-Bosch process for ammonia synthesis, which was first successfully operated at BASF Ludwigshafen in September 1913, was the decisive step into the age of mineral fertilizers. This innovation became a key driver in the development of the industrialized society and is still securing the nutrition of billions of people today. The foundations for the "Synthesis of ammonia from its elements" were laid by Professor Fritz Haber from 1904 onwards with his work at Karlsruhe Institute of Technology. The industrial upscaling of ammonia synthesis entrusted by BASF to Carl Bosch in 1909, however, initially raised unforeseen problems. Because the high-pressure process required pressures and temperatures considerably exceeding those that had so far been technically possible. The first plants couldn't stand the strain and its steel reactors burst. Bosch the chemist, who was experienced in metallurgy, closely studied the metals that had been used and finally identified the cause: the hot, highly pressurized hydrogen was taking the carbon essential for strength out of the steel walls, making them soft and simultaneously brittle. Bosch overcame this challenge by fitting the inside of the apparatus with a thin lining of low-carbon soft iron and drilling holes in the pressure bearing steel wall. This allowed the hydrogen that had penetrated into the material to escape without causing damage. This innovative high pressure technology required further components that were not available anywhere, and had to be designed and tested within the company. BASF established the chemical industry's first material testing facility for this purpose in 1912. The reactor of the newer ammonia production plant in which the synthesis gas mixture reacts over a catalyst bed at above 400 degrees Celsius and more than 150 bar pressure to produce ammonia, has a 15 centimeter thick wall of high-strength steel. Its advanced alloy resists the pressurized hydrogen, making the legendary casing unnecessary today. The raw material used to generate the synthesis gas is also different today: in the first few decades of the Haber-Bosch process, a large number of employees prepared a bed of glowing coke and passed steam over it. Today, ammonia plants use natural gas as a feedstock and energy source, which also makes up the lion's share of the production costs. At Ludwigshafen site, the ammonia production is the second largest natural gas consumer after the company's own power generating plants. As in the early days, the necessary nitrogen is obtained from the air supply and, for a change, costs nothing at all. More in our Science around us news service: https://www.basf.com/en/company/news-and-media/science-around-us/fertilizer-out-of-thin-air.html We create chemistry. Read more at http://www.basf.com
Views: 146776 BASF
The Haber Process
 
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Views: 49688 Jon Dicks
La importancia de la Dieta Alcalina, por el Dr. Martí Bosch
 
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La importancia de la Dieta Alcalina, por el Dr. Martí Bosch, en las II Jornadas AESMI que tuvo lugar en Madrid los días 29 y 30 de Septiembre 2017. El Dr. Alberto Martí Bosch es licenciado en Cirugía y Medicina por la Universidad Autonoma de Barcelona. Trabajó muchos años con niños como oncólogo pediátrico hasta que dados los escasos resultados que obtenía con los tratamientos convencionales y, sobre todo, viendo día a día el enorme sufrimiento que con ellos les causaba abandonó definitivamente su práctica. Hoy, veinte años después y tras formarse ampliamente en disciplinas que no se enseñan en las facultades de medicina, aborda el cáncer de una forma holística teniendo en cuenta ante todo el principio hipocrático de "Lo primero, no hacer daño". Tratamiento que tiene en cuenta los aspectos psicológicos y emocionales además del físico, ámbito éste en el que desintoxicar, resolver posibles carencias vitamínicas, minerales, ortomoleculares, enzimáticas y hormonales potenciando así el sistema inmune y equilibrare el organismo bioenergéticamente son pasos siempre útiles y necesarios. ------------------------------EVENTO ORGANIZADO POR------------------------------ Asociación Española de Médicos Integrativos http://aesmi.org/ ------------------------------------INFORMACION SOBRE MINDALIA------------------------------ Mindalia.com y Mindalia Televisión son una ONG SIN ANIMO DE LUCRO Si te ha gustado este video, APOYANOS CON UNA DONACION: https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=G58CS4AVKC6BU SUSCRIBETE AL CANAL DE YOUTUBE para no perderte ningún video: http://www.youtube.com/subscription_center?add_user=mindaliacom AYUDA A MINDALIA, SIN PAGAR NI UN SÓLO CÉNTIMO MÁS, CON TUS COMPRAS Y RESERVAS ONLINE: http://helpfree.ly/j20544 MILES DE VIDEOS de conferencias y entrevistas de interés en http://www.mindaliatelevision.com Participa en las CONFERENCIAS EN DIRECTO: http://television.mindalia.com/category/conferencias-en-directo/ -Puedes escuchar este y otros audios en Ivoox: http://mindaliacomradio.ivoox.com PIDE O ENVIA AYUDA http://www.mindalia.com - La Red Social de Ayuda a través del Pensamiento SIGUENOS EN REDES SOCIALES: -Youtube: http://www.youtube.com/mindaliacom -Facebook: https://www.facebook.com/mindalia.ayuda/ -Twitter: http://twitter.com/mindaliacom -Pinterest: https://es.pinterest.com/mindaliacom/ DESCARGATE LAS APLICACIONES MOVILES GRATUITAS: Mindalia Multimedia https://play.google.com/store/apps/details?id=es.app.mindalia_television Mindalia Red de Ayuda https://play.google.com/store/apps/details?id=es.app.mindalia_ayuda&hl=es CONTACTA CON NOSOTROS: http://television.mindalia.com/contacto/ -Skype: mindalia.com ¿Tienes un video que te gustaría que publicáramos? Envíanoslo!!
Views: 123572 Mindalia Televisión
10 billion people for dinner | Nina Fedoroff | TEDxCERN
 
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This talk was given at a local TEDx event, produced independently of the TED Conferences. The world population is estimated to reach 10 billion in the near future. How can we feed so many with our existing resources? Nina Fedoroff gives an overview of what’s needed, highlighting the important role that science has played in developing food and agriculture throughout human history and the solutions it could offer. Nina Fedoroff’s research interests range from the biochemistry of microRNA processing and transposition to the design of greenhouses for hot, humid environments, although she is best known for her pioneering work on plant transposons. A PhD from Rockefeller University, she is an Evan Pugh Professor at Pennsylvania State University. A 2006 National Medal of Science laureate, she served as Science and Technology Adviser to the US Secretary of State and to USAID's administrator. About TEDx, x = independently organized event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
Views: 29605 TEDx Talks
How small molecules can change the world | Rosalie Hocking | TEDxJCUCairns
 
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Changing small molecules has changed the world- for example, the Haber Bosch process that transforms atmospheric nitrogen to agriculturally useful ammonia has ultimately meant that we can feed the world’s 7 billion people - this is a tremendous achievement. However, in the wrong form, in the wrong quantities nitrogen and carbon are just as toxic as lead and mercury. It is therefore critical that we take chemical custodianship find ways to control these molecules. Rosalie Hocking is a chemist who leads a program studying small molecule transformations at James Cook University. Rosalie completed her PhD in physial and inorganic chemistry from the University Sydney in 2004 with Professor Trevor Hambley. She immediately took up a postdoctoral position at Stanford University and Stanford Synchroton radiation laboratory with Professors Ed Solomon, Keith Hodgson and Britt Hedman, developing a range of synchroton based spectroscopic techniques. Since returning to Australia she has held the positions of environmental spectroscopist for CSIRO Land and Water and beam-line research at Monash University, before taking up her current position as senior lecturer in physical and analytical chemistry at James Cook University. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx
Views: 1005 TEDx Talks
Advanced Fertilizer Systems - Why We Need a New Way to Feed the World
 
