NASA: The Proud Conquest Of Gemini VI and VII - 1966 Educational Film - S88TV1
Astronauts Borman, Lovell, Schirra and Stafford discuss the historic rendezvous of their Gemini VI and Gemini VII spacecraft. President Johnson #39;s press confe...
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NASA: The Proud Conquest Of Gemini VI and VII - 1966 Educational Film - S88TV1 - Video
APOLLO 11 20 ANCIENT RUINS ON THE MOON NASA ORIGINAL COPY
Is this for real? watch !
By: Steve Harley
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APOLLO 11 & 20 ANCIENT RUINS ON THE MOON NASA ORIGINAL COPY - Video
UFO Sightings Air force flying Saucer Enhanced Close Up Video Stills, NASA
Official Report: UFOLOGY VIDEO Watch too this Important video: "PLANET NIBIRU TO PASS EARTH BY AUGUST 2014" at https://www.youtube.com/watch?v=BmPg9Gu0hSc Th...
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UFO Sightings Air force flying Saucer Enhanced Close Up Video Stills, NASA - Video
UFO NEWS SHOCKING NASA 2013 UFO #39;s sightings from ISS Apr, 2014
Official Report: UFOLOGY VIDEO Watch too this Important video: "PLANET NIBIRU TO PASS EARTH BY AUGUST 2014" at https://www.youtube.com/watch?v=BmPg9Gu0hSc Th...
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UFO NEWS SHOCKING NASA 2013 UFO's sightings from ISS Apr, 2014 - Video
NASA Lime Rock HPDE 3/29/14 LD
#39;95 Chevy Caprice 9C1 T56 at Lime Rock for NASA #39;s first 2014 HPDE event. Last "dry" session that day. Most excellent instructing by Luis Millan! He #39;s pretty ...
By: Brian Coleman
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Saylor Foundation and NASA #39;s SSE 101: Subunit 5.1 Requirements Overview
Saylor.org and NASA have partnered to bring you this video as part of our Space Systems Engineering Online Course. Take the full SSE101: Survey of Systems En...
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Saylor Foundation and NASA's SSE 101: Subunit 5.1 Requirements Overview - Video
NASA has selected Orbital Sciences Corp. of Dulles, Va., to launch the Cyclone Global Navigation Satellite System (CYGNSS) mission. CYGNSS will launch in October 2016 from Cape Canaveral Air Force Station in Florida aboard a Pegasus XL rocket from Orbital's "Stargazer" L-1011 aircraft.
This is a firm-fixed price launch-service task order contract worth approximately $55 million. Contract services include spacecraft processing, the launch service payload integration, tracking, data and telemetry and other launch support requirements.
CYGNSS will produce measurements of ocean surface winds throughout the life cycle of tropical storms and hurricanes, which could help lead to forecasting weather better. The mission, led by the University of Michigan, will use a constellation of small satellites that will be carried to orbit on a single launch vehicle. CYGNSS's eight micro-satellite observatories will receive direct and reflected signals from GPS satellites.
CYGNSS is the first award for space-based investigations in the Earth Venture-class series of rapidly developed, cost-constrained projects for NASA's Earth Science Division. NASA's Langley Research Center, Hampton, Va., manages the Earth System Science Pathfinder program for NASA's Science Mission Directorate.
NASA's Launch Services Program at the agency's Kennedy Space Center in Florida is responsible for management and oversight of the Pegasus XL launch services. Langley provides management for the CYGNSS mission.
