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Behold, the Earth! See live views of Earth from the International Space Station coming to you by NASA's High Definition Earth Viewing (HDEV) experiment. While the experiment is operational, views will typically sequence through the different cameras. If you are seeing a black image, the Space Station is on the night side of the Earth. If you are seeing an image with text displayed, the communications are switching between satellites and camera feeds are temporarily unavailable. Between camera switches, a black & gray slate will also briefly appear. The experiment was activated on April 30, 2014 and is mounted on the External Payload Facility of the European Space Agency’s Columbus module. This experiment includes several commercial HD video cameras aimed at the Earth which are enclosed in a pressurized and temperature controlled housing. To learn more about the HDEV experiment, visit: https://eol.jsc.nasa.gov/ESRS/HDEV/ Please note: The HDEV cycling of the cameras will sometimes be halted, causing the video to only show select camera feeds. This is handled by the HDEV team, and is only scheduled on a temporary basis. Nominal video will resume once the team has finished their scheduled event.
"How To get to Mars" is a clip from the IMAX documentary "Roving Mars" from 2006. This is an edited short version. My photos: https://plus.google.com/u/0/b/105656643463219506384/+aheli DVD - Roving Mars 2006 : Spirit, Opportunity, and the Exploration of the Red Planet @ amazon.com http://www.amazon.com/Roving-Mars-Spirit-Opportunity-Exploration/dp/B003XU7W0A ★ The Largest Stars in the Universe | Infographic Animation ► https://www.youtube.com/watch?v=JqAJnrL27OY ★ The Most Astounding Fact - Neil deGrasse Tyson | Kinetic ►Typography https://www.youtube.com/watch?v=p2DXqJ7mjKY ★ TOP 10 - Best of Hubble Space Telescope - 2015 ► http://www.youtube.com/watch?v=Lmx19_0GX8o Game Of Thrones - Theme (OneCamBand Western Cover) https://www.youtube.com/watch?v=Rln_qHoWIqg From Wiki : Spirit, MER-A (Mars Exploration Rover -- A), is a robotic rover on Mars, active from 2004 to 2010. It was one of two rovers of NASA's ongoing Mars Exploration Rover Mission. It landed successfully on Mars at 04:35 Ground UTC on January 4, 2004, three weeks before its twin, Opportunity (MER-B), landed on the other side of the planet. Its name was chosen through a NASA-sponsored student essay competition. The rover became stuck in late 2009, and its last communication with Earth was sent on March 22, 2010. The rover completed its planned 90-sol mission. Aided by cleaning events that resulted in higher power from its solar panels, Spirit went on to function effectively over twenty times longer than NASA planners expected following mission completion. Spirit also logged 7.73 km (4.8 mi) of driving instead of the planned 600 m (0.4 mi), allowing more extensive geological analysis of Martian rocks and planetary surface features. Initial scientific results from the first phase of the mission (the 90-sol prime mission) were published in a special issue of the journal Science. On May 1, 2009 (5 years, 3 months, 27 Earth days after landing; 21.6 times the planned mission duration), Spirit became stuck in soft soil. This was not the first of the mission's "embedding events" and for the following eight months NASA carefully analyzed the situation, running Earth-based theoretical and practical simulations, and finally programming the rover to make extrication drives in an attempt to free itself. These efforts continued until January 26, 2010 when NASA officials announced that the rover was likely irrecoverably obstructed by its location in soft soil, though it continued to perform scientific research from its current location. The rover continued in a stationary science platform role until communication with Spirit stopped on sol 2210 (March 22, 2010). JPL continued to attempt to regain contact until May 24, 2011, when NASA announced that efforts to communicate with the unresponsive rover had ended. A formal farewell was planned at NASA headquarters after the Memorial Day holiday and was televised on NASA TV. Hope you enjoyed it!
If you like this video don't forget to like and subscribe http://goo.gl/dgHQSp Michio Kaku is the co-founder of String Field Theory and is the author of international best-selling books such as Hyperspace, Visions, and Beyond Einstein. Michio Kaku is the Henry Semat Professor in Theoretical Physics at the City University of New York. FAIR-USE COPYRIGHT DISCLAIMER * Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, commenting, news reporting, teaching, scholarship, and research. - This video has no negative impact on the original works - This video is also for research and commenting purposes. - It is not transformative in nature. - we only used bits and pieces of videos to get the point across where necessary. If you have any issues with our "Fair Use", please contact us directly, for an amicable and immediate attention. Sciencetodaytv@gmail.com Thank you in advance for your understanding and cooperation.