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Rapid population growth has created overwhelming demand for safe, high quality food sources. The United Nations has forecast that the world’s food production must double by 2050 to keep up with demand. Along with seed and fuel, the cost of synthetic nitrogen fertilization is a major recurring overhead expense for all food producers worldwide. The global nitrogen fertilizer market is expected to top $110 Billion in 2017, and its highly-elastic price is tied directly to global oil prices. Crops need nitrogen for vigorous growth, making it the main component in most plant foods and combination fertilizers. However, farmers lack readily available nitrogen sources and are dependent on mass-manufactured nitrogenous fertilizers using the prevalent 100-year-old Haber-Bosch production process. This process results in high and unstable costs to farmers of all sizes. In addition, conventional large-scale agriculture practices are known to have significant negative environmental impact. The most effective nitrogen fertilizers and pesticides are produced from petrochemical sources or dangerous toxic chemicals. Release to the environment can cause damage to surrounding ecosystems, and residue left on plant products can be hazardous to human health. Farmers are in need of a new solution to the fluctuating costs and harmful environmental effects of mass-manufactured nitrogenous fertilizer products, which are responsible for 2.5 percent of global CO2 releases and much of the world’s fresh-water and pollution. Advanced Fertilizer Systems has developed a plasma reactor unit that can efficiently produce nitrate (plant super food) and hydrogen peroxide (preventative disease treatment) on-site and on-demand by replicating a naturally occurring process utilizing only air, water, and electricity. The highly bio-available nitrogen source is exactly what plants need to grow, and has been engineered for direct application to plant leaves via a water spray in concentrations proven to increase growth. Check out the short video or contact us at [email protected] to learn more.
What Does Nutrient Recycling Mean and How to Recycle Nutrients in Modern Farming
 
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Go to: https://anaerobic-digestion.com/ytductor Nutrient Recycling Defined and How to Recycle Nutrients in Modern Farming. A nutrient cycle (or ecological recycling) is the movement and exchange of organic and inorganic matter back into the production of matter. The nutrient cycle is nature's recycling system. Ecosystems are capable of complete recycling. Complete recycling means that 100% of the waste material can be reconstituted indefinitely. A useful way to think of this is to consider a rain forest, where nutrient cycling is rapid. The hot, damp conditions on the forest floor allow for the rapid decomposition of dead plant material. This provides plentiful nutrients that are easily absorbed by plant roots and regrowth needs no active input of new materials. In principal therefore, such a rain forest is fully sustainable, because it will continue to grow and replenish itself with no more demand in resources other than energy from the sun, assuming the continuation of stable climatic conditions. However, man's activities so far have fallen far short of being sustainable, and nowhere is sustainability more important than in agricultural Nutrient Recycling. The world is using up the available mineral reserves of essential nutrients rapidly, through what is often called "chemical farming". Phosphorous for example, is an essential nutrient needed for all plant growth, which is being allowed to be washed-off into the world's oceans in vast quantities. Unless global farming practices can be altered to provide efficient nutrient recycling within the next generation, man's ability to grow food will be limited by phosphorous shortages. However, one company has a solution for Nutrient Recycling on modern farms which uses the Anaerobic Digestion Process, and at the same time also solves a massive waste problem. That waste is chicken-litter or chicken manure, but the method can equally be applied to other high-ammonia manures. Until now, the use of biogas plants which naturally recycle nutrients, when the disgestate they produce is put back onto the fields, has been limited to dilute manures. But, that is no longer true due to a recent breakthrough by technology provider Ductor Oy.Ductor Oy says that if biogas producers in the EU installed their Nutrient Recycling Process (NRP) as an add-on to their existing anaerobic digestion plants, nutrient recycling could be achieved in modern farming. This can be done easily if these biogas producers replaced expensive maize silage as their digester feed material, with abundant and inexpensive poultry manure. By doing this the producers could achieve a 1 billion euros improvement in their profitability, and simultaneously cut CO2 emissions by 1.5 million tonnes (their own calculation with data from JRC Report EUR 26696, 2014). At the same time this could release more than 811,000 hectares (source: EC IP 10/27 August 2004) of cultivated land currently used in maize production, as a digester feedstock, for a socially and environmentally sustainable use, such as food production. The ammonium sulfate that the NRP would produce is a nitrogen fertilizer.For every ton of poultry manure about 80 kg of ammonium sulfate can be produced, corresponding to 20 kg of ammonium-nitrogen. If the 2.1 billion tonnes of available poultry manure waste were treated by the Ductor Oy NRP, over 30 million barrels of oil could be saved annually. This huge reduction in the use of oil, would come from the reduced energy demand in manufacturing less fertiliser using the Haber-Bosch process, which uses 3,600 kJ for every kg of ammonia produced. In fact, the Haber-Bosch process is a huge single contributer to global Greenhouse Gas Emissions, it being responsible for about 2% of the world's energy consumption. Additionally, as the digestate from biogas production from poultry manure has a reduced nitrogen phosphorus ratio, its use as fertiliser will become easier as the ammonium sulfate produced separates the nitrogen out. That means that phosphorus can be applied separately according to the need of the crop. This way, using the Ductor Oy Nutrient Recycling Process, closes the nutrient cycle for both nitrogen and phosphorus from field to field. At the same time there is hygienisation of the manure, and the prevention of ecologiacally damaging nutrient leakage into ground or flowing waters.Video text based upon an article by By M.Sc. (Econ.) Minna Leppikorpi and Dr. Sci. Ilkka Virkajärvi of Ductor Oy.To find out more about the Ductor Oy NRP click the link below or search for "Ductor Oy" and visit their website. Video created by IPPTS - Contact [email protected] for a quote for your video. Video url on YuTube: https://www.youtube.com/watch?v=ALbYLyvt_I0
Views: 219 AnaerobicDigestion
European Nitrogen Assessment
 
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In a five year project funded by the European Science Foundation programme "Nitrogen in Europe", 200 scientists/experts in the field produced "The European Nitrogen Assessment", which explains the state of the threats to water, air and soil quality and the impacts on biodiversity and climate change in Europe and highlights the possible solutions. The assessment can be downloaded from: http://www.nine-esf.org/ENA-Book Other useful websites: Nitrogen In Europe: http://www.nine-esf.org/ International Nitrogen Initiative: http://initrogen.org/ Task Force on Reactive Nitrogen: http://www.clrtap-tfrn.org/ See also: http://www.nitrogennews.com/ [The full text of the video is as follows:] A message from the European Nitrogen Assessment. 78% of our atmosphere is nitrogen, But most of it is unreactive and no use to plants. We need reactive nitrogen. Reactive nitrogen is essential for growing our food, [apple, crops, nitrogen feeding the world] But reactive nitrogen sources are not enough for our needs. [resource limitation, nitrogen scarcity, fossil nitrogen] So for 100 years we have made our own. [factory, manufacture, Haber Bosch process, nitrogen geoengineering, anthropocene] Without this reactive nitrogen 50% of the human population would not be alive today. [people live and die, food security] Reactive nitrogen benefits us all... It is used to make many products including: Nylon jumpers Melamine lamps Toothpaste Antiperspirant Polyurethane varnish Nylon stockings Floor cleaner Oven cleaner Sun tan lotion Hydrazine rocket fuel Solvents And not forgetting... T.N.T [TNT, bomb, explosion, trinitrotoluene, dynamite, mining] For 100 years nitrogen has been feeding our population and fuelling our wars. [milk churns, tank, shell, weapons, missile, war] Reactive nitrogen is also released unintentionally, by power generation and transport. [light bulb, electricity, car, aeroplane] Our need for food and consumption of energy comes at a cost. [globe, global problem, earth, world] Nitrogen pollution affects our most basic resources. Nitrogen affects our... Water quality Air quality [car exhaust, emissions, particles, bad air] Greenhouse balance [world in our hands, climate change] Ecosystems and biodiversity [forest, sunshine, people] Soil quality [boy playing, scratching surface, leaves] WAGES Through a complex set of interactions nitrogen WAGES WAR on our natural environment. Nitrogen pollution is also costly... 70 to 320 billion € per year across the European Union. [EU, EU27, euro, €70 billion, €320 billion] Nitrogen is one of the BIGGEST challenges of the 21st century. [grand societal challenges] The ENA proposes action in 4 major sectors: Agriculture [dope tractor, crops, fertilizers, animals, livestock] Transport and industry [747 aeroplane flying] Wastewater [tap flowing, liquid nitrogen pollution] Our own choices [woman, man, hopping question mark] Agriculture We need to optimize the use of nitrogen in synthetic fertilizers and manure... [green humming, buzzing manure pile, stink, smell] This reduces nitrogen release to the environment... Transport and industry We need to maximize our use of low combustion technologies and renewables... [perfect pink, wind turbines, new wind farms, emission controls] We have the technology, but more can be achieved... Wastewater We need to use new technology to recycle [blue water recycling logo] N in sewage systems This saves phosphorus too! [bold purple rubber stamp] We are throwing N and € down the drain... [euro, gurgling down the sink] Our own choices We should reduce our nitrogen footprint [annoying orange foot, societal choice, behavioural change] How? Decreasing consumption of 1. Energy [light bulb, insulation, energy saving] 2. Transport [car, automobile, commuting, flying, carbon nitrogen synergy] 3. Animal protein [munching steak, eat less meat and dairy, demitarian] If many of us choose to consume less, we can make a difference....... We need to link... [triangle of coupling approaches, arrows] Science [the evidence base] Policies [government action, international agreements] Our own choices [stakeholder mobilization, awareness raising] We have the solutions... Agriculture [happy tractor] Transport and Industry [zooming plane] Wastewater [wasteful tap] Our own choices [man and woman contemplating change] We just need to act..... [it is up to us] What is stopping us? [barriers to change] For more information The European Nitrogen Assessment www.nine-esf.org/ena [Ends] [Additional ENA video connections: nitro, nitrous, nitrate, ammonia, nitric acid, fixation, solid, liquid, gaseous nitrogen, chemistry, biology, physics, revision, school, university, course, nitrogen pool, flux, store, climate, cool, warm, global dimming, pollute, damage, assimilation, fixation, hypoxia, metabolism, technologies, renewables, protein, energy, funny, fast, solutions]
Views: 16785 nitrogenscientists
Phosphorus ( P ) – Soon a Limiting Factor for Food Production and Life? | СПбГУ | Лекториум
 