For more information about NASA's Launch Services Program, visit:
http://www.nasa.gov/launchservices
For more information about NASA programs and missions, visit:
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On Tuesday, April 1 at NASA's Langley Research Center in Hampton, Mark Anderson, the director of Flight Sciences Technology for Boeing Research & Technology will present "To the Frontiers of Flight: The Role of Innovation in Developing Tomorrow's Products" at 2 p.m. in the Reid Conference Center.Anderson will review advanced aviation technology on the Boeing 787 Dreamliner and focus on future air vehicles and concepts. He will also highlight NASA research contributions to the frontiers of flightAnderson will be available to answer questions from the media during a news briefing at 1:15 p.m. that day. Media who wish to do so should contact Chris Rink at 757-864-6786, or by e-mail atchris.rink@nasa.gov, by noon on the day of the talk for credentials and entry to the center.That same evening at 7:30, Anderson will present a similar program for the general public at the Virginia Air & Space Center in downtown Hampton. This Sigma Series event is free and no reservations are required.Anderson started as an aerodynamics engineer within Boeing Commercial Airplanes working in research and product development. He currently leads Boeing's advanced technology research in aerodynamics, propulsion, acoustics, guidance systems, navigation and control, configuration design and applied mathematics. In addition, he serves as chief engineer for Flight & Systems Technology.A member of the NASA Advisory Council Aeronautics Committee, Anderson served as a member of the National Research Council Committee to Assess NASA Aeronautics Flight Research Capabilities. He is an associate fellow of the American Institute of Aeronautics and Astronautics (AIAA), and has served as Chairman of the AIAA national Aircraft Design Technical Committee and as General Chairman of the organization's New Horizons in Aviation Forum.For more information about NASA Langley's Colloquium and Sigma Series Lectures, visit:http://colloqsigma.larc.nasa.gov
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Media are invited to a formal dedication ceremony to mark the renaming of NASA's Armstrong Flight Research Center, formerly the Dryden Flight Research Center, on Tuesday, May 13 at the center's campus at Edwards Air Force Base, Calif.
The renaming ceremony is scheduled for 10 a.m. PDT in Hangar 4802. It is expected to include comments from NASA Administrator Charles Bolden, Armstrong Center Director David McBride, Rep. Kevin McCarthy of California and members of the Armstrong and Dryden families.
Legislation to redesignate the 68-year-old facility, NASA's center of excellence for atmospheric flight research, in honor of the late Neil A. Armstrong was passed by the House of Representatives in early 2013, by the Senate on Jan. 8, and was signed into law by President Obama on Jan. 16. The name change became official March 1.
Rep. McCarthy, whose district includes the center, authored the resolution to rename the facility for Armstrong, a former research test pilot who flew at the center and the first man to step on the moon during the historic Apollo 11 mission in 1969. The legislation also directed the naming of the center's aeronautical test range for the late Hugh L. Dryden, the center's namesake since 1976, who had been the director of the National Advisory Committee for Aeronautics from 1949 to 1958 and NASA's first deputy administrator from 1958 until his death in 1965.
Media who wish to cover the rededication ceremony should contact the Armstrong public affairs office at 661-276-3449 or emailkim.l.lewis-bias@nasa.gov,no later than April 3 for non-U.S. citizens and May 8 for U.S. citizens and permanent resident aliens. Media must work for a legitimate, verifiable newsgathering organization. No substitutions of non-credentialed media representatives will be allowed.
U.S. citizens must furnish their full name, date of birth, place of birth, media organization, the last six digits of social security number and drivers license number, including issuing state. Permanent resident aliens must provide their alien registration number and expiration date. In addition, foreign nationals must furnish their current citizenship, visa or passport number, country of issue and expiration date.
For more details the center's renaming and the lives and careers of Dryden and Armstrong, visit:
http://www.nasa.gov/centers/armstrong/news/NewsReleases/2014/14-05.html
For more information about NASA's Armstrong Flight Research Center, visit:
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March 31, 2014
Image Caption: NASA's flexible-wing F/A-18 maneuvers through a test point during the second phase of the NASA/Air Force Active Aeroelastic Wing flight research project. Credit: NASA / Carla Thomas
Jim Banke, NASA
Sometimes the inspiration for innovative technological solutions comes from unexpected places.