INSTAGRAM FLYWITHCAPTAINJOE: https://goo.gl/TToDlg MY WEBSITE: https://goo.gl/KGTSWK TFC-Flight Training Centre: https://goo.gl/xAZEBp Dear friends and followers, welcome back to my channel. Today´s topic is one of the most ask passenger question, "Can a passenger land a plane?". There are so many rumours about this question, it´s just not true. So a few facts. My friend Carolin, has no connection to the aviation world besides from flying to holiday once in a while, obviously as a passenger. Now as soon as she sat down, the hardest part was establishing a communication between her and me, the ATC controller. Carolin was totally overwhelmed with all the switches and buttons, that it took nearly 20 minutes to find the push to talk button. In a real-life situation, if a plane does not respond within 20 minutes, fighter jets will be on their way intercepting the aeroplane as it causes a potential threat to national security, depending which land you´re flying across. Once communication was established, I had to give her instructions on how to set up the approach phase for an automatic landing, better known as AUTOLAND procedure. The AUTOLAND allows pilots to perform a fully automated landing in bad visual conditions, known as CAT3 approaches. More about that in future videos. Once the approach set up was completed, I had to give her instructions to familiarize with important levers and switches, such as the landing gear lever, the flaps, flight control computer and much more. Later I guided her via radar vectors towards the airport, constantly descending and reducing the speed accordingly. But see for yourself. My opinion if a passenger can land a plane. I´ll be honest with you! It´s impossible! We needed three attempts to just establish basic communication and Carolin accidentally brought the aircraft into a stall. Don´t ask how! And she was pretty nervous, although she knew it was a simulator. Imagine the anxiety in a real plane!? I know that there are many videos out there where apparently the passenger landed the plane, but all of the passengers had some kind of flying background. And the likelihood of both pilots being incapacitated is very unlikely. BIG THANK YOU TO TFC KÄUFER for making this video possible such as Lockheed Martin Prepar3D flight simulator, here a few more facts about the used simulation: Scenery ORBX A320 Flightsimlabs Simulator Prepar3D v4.1 I hope you enjoyed this video and where able to learn something from it as well. Thanks for watching, all the best your "Captain" Joe Background track: Stellardone - Airglow https://goo.gl/X3SffS Outro Song: Joakim Karud & Dyalla - Wish you were here https://goo.gl/kJ9pef Equipment I use: Camera: http://amzn.to/2nEHPDM Microphone: http://amzn.to/2nff2oF Lights: http://amzn.to/2nEPGkU ALL COPYRIGHTS TO THIS VIDEO ARE OWNED BY FLYWITHCAPTAINJOE.COM ANY COPYING OR ILLEGALLY DOWNLOADING AND PUBLISHING ON OTHER PLATFORMS WILL FOLLOW LEGAL CONSEQUENCES
How does an astronaut return to Earth from the International Space Station? What does it feel like to re-enter the atmosphere? How does the Soyuz capsule function? Watch and find out. This video is based on an actual lesson delivered to the ESA astronaut class of 2009 (also known as the #Shenanigans09) during their ESA Basic Training. It features interviews with astronauts who have flown on the Soyuz and dramatic footage of actual landings. Produced by the ESA Human Spaceflight and Operations (HSO) Astronaut Training Division, Cologne, Germany, in collaboration with the HSO Strategic Planning and Outreach Office, Noordwijk, The Netherlands, with special support from Roskosmos. Narration Voice: Bernard Oattes Technical Experts: Stephane Ghiste, Dmitriy Churkin (HSO-UT) Content Design: Stephane Ghiste, Dmitriy Churkin, Raffaele Castellano, Matthew Day (HSO-UT) Animation & Video Editing: Raffaele Castellano (HSO-UT), HSO-K Project Coordination: Matthew Day, Stephane Ghiste, Dmitriy Churkin (HSO-UT) Special thanks to: Martin Schweiger (Orbiter software: http://orbit/medphys.ucl.ac.uk/) Nikita Vtyurin, Andrew Thielmann (Orbiter Soyuz model) Lionel Ferra (HSO-UT) Oleg Polovnikov (HSO-UT) Frank De Winne (HSO-A) Paolo Nespoli (HSO-A) Antonio Rodenas Bosque (HSO-UT) NASA ROSCOSMOS S.P. Korolev Rocket and Space Corporation Energia Aerospace Search and Rescue Service of the Russian Federation Parachute footage: Cambridge University Spaceflight Surfer footage: copyright Red Bull Media House Footage from inside Soyuz capsule courtesy of RSC Energia has limited rights: a) These data are submitted with Limited Rights under Agreement among the Government of Canada, Governments of Member States of the European Space Agency, the Government of Japan, the Government of the Russian Federation and the Government of the United States of America concerning co-operation on the civil International Space Station. These data may be used by the receiving co-operating agency and its contractors and subcontractors, provided that such data shall be used, duplicated or disclosed only for the following purposes, which are related to the Cooperating Agency Space Station Program for ISS: 1) Use for ESA astronaut training 2) Use for educational purposes These data shall not be used by persons or entities other than the receiving Cooperating Agency, its contractors or subcontractors, or for any other purposes, without the prior written permission of the furnishing partner state, acting through its cooperating agency. b) This notice shall be marked on any reproduction of these data in whole or part. Also watch: Journey to the ISS Part 1: The launch sequence explained http://www.youtube.com/watch?v=AVvgpKt5uCA Watch Part 2: Soyuz rendezvous and docking explained https://www.youtube.com/watch?v=M2_NeFbFcSw Captions available in English, French, German, Italian, Russian, Romanian (with thanks to Alexa Mirel) and Spanish. Click on the CC button to switch between languages.
Direct from America's space program to YouTube, watch NASA TV live streaming here to get the latest from our exploration of the universe and learn how we discover our home planet.
NASA TV airs a variety of regularly scheduled, pre-recorded educational and public relations programming 24 hours a day on its various channels. The network also provides an array of live programming, such as coverage of missions, events (spacewalks, media interviews, educational broadcasts), press conferences and rocket launches.
In the United States, NASA Television's Public and Media channels are MPEG-2 digital C-band signals carried by QPSK/DVB-S modulation on satellite AMC-3, transponder 15C, at 87 degrees west longitude. Downlink frequency is 4000 MHz, horizontal polarization, with a data rate of 38.86 Mhz, symbol rate of 28.1115 Ms/s, and ¾ FEC. A Digital Video Broadcast (DVB) compliant Integrated Receiver Decoder (IRD) is needed for reception.