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Phosphorus ( P ) – Soon a Limiting Factor for Food Production and Life? | Курс: Köppen International Seminar Series | Лектор: Bodo von Bodungen | Организатор: Санкт-Петербургский Государственный Университет (СПбГУ) Смотрите это видео на Лекториуме: https://lektorium.tv/lecture/23503 Лекция была проведена в рамках KOEPPEN International Seminar Series. The element Phosphorus (P) is among Nitrogen (N) and Carbon ( C ) the most important nutrient for the growth of floral and faunal organisms and thus the production of organic matter on land and in the sea. While there is an ample supply of N and C in the atmosphere - which are introduced to the biosphere by the processes of nitrogen fixation and photosynthesis – P comes from geological deposits, which are of marine origin, mostly stemming from marine sedimentary processes combined with marine transgressions over shallow lowering areas. With the agricultural revolution in the late 19th century and particularly with industrial production of Ammonium from molecular N from the atmosphere with the Haber-Bosch-Procedure early in the 20th century the exploitation of the geological P-deposit increased with an ever growing use of fertilizer after World War II. The lecture will present: – brief chemistry of P, its role in organism `s metabolism; – the forming of phosphorites; – the mineral cycle of P; – locations of deposits and their P loads; – local and global consumption of P in fertilizer; –ideas on how to recycle P and to use it more efficiently. Подписывайтесь на канал: https://www.lektorium.tv/ZJA Следите за новостями: https://vk.com/openlektorium https://www.facebook.com/openlektorium
Views: 390 Лекториум
Why We Don't Use Synthetic Fertilizers
 
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Over the years, we’ve found that compost, worm castings, nitrogen fixing cover crops, and green manures provide more than enough nutrients for our garden to thrive. Today I’ll talk about why we prefer these organic practices over the use of synthetic fertilizers. If you shop on Amazon, you can support OYR simply by clicking this link (bookmark it too) before shopping: http://www.amazon.com/?tag=oneya-20 Sources: 1) "The Truth About Organic Gardening" by Jeff Gillman http://amzn.to/2bJuPH3 2) "Environmental Aspects of Phosphate and Potash Mining": https://www.elaw.org/system/files/PotashMining.pdf OYR is all about growing a lot of food on a little land using sustainable organic methods, while keeping costs and labor at a minimum. Emphasis is placed on improving soil quality with compost, mulch, and compost tea. No store-bought fertilizers, soil amendments, pesticides, compost activators, etc. are used.
6 Chemical Reactions That Changed History
 
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Chemicals React! Get yourself an awesome IOTBS shirt! http://dftba.com/besmart ↓ More info and sources below ↓ For lots more of history’s greatest chemical innovations, check out “The Chemistry Book” by Derek B. Lowe: http://amzn.to/1snWG44 ---- Have an idea for an episode or an amazing science question you want answered? Leave a comment or check us out at the links below! Like us on Facebook: http://www.facebook.com/itsokaytobesmart Follow on Twitter: http://twitter.com/okaytobesmart http://twitter.com/jtotheizzoe Follow on Tumblr: http://www.itsokaytobesmart.com Follow on Instagram: http://instagram.com/jtotheizzoe Follow on Snapchat: YoDrJoe ----------------- It’s Okay To Be Smart is written and hosted by Joe Hanson, Ph.D. Follow me on Twitter: @jtotheizzoe Produced by PBS Digital Studios: http://www.youtube.com/user/pbsdigitalstudios Editing and Motion Graphics by Arts + Labor Music via APM Stock images from SciencePhoto http://www.sciencephoto.com/ and Shutterstock http://www.shutterstock.com Stock footage from Videoblocks (unless otherwise noted) http://www.videoblocks.com
Views: 891263 It's Okay To Be Smart
Thorium.
 
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http://ThoriumRemix.com/ Thorium is an abundant material which can be transformed into massive quantities of energy. To do so efficiently requires a very different nuclear reactor than the kind we use today- Not one that uses solid fuel rods, but a reactor in which the fuel is kept in a liquid state. Not one that uses pressurized water as a coolant, but a reactor that uses chemically stable molten salts. Such a reactor is called a "Molten Salt Reactor". Many different configurations are possible. Some of these configurations can harness Thorium very efficiently. This video explores the attributes of Molten Salt Reactors. Why are they compelling? And why do many people (including myself) see them as the only economical way of fully harnessing ALL our nuclear fuels... including Thorium. This video has been under development since 2012. I hope it conveys to you why I personally find Molten Salt Reactors so compelling, as do the many volunteers and supporters who helped create it. Much of the footage was shot by volunteers. All music was created by: http://kilowattsmusic.com To support this project, please visit: https://patreon.com/thorium Entities pursuing Molten Salt Reactors are... Flibe Energy - http://flibe-energy.com/ Terrestrial Energy - http://terrestrialenergy.com/ Moltex Energy - http://www.moltexenergy.com/ ThorCon Power - http://thorconpower.com/ Transatomic - http://www.transatomicpower.com/ Seaborg - http://seaborg.co/ Copenhagen Atomics - http://www.copenhagenatomics.com/ TerraPower - http://terrapower.com/ Bhabha Atomic Research Centre - http://www.barc.gov.in/ Chinese Academy of Sciences - http://english.cas.cn/ Regular Thorium conferences are organized by: http://thoriumenergyalliance.com/ http://thoriumenergyworld.com/ Table of Contents 0:00:00 Space 0:17:29 Constraints 0:28:22 Coolants 0:40:15 MSRE 0:48:54 Earth 0:59:46 Thorium 1:22:03 LFTR 1:36:13 Revolution 1:44:58 Forward 1:58:11 ROEI 2:05:41 Beginning 2:08:36 History 2:38:59 Dowtherm 2:47:57 Salt 2:51:44 Pebbles 3:06:07 India 3:18:44 Caldicott 3:35:55 Fission 3:56:22 Spectrum 4:04:25 Chemistry 4:12:51 Turbine 4:22:27 Waste 4:40:15 Decommission 4:54:39 Candlelight 5:13:06 Facts 5:26:08 Future 5:55:39 Pitches 5:56:17 Terrestrial 6:08:33 ThorCon 6:11:45 Flibe 6:20:51 End 6:25:53 Credits Some of this footage is remixed from non-MSR related sources, to help explain the importance of energy for both space exploration and everyday life here on Earth. Most prominently... Pandora's Promise - https://youtu.be/bDw3ET3zqxk Dr. Neil DeGrasse Tyson - https://youtu.be/Pun76NZMjCk Dr. Robert Zubrin - https://youtu.be/EKQSijn9FBs Mars Underground - https://youtu.be/tcTZvNLL0-w Andy Weir & Adam Savage - https://youtu.be/5SemyzKgaUU Periodic Table Videos - https://youtube.com/channel/UCtESv1e7ntJaLJYKIO1FoYw
Views: 124475 gordonmcdowell
Why I Prefer Leaves over Rock Dust to Remineralize Soil
 