Thats one of the key messages author Peter Merlin hopes readers will take away from reading NASAs newest book in its Aeronautics Book Series, A New Twist in Flight Research: The F-18 Active Aeroelastic Wing Project.
In this case the inspiration for the test project involving an F-18 with elastic wings came from no less than the worlds first airplane the 1903 Wright Flyer, which in turn saw its design based on observations of birds in flight dating back to the time of Leonardo da Vinci.
That first airplane didnt sport the same kind of control surfaces, such as flaps and ailerons, that todays airplanes rely on to steer through the air. Instead, just like birds, the Wright Flyer twisted its wings to change its direction in flight.
A century later, designers wondered if maybe the birds and the Wright brothers were on to something worth exploring with modern technology. The result was the F-18 Active Aeroelastic Wing (AAW) project
NASAs new 194-page book tells the story of that flight research project, which saw an F-18 supersonic fighter modified so its wings could be warped in flight to aid in steering. It made 96 flights in two phases between November 2002 and April 2005.
AAW technology is sort of a back to the future approach to aircraft design, Merlin said. It leverages structural flexibility and the strength of new lightweight composite materials for a net benefit with regard to aircraft maneuverability.
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Two NASA probes are helping scientists get a better understanding of how the giant belts of radiation around Earth affect the spacecraft circling the planet.
Scientists are using data gathered by NASA's twin Van Allen Probes, which launched to Earth orbit in August 2012, in concert with advanced computer models, to simulate the dynamic radiation environment of near-Earth space, two new studies report.
"The Van Allen Probes are gathering great measurements, but they can't tell you what is happening everywhere at the same time," Geoff Reeves, of Los Alamos National Laboratory in New Mexico, said in a statement earlier this month. "We need models to provide a context, to describe the whole system, based on the Van Allen Probe observations."
The Van Allen belts named after James Van Allen, who discovered them in 1958 are like two enormous doughnuts that encircle Earth. The space doughnuts are composed of charged particles including protons, electrons and various other ions that are held in place by Earth's magnetic field. Because the particles have so much energy, they can damage instruments in orbit.
These particles are doubly dangerous because their behavior has so far been unpredictable; depending on the sun's activity, their energy can jump drastically, sometimes to 99 percent the speed of light. Scientists would love to be able to predict this behavior a skill that would help them design spacecraft that can better withstand the rigors of the space environment.
The Van Allen Probes are bringing scientists closer to achieving that goal. The spacecraft provide crucial information to a computer model developed by Los Alamos scientists known as DREAM3D (short for Dynamic Radiation Environment Assimilation Model in 3 Dimensions) which had relied heavily on data gathered in the early 1990s by NASA's Combined Release and Radiation Effects Satellite.
For example, scientists compared simulations generated by DREAM3D against data collected by the Van Allen Probes and NASA's Advanced Composition Explorer satellite during a powerful solar storm in October 2012.
DREAM3D did a pretty good job of predicting the major effects, researchers said.
"That gives us some confidence in our model," Reeves said. "And, more importantly, it gives us confidence that we are starting to understand what's going on in the radiation belts."
The two new studies were published in the journal Geophysical Research Letters.
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Paul #39;s nanotechnology prize
Paul gets the prize for smartest student in his graduating class at RMIT university. Of course!
By: Ukulelista
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PhD in Nanotechnology to Elisa Miniussi
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Pittcon 2014 - Cancer Nanotechnology Symposia: Presentation 3
SYMPOSIA: Cancer Nanotechnology - Enabling Development of New Diagnostics and Therapeutics TITLE: Paclitaxel-Loaded Expansile Nanoparticles for the Detection...
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Pittcon 2014 - Cancer Nanotechnology Symposia: Presentation 3 - Video
Professor Ashok Adya - The Nanotechnology Revolution
If you have ever wondered how to fit 24 volumes of an encyclopaedia onto the head of a pin, Abertay University #39;s Professorial Lecture on the microscopic worl...