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Why rely on explosives, drills, crushers, and fossil fuels when we have roots and leaves? I present my case for preferring leaves over rock dust as a mineral amendment. If you shop on Amazon, you can support OYR simply by clicking this link (bookmark it too) before shopping: http://www.amazon.com/?tag=oneya-20 Stephen's Video: https://www.youtube.com/watch?v=PkOwPAPDAZ0 Stephen's Lab Results: http://www.albertaurbangarden.ca/wp-content/uploads/2015/01/150110_AlbertaUrbanGardenCertificateofAnalysis-RevistedReport.pdf OYR is all about growing a lot of food on a little land using sustainable organic methods, while keeping costs and labor at a minimum. Emphasis is placed on improving soil quality with compost, mulch, and compost tea. No store-bought fertilizers, soil amendments, pesticides, compost activators, etc. are used.
Johan Rockstrom: Let the environment guide our development
 
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http://www.ted.com Human growth has strained the Earth's resources, but as Johan Rockstrom reminds us, our advances also give us the science to recognize this and change behavior. His research has found nine "planetary boundaries" that can guide us in protecting our planet's many overlapping ecosystems. TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes. Featured speakers have included Al Gore on climate change, Philippe Starck on design, Jill Bolte Taylor on observing her own stroke, Nicholas Negroponte on One Laptop per Child, Jane Goodall on chimpanzees, Bill Gates on malaria and mosquitoes, Pattie Maes on the "Sixth Sense" wearable tech, and "Lost" producer JJ Abrams on the allure of mystery. TED stands for Technology, Entertainment, Design, and TEDTalks cover these topics as well as science, business, development and the arts. Closed captions and translated subtitles in a variety of languages are now available on TED.com, at http://www.ted.com/translate. Watch a highlight reel of the Top 10 TEDTalks at http://www.ted.com/index.php/talks/top10
Views: 169403 TED
European Nitrogen Assessment
 
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In a five year project funded by the European Science Foundation programme "Nitrogen in Europe", 200 scientists/experts in the field produced "The European Nitrogen Assessment", which explains the state of the threats to water, air and soil quality and the impacts on biodiversity and climate change in Europe and highlights the possible solutions. The assessment can be downloaded from: http://www.nine-esf.org/ENA-Book Other useful websites: Nitrogen In Europe: http://www.nine-esf.org/ International Nitrogen Initiative: http://initrogen.org/ Task Force on Reactive Nitrogen: http://www.clrtap-tfrn.org/ See also: http://www.nitrogennews.com/ [The full text of the video is as follows:] A message from the European Nitrogen Assessment. 78% of our atmosphere is nitrogen, But most of it is unreactive and no use to plants. We need reactive nitrogen. Reactive nitrogen is essential for growing our food, [apple, crops, nitrogen feeding the world] But reactive nitrogen sources are not enough for our needs. [resource limitation, nitrogen scarcity, fossil nitrogen] So for 100 years we have made our own. [factory, manufacture, Haber Bosch process, nitrogen geoengineering, anthropocene] Without this reactive nitrogen 50% of the human population would not be alive today. [people live and die, food security] Reactive nitrogen benefits us all... It is used to make many products including: Nylon jumpers Melamine lamps Toothpaste Antiperspirant Polyurethane varnish Nylon stockings Floor cleaner Oven cleaner Sun tan lotion Hydrazine rocket fuel Solvents And not forgetting... T.N.T [TNT, bomb, explosion, trinitrotoluene, dynamite, mining] For 100 years nitrogen has been feeding our population and fuelling our wars. [milk churns, tank, shell, weapons, missile, war] Reactive nitrogen is also released unintentionally, by power generation and transport. [light bulb, electricity, car, aeroplane] Our need for food and consumption of energy comes at a cost. [globe, global problem, earth, world] Nitrogen pollution affects our most basic resources. Nitrogen affects our... Water quality Air quality [car exhaust, emissions, particles, bad air] Greenhouse balance [world in our hands, climate change] Ecosystems and biodiversity [forest, sunshine, people] Soil quality [boy playing, scratching surface, leaves] WAGES Through a complex set of interactions nitrogen WAGES WAR on our natural environment. Nitrogen pollution is also costly... 70 to 320 billion € per year across the European Union. [EU, EU27, euro, €70 billion, €320 billion] Nitrogen is one of the BIGGEST challenges of the 21st century. [grand societal challenges] The ENA proposes action in 4 major sectors: Agriculture [dope tractor, crops, fertilizers, animals, livestock] Transport and industry [747 aeroplane flying] Wastewater [tap flowing, liquid nitrogen pollution] Our own choices [woman, man, hopping question mark] Agriculture We need to optimize the use of nitrogen in synthetic fertilizers and manure... [green humming, buzzing manure pile, stink, smell] This reduces nitrogen release to the environment... Transport and industry We need to maximize our use of low combustion technologies and renewables... [perfect pink, wind turbines, new wind farms, emission controls] We have the technology, but more can be achieved... Wastewater We need to use new technology to recycle [blue water recycling logo] N in sewage systems This saves phosphorus too! [bold purple rubber stamp] We are throwing N and € down the drain... [euro, gurgling down the sink] Our own choices We should reduce our nitrogen footprint [annoying orange foot, societal choice, behavioural change] How? Decreasing consumption of 1. Energy [light bulb, insulation, energy saving] 2. Transport [car, automobile, commuting, flying, carbon nitrogen synergy] 3. Animal protein [munching steak, eat less meat and dairy, demitarian] If many of us choose to consume less, we can make a difference....... We need to link... [triangle of coupling approaches, arrows] Science [the evidence base] Policies [government action, international agreements] Our own choices [stakeholder mobilization, awareness raising] We have the solutions... Agriculture [happy tractor] Transport and Industry [zooming plane] Wastewater [wasteful tap] Our own choices [man and woman contemplating change] We just need to act..... [it is up to us] What is stopping us? [barriers to change] For more information The European Nitrogen Assessment www.nine-esf.org/ena [Ends] [Additional ENA video connections: nitro, nitrous, nitrate, ammonia, nitric acid, fixation, solid, liquid, gaseous nitrogen, chemistry, biology, physics, revision, school, university, course, nitrogen pool, flux, store, climate, cool, warm, global dimming, pollute, damage, assimilation, fixation, hypoxia, metabolism, technologies, renewables, protein, energy, funny, fast, solutions]
Views: 1 Claudia Cordovil
Author of "Infinite Resource" Ramez Naam | Singularity University
 
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Climate Change. Finite Fossil Fuels. Fresh Water Depletion. Ocean Acidification. Overpopulation. Deforestation. Feeding the World's Billions. Rising Commodity Prices. We're beset by an array of natural resource and environmental challenges. They pose a tremendous risk to human prosperity, to world peace, and to the planet itself. Yet, if we act, these problems are addressable. Throughout history we've overcome similar problems, but only when we've focused our energies on innovation. In this remarkable book, Ramez Naam charts a course to supercharge innovation by changing the rules of our economy that will lead the whole world to greater wealth and human well-being, even as we dodge looming resource crunches and reduce our impact on the planet. Subscribe: http://bit.ly/1Wq6gwm Connect with Singularity University: Website: http://singularityu.org Singularity Hub: http://singularityhub.com Facebook: https://www.facebook.com/singularityu Twitter: https://twitter.com/singularityu Linkedin: https://www.linkedin.com/company/singularity-university About Singularity University: Singularity University is a benefit corporation headquartered at NASA's research campus in Silicon Valley. We provide educational programs, innovative partnerships and a startup accelerator to help individuals, businesses, institutions, investors, NGOs and governments understand cutting-edge technologies, and how to utilize these technologies to positively impact billions of people.
Carbon Capture using Nitrogen-Selective Membrane Processes
 
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Presented by Jennifer Wilcox - Department of Energy Resources Engineering, Stanford University
Fusion farming in 90 seconds
 
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Fusion farming is all about the NITROGEN cycle on the farm. It will eliminate the liabilities and captialize on the assets represented by nitrogen. N2 Applied is in the process of developing a fusion farming technology that will enable the farmer to recycle and produce his or her own nitrogen. The objective of the technology is to eliminate 95-100 % of the NH3 emissions from feedstock manure and at the same time make the farmer's need to buy mineral fertilizer redundant. The technology being developed is able to fixate nitrogen directly from air. N2 Applied is using modern process technology on professor Birkeland's old electric arc principle. A test unit is built in cooperation with SBI GmbH in Hollabrunn, Austeria -- optimization is ongoing. Fusion farming combines resource management and sustainablitity from organic agriculture with large crops from traditional farming.
Views: 2639 Grete Sønsteby
What We Need to Know to Meet the Sustainability Challenges of the Next Half-Century
 
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What We Need to Know to Meet the Sustainability Challenges of the Next Half-Century
Views: 5240 JCCCvideo
ReforMax® and AmoMax® - Innovative chemical technology in the fight against hunger
 
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Urgently needed fertilizers can be produced more efficiently using highly effective ammonia synthesis catalysts It's getting crowded on our blue planet. By 2050, the world population is set to grow to nine billion, from the present seven billion. At the same time, agriculturally productive areas are shrinking due to the increasing growth of cities and deserts. Meeting the nutritional needs of the growing world population will mean having to increase harvest yields per area by efficient fertilization. A humble molecule will play a central role in achieving this goal: ammonia, which is the main component of artificial fertilizer. Ammonia is vital for life but its production also consumes vast amounts of energy. To make the production process -- unchanged for almost one hundred years -- more energy-conserving, the chemical company Clariant has launched highly active catalysts onto the market. »With our ReforMax® and the innovative AmoMax®-10, we are optimizing the synthesis of ammonia. Especially in the final, energy intensive stage of the synthesis we can significantly reduce the pressure in the reactor and simultaneously shorten the catalyst activation time,« explains Dr. Stefan Gebert, Product Manager for Chemical Catalysts at Clariant. »Ammonia synthesis now needs much less energy, while also providing an optimal ammonia yield.« This conserves resources and spares the environment.
Views: 912 Clariant
Artritis y artrosis, cómo tratarlas de forma natural por Adolfo Pérez Agustí
 
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Artritis y artrosis, cómo tratarlas de forma natural por Adolfo Pérez Agustí, que tuvo lugar en Madrid el 20 de Julio de 2016. Adolfo Pérez Agustí es un reconocido Naturópata, autor de más de 50 libros sobre Medicina Natural, además de Profesor de Enfermería y Geriatría, dedicado desde hace ya casi 40 años a la divulgación y docencia de la Medicina Natural. Dedicado íntegramente a las Ciencias de la Salud, aboga en sus escritos por una Medicina más holística, es decir, la curación del enfermo mediante el trato conjunto de su cuerpo, mente y alma, evitando siempre que sea posible la utilización de elementos químicos, pues de nada vale mejorar un órgano si perjudicamos a otro. http://www.edicionesmasters.com ----------------------------------------- http://www.mindalia.com - La Red Social de Ayuda a través del Pensamiento http://www.mindaliaradio.com - La Radio del Pensamiento Positivo http://www.circulosdeayuda.com Los videos de esta y otras conferencias y entrevistas de interés en http://www.mindaliatelevision.com Puedes escuchar este y otros audios en http://mindaliacomradio.ivoox.com
Views: 2598959 Mindalia Televisión
The Energy Problem and the Interplay between Basic and Applied Research
 
01:09:52
Steven Chu (b. 1948) served as secretary of the United States Department of Energy from 2009 to 2013 and was co-winner of the 1997 Nobel Prize for Physics for his work in methods to cool and trap atoms with laser light. Dr. Chu was born in St. Louis, Missouri, into a family of scholars who placed an enormous value on education. Both his father and mother studied at MIT, in chemical engineering and economics, respectively, and they nurtured intellectual curiosity in their children. As a young child, Dr. Chu built model airplanes and warships, graduated to Erector Sets, and later, spent his school lunch money on parts for homemade rockets that he constructed with a friend. He matriculated to the University of Rochester, where he developed a love for physics and mathematics, and from which he graduated in 1970. In 1976, after completing his graduate and postdoctoral work at the University of California at Berkeley, Dr. Chu spent nine years at Bell Laboratories. The atmosphere at Bell Labs during that period (1978–1987) was one “permeated by the joy and excitement of doing science,” according to Dr. Chu, and his work there led to the laser cooling and trapping of atoms for which he was awarded the Nobel Prize. In 1987, Dr. Chu returned to California as professor of physics and applied physics at Stanford University, where he taught until 2009. From 2004–2009, he directed the Lawrence Berkeley National Laboratory (a US Department of Energy laboratory operated by the University of California) while continuing to teach physics at Stanford. Dr. Chu’s appointment to the Cabinet recognized his commitment to addressing energy challenges of all types, including energy efficiency, greenhouse gas emissions, and the nation’s dependence on foreign oil. As secretary, Dr. Chu was dedicated to supporting companies that are working to refine existing green technologies (such as better batteries for plug-in hybrids and electric vehicles) and to moving those technologies into the marketplace. Learn more about Steven Chu through the US Department of Energy or via his autobiography on the Nobel Prize website.
How Sustainable is Organic Agriculture?
 
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Daniel Anderson, UIUC Dept. of Natural Resources and Environmental Sciences
Stanley Meyer BUILD GUIDE Alternator Stator Windings Rotor HHo Hydrogen 9XG
 
02:16:08
We have several Websites and I am available day night, I do ask people subscribe $25 per your for access and guidance it helps keep me connected available giving priority and lights on. Here is Invite link for subscribe https://form.jotform.me/81181140634448 I will send user name and password and allow 24 /48 hr for me to read email and do that for you. Topics Efficient Voltrolysis Methods Increasing Energy Density Controlling Period of higher Energy state effectively General Guidance Safety and Measurement Energy Storage Distribution Rare parts Supply & Access Warm Regards Daniel Donatelli Founder Secure Supplies Whatsapp + 66 83 647 3443 Skype [email protected] email [email protected] [email protected] https://danieldonatelli.wixsite.com/hydrogen-power-gas main
Tudo se transforma, Reações Químicas, Fritz Haber e a síntese da amônia
 
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Produção audiovisual produzida pela PUC Rio em parceria com o Ministério da Educação, o Ministério da Ciência e Tecnologia e o Fundo Nacional de Desenvolvimento da Educação. Integra uma série de 6 programas (120 episódios) dedicados ao apoio do ensino de Química no Ensino Médio.
Views: 38221 ccead puc-rio
Jonathan Haidt: The moral roots of liberals and conservatives
 
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Psychologist Jonathan Haidt studies the five moral values that form the basis of our political choices, whether we're left, right or center. In this eye-opening talk, he pinpoints the moral values that liberals and conservatives tend to honor most.
Views: 427478 TED
Life’s Engines: How Microbes Made Earth Habitable
 