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Professor Ashok Adya - The Nanotechnology Revolution - Video
Pittcon 2014 - Cancer Nanotechnology Symposia: Presentation 1
Cancer Nanotechnology - Enabling Development of New Diagnostics and Therapeutics TITLE: Spherical Nucleic Acids (SNAs): Novel Therapeutic Agents for Cancer T...
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PUBLIC RELEASE DATE:
31-Mar-2014
Contact: Albert Mihranyan albert.mihranyan@angstrom.uu.se 46-701-679-037 Uppsala University
Nanotechnology and Functional Materials, Uppsala University have developed a paper filter, which can remove virus particles with the efficiency matching that of the best industrial virus filters. The paper filter consists of 100 percent high purity cellulose nanofibers, directly derived from nature.
The research was carried out in collaboration with virologists from the Swedish University of Agricultural Sciences/Swedish National Veterinary Institute and is published in the Advanced Healthcare Materials journal.
Virus particles are very peculiar objects- tiny (about thousand times thinner than a human hair) yet mighty. Viruses can only replicate in living cells but once the cells become infected the viruses can turn out to be extremely pathogenic. Viruses can actively cause diseases on their own or even transform healthy cells to malignant tumors.
"Viral contamination of biotechnological products is a serious challenge for production of therapeutic proteins and vaccines. Because of the small size, virus removal is a non-trivial task, and, therefore, inexpensive and robust virus removal filters are highly demanded" says Albert Mihranyan, Associate Professor at the Division of Nanotechnology and Functional Materials, Uppsala University, who heads the study.
Cellulose is one of the most common materials to produce various types of filters because it is inexpensive, disposable, inert and non-toxic. It is also mechanically strong, hydrophyllic, stable in a wide range of pH, and can withstand sterilization e.g. by autoclaving. Normal filter paper, used for chemistry, has too large pores to remove viruses.
The undergraduate student Linus Wgberg, Professor Maria Strmme, and Associate Professor Albert Mihranyan at the Division of Nanotechnology and Functional Materials, Uppsala University, in collaboration with virologists Dr. Giorgi Metreveli, Eva Emmoth, and Professor Sndor Belk from the Swedish University of Agricultural Sciences (SLU)/Swedish National Veterinary Institute (SVA), report a design of a paper filter which is capable of removing virus particles with the efficiency matching that of the best industrial virus filters. The reported paper filter, which is manufactured according to the traditional paper making processes, consists of 100 percent high purity cellulose nanofibers directly derived from nature.
The discovery is a result of a decade long research on the properties of high surface area nanocellulose materials, which eventually enabled the scientists to tailor the pore size distribution of their paper precisely in the range desirable for virus filtration.
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Researchers Develop Nano-paper Filter that can Remove Virus Particles
Nano-paper filter consists of 100 percent high purity cellulose nanofibers. Above, illustration shows nanofibers in white and the virus particles in green.
March 31, 2014 - Researchers at the Division of Nanotechnology and Functional Materials, Uppsala University have developed a paper filter, which can remove virus particles with an efficiency matching that of the best industrial virus filters. The paper filter consists of 100 percent high purity cellulose nanofibers, directly derived from nature.
The research was carried out in collaboration with virologists from the Swedish University of Agricultural Sciences/Swedish National Veterinary Institute and is published in the Advanced Healthcare Materials journal.
Virus particles are very peculiar objects- tiny (about thousand times thinner than a human hair) yet mighty. Viruses can only replicate in living cells but once the cells become infected the viruses can turn out to be extremely pathogenic. Viruses can actively cause diseases on their own or even transform healthy cells to malignant tumors.
"Viral contamination of biotechnological products is a serious challenge for production of therapeutic proteins and vaccines. Because of the small size, virus removal is a non-trivial task, and, therefore, inexpensive and robust virus removal filters are highly demanded," says Albert Mihranyan, Associate Professor at the Division of Nanotechnology and Functional Materials, Uppsala University, who heads the study.