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Paul Falkowski, Distinguished Professor, Bennett L. Smith Chair in Business and Natural Resources, Departments of Earth and Planetary Sciences and Marine and Coastal Sciences, Rutgers University For almost four billion years, microbes had the primordial oceans all to themselves. Over time, they transformed the chemistry of our planet, making it habitable for plants, animals, and humans. Paul Falkowski will discuss how microbes made life on Earth possible—and how human life would cease without them today. By examining the inner workings of these miniature “engines” and the processes by which they are built and assembled—like building blocks— within every creature that walks, swims, or flies, he will reveal how microbes are the great stewards of life on Earth. Evolution Matters Lecture Series Series supported by a generous gift from Drs. Herman and Joan Suit Recorded 4/3/18
300 Years of FOSSIL FUELS in 300 Seconds
 
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*** (19. MARCH 2011) WINNER OF YOUTUBE'S BEST NONPROFIT VIDEO AWARD!!! *** Fossil fuels have powered human growth and ingenuity for centuries. Now that we're reaching the end of cheap and abundant oil and coal supplies, we're in for an exciting ride. While there's a real risk that we'll fall off a cliff, there's still time to control our transition to a post-carbon future. A deeper analysis of the crises we face, and possible solutions we can work on right now can be had HERE: http://j.mp/PCReader +++ TRANSLATIONS currently uploaded as Closed Captions -- Dutch, English, Hungarian, Italian, Korean, Polish, Romanian, Russian, Slovak, Spanish, Swedish. OTHER TRANSLATIONS: SPANISH DUBBED: http://www.youtube.com/watch?v=wIydcOn_3kI PORTUGUESE: http://www.youtube.com/watch?v=9l6jkqv63lU HEBREW: http://www.youtube.com/watch?v=u4zP4Xhj4AQ SIMPLIFIED CHINESE subtitles: http://www.tudou.com/playlist/p/l11764222i95039245.html TRADITIONAL CHINESE subtitles: http://www.youtube.com/watch?v=SOBSAYP1LpU FRENCH subtitles: http://www.youtube.com/watch?v=a5SaC-luI98, dubbed http://www.youtube.com/watch?v=EeEU_uy4YrQ&feature=player_embedded SONG CREDIT: "Can I Kick It?" by Tribe Called Quest
Views: 1580946 postcarboninstitute
La Osteoporosis no es una cuestión ni de Calcio ni de Lácteos, por la Dra. Olga Cuevas
 
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La osteoporosis no es una cuestión ni de calcio ni de lácteos por Dra .Olga Cuevas, en la X feria alimentación y salud que tuvo lugar en Balaguer (Lleida) los días 21 y 22 de Octubre 2017. Por mucho que insistan, la osteoporosis no depende de tomar más o menos lácteos. Las recomendaciones actuales de calcio, y de lácteos, están sobreestimadas y, además, el calcio es un elemento que se puede conseguir de muchos otros alimentos. El hueso es un tejido que no depende de un único mineral y, ni mucho menos, de un único alimento. Una alimentación sana, libre de ultraprocesados cargados de sal y azúcar, la exposición solar, así como el ejercicio físico, son algunos de los factores clave para gozar de una buena salud ósea. Curriculum vitae Doctora en bioquímica, especialista en alimentación y salud natural. En 1999 publicó su primer libro, El equilibrio a través de la alimentación, que para muchos ha sido el referente de la alimentación sana, y en 2011 lanzó el segundo, Tratamientos naturales al alcance de todos. Pasó de la investigación en innovación de fármacos en el CSIC de Madrid y de catedrática de enseñanza secundaria de física y química a dedicarse en cuerpo y alma a divulgar, enseñar y practicar lo que más le apasiona. Son casi 40 años los que lleva dedicados a la alimentación y la salud natural, durante 11 años fue directora del Instituto de Formación Profesional Sanitaria Roger de Llúria (Barcelona) y actualmente es docente en varios másteres y postgrados universitarios, así como conferenciante en congresos y charlas en toda la geografía española. ------------------EVENTO ORGANIZADO POR--------------------------- Slow Food terres de Lleida http://slowfoodterresdelleida.com/ Dolça Revolució https://dolcarevolucio.cat/language/es/portada/ Web del evento: http://alimentacioisalut.com/ ------------------INFORMACION SOBRE MINDALIA------------------- Mindalia.com y Mindalia Televisión son una ONG SIN ANIMO DE LUCRO Si te ha gustado este video, APOYANOS CON UNA DONACION: https://www.mindaliatelevision.com/hacer-una-donacion-mindalia/ SUSCRIBETE AL CANAL DE YOUTUBE para no perderte ningún video: http://www.youtube.com/subscription_center?add_user=mindaliacom AYUDA A MINDALIA, SIN PAGAR NI UN SÓLO CÉNTIMO MÁS, CON TUS COMPRAS Y RESERVAS ONLINE: http://helpfree.ly/j20544 MILES DE VIDEOS de conferencias y entrevistas de interés en http://www.mindaliatelevision.com Participa en las CONFERENCIAS EN DIRECTO: http://television.mindalia.com/category/conferencias-en-directo/ -Puedes escuchar este y otros audios en Ivoox: http://mindaliacomradio.ivoox.com PIDE O ENVIA AYUDA http://www.mindalia.com - La Red Social de Ayuda a través del Pensamiento SIGUENOS EN REDES SOCIALES: -Youtube: http://www.youtube.com/mindaliacom -Facebook: https://www.facebook.com/mindalia.ayuda/ -Twitter: http://twitter.com/mindaliacom -Pinterest: https://es.pinterest.com/mindaliacom/ DESCARGATE LAS APLICACIONES MOVILES GRATUITAS: Mindalia Multimedia https://play.google.com/store/apps/details?id=es.app.mindalia_television Mindalia Red de Ayuda https://play.google.com/store/apps/details?id=es.app.mindalia_ayuda&hl=es CONTACTA CON NOSOTROS: http://television.mindalia.com/contacto/ -Skype: mindalia.com ¿Tienes un video que te gustaría que publicáramos? Envíanoslo!!
Views: 809831 Mindalia Televisión
Hydrogenation
 
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Hydrogenation – to treat with hydrogen – is a chemical reaction between molecular hydrogen (H2) and another compound or element, usually in the presence of a catalyst such as nickel, palladium or platinum. The process is commonly employed to reduce or saturate organic compounds. Hydrogenation typically constitutes the addition of pairs of hydrogen atoms to a molecule, generally an alkene. Catalysts are required for the reaction to be usable; non-catalytic hydrogenation takes place only at very high temperatures. Hydrogenation reduces double and triple bonds in hydrocarbons. Because of the importance of hydrogen, many related reactions have been developed for its use. Most hydrogenations use gaseous hydrogen (H2), but some involve the alternative sources of hydrogen, not H2: these processes are called transfer hydrogenations. The reverse reaction, removal of hydrogen from a molecule, is called dehydrogenation. A reaction where bonds are broken while hydrogen is added is called hydrogenolysis, a reaction that may occur to carbon-carbon and carbon-heteroatom (oxygen, nitrogen or halogen) bonds. Hydrogenation differs from protonation or hydride addition: in hydrogenation, the products have the same charge as the reactants. This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 3614 Audiopedia
Sodium nitrate
 
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Sodium nitrate is the chemical compound with the formula NaNO3. This salt is also known as Chile saltpeter or Peru saltpeter (due to the large deposits found in the Atacama desert in these countries) to distinguish it from ordinary saltpeter, potassium nitrate. The mineral form is also known as nitratine, nitratite or soda niter. Sodium nitrate is a white solid which is very soluble in water. It is a readily available source of the nitrate anion (NO3−), which is useful in several reactions carried out on industrial scales for the production of fertilizers, pyrotechnics and smoke bombs, glass and pottery enamels, food preservatives (esp. meats), and solid rocket propellant. It has been mined extensively for these purposes. This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 3382 Audiopedia
Nitrogen
 
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Nitrogen, symbol N, is the chemical element of atomic number seven. At room temperature, it is a gas of diatomic molecules and is colorless and odorless. Nitrogen is a common element in the universe, estimated at about seventh in total abundance in our galaxy and the Solar System. On Earth, the element is primarily found as the gas molecule; it forms about 78% of Earth's atmosphere. The element nitrogen was discovered as a separable component of air, by Scottish physician Daniel Rutherford, in 1772. Many industrially important compounds, such as ammonia, nitric acid, organic nitrates (propellants and explosives), and cyanides, contain nitrogen. The extremely strong bond in elemental nitrogen dominates nitrogen chemistry, causing difficulty for both organisms and industry in converting the N This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 363 Audiopedia
Cómo enfrentar el cáncer desde la serenidad y la cordura por el Dr. Martí Bosch - Parte 1
 
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Cómo enfrentar el cáncer desde la serenidad y la cordura por el Dr. Martí Bosch, Licenciado en Cirugía y Medicina y oncólogo pediatra en la Feria de Alimentación y Salud que tuvo lugar el día 5 y 6 de Octubre del 2013 en Balaguer, Lleida. El cáncer se nos presenta como una enfermedad que nos aboca a la cronicidad o a la muerte ¡ no tiene por qué ser así ! No tiene por qué ser crónica ni tiene porque tener un desenlace fatalista. Hay pacientes que llegan a situaciones no reversibles, pero en la mayoría de los casos ésta situación no es así. No sólo se tratará de ampliar los medios para frenar dicho proceso, sino que también se tratará de exponer unos medios complementarios para evitar así la recidiva y recuperar la salud. También se tratará de plantear los recursos complementarios de los que podemos disponer para que los que no tengan cáncer lo puedan prevenir. Hay un mundo de medios: El mundo de la nutrición El mundo de los cuidaos corporales. El mundo de las plantas El mundo de la Homeopatía El mundo de los oligoelementos El mundo de la medicina ortomolecular (Vitaminas, enzymas, aminoácidos) El mundo de las vacunas autólogas El mundo de la Ozonoterapia. El mundo de la Hidrología médica. El munod de las energías sutiles. "Reiki, Shiatsu, Digitopuntura, etc." El mundo de la acupuntura El mundo de la mente El mundo del amor. Etc. El Dr. Alberto Martí Bosch es licenciado en Cirugía y Medicina por la Universidad Autonoma de Barcelona. Trabajó muchos años con niños como oncólogo pediátrico hasta que dados los escasos resultados que obtenía con los tratamientos convencionales y, sobre todo, viendo día a día el enorme sufrimiento que con ellos les causaba abandonó definitivamente su práctica. Hoy, veinte años después y tras formarse ampliamente en disciplinas que no se enseñan en las facultades de medicina, aborda el cáncer de una forma holística teniendo en cuenta ante todo el principio hipocrático de "Lo primero, no hacer daño". Tratamiento que tiene en cuenta los aspectos psicológicos y emocionales además del físico, ámbito éste en el que desintoxicar, resolver posibles carencias vitamínicas, minerales, ortomoleculares, enzimáticas y hormonales potenciando así el sistema inmune y equilibrare el organismo bioenergéticamente son pasos siempre útiles y necesarios. ----------------------------------------­----------------------------------------­------- http://www.alimentacioisalut.com/ ------------------------------------INFORMACION SOBRE MINDALIA------------------------------ Mindalia.com y Mindalia Televisión son una ONG SIN ANIMO DE LUCRO Si te ha gustado este video, APOYANOS CON UNA DONACION: https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=G58CS4AVKC6BU SUSCRIBETE AL CANAL DE YOUTUBE para no perderte ningún video: http://www.youtube.com/subscription_center?add_user=mindaliacom MILES DE VIDEOS de conferencias y entrevistas de interés en http://www.mindaliatelevision.com Participa en las CONFERENCIAS EN DIRECTO: http://television.mindalia.com/category/conferencias-en-directo/ -Puedes escuchar este y otros audios en Ivoox: http://mindaliacomradio.ivoox.com PIDE O ENVIA AYUDA http://www.mindalia.com - La Red Social de Ayuda a través del Pensamiento SIGUENOS EN REDES SOCIALES: -Youtube: http://www.youtube.com/mindaliacom -Facebook: https://www.facebook.com/mindalia.ayuda/ -Twitter: http://twitter.com/mindaliacom -Pinterest: https://es.pinterest.com/mindaliacom/ DESCARGATE LAS APLICACIONES MOVILES GRATUITAS: Mindalia Multimedia https://play.google.com/store/apps/details?id=es.app.mindalia_television Mindalia Red de Ayuda https://play.google.com/store/apps/details?id=es.app.mindalia_ayuda&hl=es CONTACTA CON NOSOTROS: http://television.mindalia.com/contacto/ -Skype: mindalia.com ¿Tienes un video que te gustaría que publicáramos? Envíanoslo!!
Views: 347415 Mindalia Televisión
Organic farming
 
01:06:38
Organic farming is a form of agriculture that relies on techniques such as crop rotation, green manure, compost, and biological pest control. Depending on whose definition is used, organic farming uses fertilizers and pesticides (which include herbicides, insecticides and fungicides) if they are considered natural (such as bone meal from animals or pyrethrin from flowers), but it excludes or strictly limits the use of various methods (including synthetic petrochemical fertilizers and pesticides; plant growth regulators such as hormones; antibiotic use in livestock; genetically modified organisms; human sewage sludge; and nanomaterials.) for reasons including sustainability, openness, independence, health, and safety. Organic agricultural methods are internationally regulated and legally enforced by many nations, based in large part on the standards set by the International Federation of Organic Agriculture Movements (IFOAM), an international umbrella organization for organic farming organizations established in 1972. The USDA National Organic Standards Board (NOSB) definition as of April 1995 is: This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 361 Audiopedia
Osmium
 
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Osmium (from Greek osme (ὀσμή) meaning "smell") is a chemical element with the symbol Os and atomic number 76. It is a hard, brittle, bluish-white transition metal in the platinum group that is found as a trace element in alloys, mostly in platinum ores. Osmium is the densest naturally occurring element, with a density of 22.59 g/cm3. Its alloys with platinum, iridium, and other platinum group metals are employed in fountain pen tips, electrical contacts, and other applications where extreme durability and hardness are needed. This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 2184 Audiopedia
Fertilizer
 
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Fertilizer (or fertiliser) is any organic or inorganic material of natural or synthetic origin (other than liming materials) that is added to soil to supply one or more plant nutrients essential to the growth of plants. Conservative estimates report 30 to 50% of crop yields are attributed to natural or synthetic commercial fertilizer. Global market value is likely to rise to more than US$185 billion until 2019. The European fertilizer market will grow to earn revenues of approx. €15.3 billion in 2018. Mined inorganic fertilizers have been used for many centuries, whereas chemically synthesized inorganic fertilizers were only widely developed during the industrial revolution. Increased understanding and use of fertilizers were important parts of the pre-industrial British Agricultural Revolution and the industrial Green Revolution of the 20th century. This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 162 Audiopedia
Energy Cultures in the Age of the Anthropocene: Charles Mann
 
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Charles Mann, journalist author of bestsellers 1491 and 1493, the former of which won the U.S. National Academic of Sciences Keck Award in 2006 for best book of the year. A correspondent for The Atlantic Monthly, Science, and Wired, Mann covers issues relating to the intersection of science, technology, and commerce. He is now working on a book about energy and had a cover story in the May 2013 issue of The Atlantic, “What If We Never Run Out of Oil?” Introduction by Tyler Priest, History and Geographical & Sustainability Sciences, University of Iowa Moderator – Tyler Priest, History and Geographical & Sustainability Sciences, University of Iowa Recorded on March 6, 2014
Views: 2381 uimediaproduction
Mod-38 Lec-38 Non - metals in Biology - II
 