Cellulose is one of the most common materials to produce various types of filters because it is inexpensive, disposable, inert and non-toxic. It is also mechanically strong, hydrophyllic, stable in a wide range of pH, and can withstand sterilization e.g. by autoclaving. Normal filter paper, used for chemistry, has too large pores to remove viruses.
The undergraduate student Linus Wgberg, Professor Maria Strmme, and Associate Professor Albert Mihranyan at the Division of Nanotechnology and Functional Materials, Uppsala University, in collaboration with virologists Dr. Giorgi Metreveli, Eva Emmoth, and Professor Sndor Belk from the Swedish University of Agricultural Sciences (SLU)/Swedish National Veterinary Institute (SVA), report a design of a paper filter which is capable of removing virus particles with the efficiency matching that of the best industrial virus filters.
The reported paper filter, which is manufactured according to the traditional paper making processes, consists of 100 percent high purity cellulose nanofibers directly derived from nature.
The discovery is a result of a decade long research on the properties of high surface area nanocellulose materials, which eventually enabled the scientists to tailor the pore size distribution of their paper precisely in the range desirable for virus filtration.
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Researchers Develop Nano-paper Filter that can Remove Virus Particles
Outside of smartwatches, wristbands, and smart eyewear, wearable technology is making waves in the medical community. For example, weve already heard about health-monitoring tattoos, which can tell doctors about how your heart, muscles, or brain are functioning. The next evolutionary step could be similar smart patches, developed using nano technology, which not only deliver drugs into your system, but know when youve had enough or need a higher dose.
A study, carried out in South Korea and published by Nature Technology, outlines the development of wearable bio-integrated systems, as an alternative to wearing bulkier hardware. These skin patches are not only less intrusive, but are also capable of delivering medicine to the wearer, and smart enough to know how much is needed.
The stretchable, rectangular patches measure around 2-inches in size, and have a nano-particle coating which monitors muscle activity. Theyre heat activated, and when the wearers body temperature rises, so the drug delivery is increased. By using a system like this, patients would no longer need to wear potentially uncomfortable, or highly noticeable health monitoring devices, but more importantly theres no possibility of forgetting, or being unable, to take pills at the right time.
An example given in the paper is for sufferers of Parkinsons disease. Muscle tremors would be picked up by the patch, and thanks to an integrated memory system, it would know if a higher dose of corrective treatment was required. In the cases where body temperature doesnt change, but medicine is still needed, a built-in heater is activated to start the flow.
Speaking to The Verge, one of the engineers working on the project said that in the future, wireless components could be added to the patch. This would allow doctors to remotely diagnose patients based on telemetry gathered by the patch, then tell it to either increase or decrease drug dosage. All without a visit to the hospital or doctors office. Its very exciting, but the technology is still in the early stages, and we shouldnt expect to see this type of wearable medical patch for at least another five years.
DT
Andy's fascination with mobile tech began in the 90s, at a time when SMS messages were considered cutting edge, but it would be a decade before he would put finger-to-keyboard as a technology writer. In the interim he wrote about travel, formulated strong opinions about films and owned a series of audacious cars.
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Submitted by Sara Hopkins on Sat, 03/29/2014 - 6:55pm.READ MORE:
WILMINGTON, NC (WWAY) -- A nation-wide education exhibit comes to the Port City.
The Cape Fear Museum hosts Nano Days.
Kids learned hands on about nanoscale science and engineering.
They interacted with experiments like Electroplating where kids got to make a nickle look like a penny
Third grader Max Kerrigan says he likes getting out of the classroom to learn more about science.
"Oh it's way different." Max said, "We don't do this kind of science stuff. The science there is kind of boring compared to this."
Nano days takes place nationally through April 6th.
Disclaimer: Comments posted on this, or any story are opinions of those people posting them, and not the views or opinions of WWAY NewsChannel 3, its management or employees. You can view our comment policy here.
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