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Bio-inorganic chemistry by Prof. D. Ray, Department of Chemistry and Biochemistry, IIT Kharagpur. For more details on NPTEL visit http://nptel.iitm.ac.in
Views: 480 nptelhrd
Ordena tu casa para ordenar tu vida por Lucía Terol
 
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Infórmate de todo el programa y apúntate para recibir en tu correo recordatorios para acceder a la conferencia: http://television.mindalia.com/category/conferencias-en-directo/ ***CON PREGUNTAS AL FINAL DE LA CONFERENCIA PARA RESOLVER TUS DUDAS ****Si te parece interesante.... ¡COMPARTELO!! :-) DURACIÓN: 1h 30min Aproximadamente Lucía Terol Autora del libro Esencia Minimalista, soy minimalista y organizadora profesional. Trato el tema del minimalismo aplicado a lo que tienes, a lo que haces, para conectar con lo que eres. https://www.facebook.com/Esencia-Minimalista-Sencillez-Plena-1644438459144553/?ref=bookmarks https://www.instagram.com/sencillezplena/ www.sencillezplena.com -------------------------- Mindalia.com y Mindalia Televisión son una ONG SIN ANIMO DE LUCRO Si te ha gustado este video, APOYANOS CON UNA DONACION: https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=G58CS4AVKC6BU SUSCRIBETE AL CANAL DE YOUTUBE para no perderte ningún video: http://www.youtube.com/subscription_center?add_user=mindaliacom AYUDA A MINDALIA, SIN PAGAR NI UN SÓLO CÉNTIMO MÁS, CON TUS COMPRAS Y RESERVAS ONLINE: http://helpfree.ly/j20544 MILES DE VIDEOS de conferencias y entrevistas de interés en http://www.mindaliatelevision.com Participa en las CONFERENCIAS EN DIRECTO: http://television.mindalia.com/category/conferencias-en-directo/ -Puedes escuchar este y otros audios en Ivoox: http://mindaliacomradio.ivoox.com PIDE O ENVIA AYUDA http://www.mindalia.com - La Red Social de Ayuda a través del Pensamiento SIGUENOS EN REDES SOCIALES: -Youtube: http://www.youtube.com/mindaliacom -Facebook: https://www.facebook.com/mindalia.ayuda/ -Twitter: http://twitter.com/mindaliacom -Pinterest: https://es.pinterest.com/mindaliacom/ DESCARGATE LAS APLICACIONES MOVILES GRATUITAS: Mindalia Multimedia https://play.google.com/store/apps/details?id=es.app.mindalia_television Mindalia Red de Ayuda https://play.google.com/store/apps/details?id=es.app.mindalia_ayuda&hl=es CONTACTA CON NOSOTROS: http://television.mindalia.com/contacto/ -Skype: mindalia.com ¿Tienes un video que te gustaría que publicáramos? Envíanoslo!!
Views: 894176 Mindalia Televisión
Jeff Sachs: Challenges to Meeting the Millennium...
 
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Google.org presents Jeff Sachs
Views: 5910 Google
The Human Age: Our Anthropocene Conundrum, presented by guest lecturer Dennis Dimick
 
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Dennis Dimick, former picture and environment editor for National Geographic, delivers a narrated visual journey through the Anthropocene—the past three centuries of human activity culminating in our fossil-fueled modern world. Presented by the SOJC’s Media Center for Science and Technology, Dimick's talk makes a case that, while humans have created great prosperity on Earth, it's at a cost we must now reckon with. As we approach a turning point, Dimick says, communicators can help convince policy makers and the public that we must make an energy transition before it’s too late. This lecture was made possible by funds from the Robert and Mabel Ruhl and Richard W. and Laurie Johnston lecture series. Dimick is co-founder of Eyes On Earth, a project to inspire a new generation of environmental photographers. A son of fisheries biologists, Dimick grew up on a sheep and hay farm in Oregon’s Willamette Valley. Learn more about the SOJC's Media Center for Science and Technology at journalism.uoregon.edu/mcst Twitter: twitter.com/UOsojc?lang=en Facebook: facebook.com/UOSOJC/ Instagram: instagram.com/uosojc/ Vimeo: vimeo.com/uosojc Website: journalism.uoregon.edu/
Richard Shrock
 
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Richard R. Schrock Frederick G. Keyes Professor of Chemistry Nobel laureate in Chemistry, 2005 Richard Schrock is a Nobel laureate and the Frederick G. Keyes professor of chemistry at MIT. He was born in Indiana, but spent his high school years in San Diego and obtained a BA from the University of California at Riverside in 1967. After receiving a PhD in inorganic chemistry from Harvard in 1971, he spent one year as a National Science Foundation postdoctoral fellow at Cambridge University and three years at DuPont before coming to MIT in 1975. In 2005, Professor Schrock won the Nobel Prize in Chemistry for the development of the metathesis method in organic synthesis. This work has opened up new opportunities for synthesizing molecules that streamline the development and production of pharmaceuticals, plastics, and other materials.
Nitrogen cycle
 
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The nitrogen cycle is the process by which nitrogen is converted between its various chemical forms. This transformation can be carried out through both biological and physical processes. Important processes in the nitrogen cycle include fixation, ammonification, nitrification, and denitrification. The majority of Earth's atmosphere is nitrogen, making it the largest pool of nitrogen. However, atmospheric nitrogen has limited availability for biological use, leading to a scarcity of usable nitrogen in many types of ecosystems. The nitrogen cycle is of particular interest to ecologists because nitrogen availability can affect the rate of key ecosystem processes, including primary production and decomposition. Human activities such as fossil fuel combustion, use of artificial nitrogen fertilizers, and release of nitrogen in wastewater have dramatically altered the global nitrogen cycle. This video targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 239 encyclopediacc
2017 DW Brooks Lecture Dr Nina Federoff
 
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Nina V. Fedoroff will present the 2017 D.W. Brooks Lecture entitled, "The GMO Wars: What do we do when scientists and citizens deeply disagree?" The D.W. Brooks Lecture Series and Faculty Awards for Excellence are named for a Georgian whose contributions to agriculture are respected worldwide. An alumnus of the University of Georgia College of Agricultural and Environmental Sciences, D.W. Brooks (BSA—Agronomy, 1922, MSA—Agronomy, 1924) devoted his career to improving lives through innovations in agriculture. Text Only Script: https://secure.caes.uga.edu/texttranscript/?vid=UgFdOdK4Wy4
Views: 227 UGA_CollegeofAg
Jason Ross: The Economic Value of Infrastructure
 
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Jason Ross addresses the “New Silk Road: A Global Engineering Renaissance,” a conference hosted by NYU Tandon School of Engineering and the Schiller Institute on April 7, 2017.
Views: 631 Schiller Institute
Fertilizer
 
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Fertilizer is any organic or inorganic material of natural or synthetic origin that is added to soil to supply one or more plant nutrients essential to the growth of plants. Conservative estimates report 30 to 50% of crop yields are attributed to natural or synthetic commercial fertilizer. Global market value is likely to rise to more than US$185 billion until 2019. The European fertilizer market will grow to earn revenues of approx. €15.3 billion in 2018. This video targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
Views: 84 encyclopediacc
E.M.P.U.R.I.A.B.R.A.V.A. 50 anys d'una visió
 
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Empuriabrava cel·lebra els 50 anys de la seva fundació. Els pioners, els protagonistes del seu naixement, creixement, desenvolupament ens expliquen la seva història.
Big History Anthropocene Conference -  Ecological economist Professor Peter Brown - Keynote Address
 
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Ecological economist Professor Peter Brown talks about our relationship with Earth and our need to regenerate the Earth’s life systems. In his keynote address, Professor Brown talks about using higher education and economics to meet the challenges of the Anthropocene. Learn more about Big History at Macquarie University here: http://www.bighistory.mq.edu.au