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After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Source: en.wikipedia.org/wiki/San_Angelo,_Texas
San Angelo is a city in and the county seat of Tom Green County, Texas, United States. Its location is in the Concho Valley, a region of West Texas between the Permian Basin to the northwest, Chihuahuan Desert to the southwest, Osage Plains to the northeast, and Central Texas to the southeast. According to a 2019 Census estimate, San Angelo had a total population of 101,004. It is the principal city and center of the San Angelo metropolitan area, which had a population of 118,182.
San Angelo is home to Angelo State University, historic Fort Concho, and Goodfellow Air Force Base. Common nicknames of the city include Angelo, the Concho City, the Pearl of the Conchos, and the Oasis of West Texas.
Source: en.wikipedia.org/wiki/Goodfellow_Air_Force_Base
Goodfellow Air Force Base is a nonflying United States Air Force base located in San Angelo, Texas, United States. As part of Air Education and Training Command, Goodfellow's main mission is cryptologic and intelligence training for the Air Force, Space Force, Army, Coast Guard, Navy, and Marine Corps. Military firefighters are also trained here as part of the 312th Training Squadron. It is the home of the 17th Training Wing. The base is named for World War I aviator First Lieutenant John J. Goodfellow Jr.
Additional Foreign Language Tags:
(United States) "الولايات المتحدة" "Vereinigte Staaten" "アメリカ" "美国" "미국" "Estados Unidos" "États-Unis"
(Texas) "تكساس" "得克萨斯州" "टेक्सास" "テキサス" "텍사스" "Техас"
(San Angelo) "سان أنجيلو" "圣安吉洛" "सैन एंजेलो" "サンアンジェロ" "산 안젤로" "Сан-Анджело"
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Please attribute all image usage by linking to our website uavair.com.au/
Drone flying over lake with blue sky in the back ground.
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
RQ-4 Global Hawk drone in Canadian markings, parked at Ottawa International Airport. Markings include a Canadian tactical rondel, “Canada” wordmark, and figures “001.”
The Friday presentation at Kopernik Observatory & Science Center was entitled "Commercial Drones - Heroes Or Villains?" This is a DJI Phantom 3 Professional Quadcopter, with a high resolution camera mounted on it. It is a high-end hobby drone that is is also used as a survey unit by commercial companies, cities, and utilities.
A Certificate of Authorization (COA) was signed August 13, 2014 officially opening Virginia Tech’s airspace as a certified Unmanned aerial vehicle (UAV) test site for the Mid-Atlantic Aviation Partnership (MAAP).
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Heute wurde die Internationale Luft- und Raumfahrtausstellung in Berlin Schönefeld eröffnet.Diese findet in diesem Jahr auf dem Gelände des zukünftigen BBI "Willy Brandt" statt.Eröffnet wurde sie durch die Bundeskanzlerin Angela Merkel,welche noch bevor sie die ILA eröffnete, einem der grössten Waffenproduzenten der Welt,Messerschmitt-Bölkow-Blohm huldigte und zuerst Vertreter dieses Unternehmens begrüsste.Es ist mehr als beeindruckend,das diese Luftfahrtschau nichts anderes ist als eine bessere Waffenmesse ist,auf der alles,was das Herz des Waffenhändlers genauso erfreut,wie das des Diktators.Das muss man ja nu aber nicht so offensichtlich zeigen,indem man zuerst die Waffenlobby begrüsst und anschliessend erst die Messe eröffnet.Und warum auf einer Luuftfahrtmesse auch noch gepanzerte Fahrzeuge von Krauss-Maffei Wegmann vorgestellt werden müssen ist selbst mir ,als sehr verständnisvollem Menschen, ein mehr als grosses Rätsel.Ansonsten kann man selbstverständlich bei der Bundeswehr das Fliegen in einem Eurocopter ausprobieren und wie selbstverständlich auch den Beschuss von Piraten aus einem fliegenden Hubschrauber üben.Alles natürlich im Rahmen humanitärer Missionen versteht sich.Da erschreckt einen die massive zunahme unbenannter Waffensysteme und Drohnen schon garnicht mehr.In anbetracht der dort vorgestellten Feuerkraft sind aktuelle UAVs eher Kinderkram. Beruhigend ist da dann schon eher die Vorstellung,das auch das Rote Kreuz stolz prüsentierte,wozu ein nagelneuer Truppentransporter A400M zu gebrauchen ist,nämlihc um natürlich ganz human Zelte und Nahrungsmittel abzuwerfen.Irgendwie wurde man den Eindruck nicht los,das die ganze Veranstaltung nichts anders war,als eine grosse hübsche Luftwaffenschau,auf der man nach Herzenslust alles kaufen kann,was man zum bekämpfen von allem braucht,was nicht ins Schema passt.Für die Flüchtlingsabwehr an den EU-Aussengrenzen das UAV mit Wärmebildsensoren und für den kleinen Aufstand im inneren einen leichten und wendigen Eurocopter 135.Und wenns richtig zur Sache geht,dann kann man auch schon mal nen Euirofighter gebrauchen.Bilder unterliegen dem Copyright.
A Sagem Sperwer CU161 UAV (unmanned aerial vehicle) in service between 2003-2009 when it was deployed in Afganistan, photographed at the National Air Force Museum of Canada in Trenton, Ontario, Canada.
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Gemacht mit einer Drohne md4-1000.
Taken by a drone (unmanned aerial vehicle) md4-1000.
Visit me www.air-media.ch
A Certificate of Authorization (COA) was signed August 13, 2014 officially opening Virginia Tech’s airspace as a certified Unmanned aerial vehicle (UAV) test site for the Mid-Atlantic Aviation Partnership (MAAP).
Screen grab from GoPro 3+ Black Edition mounted to a DJI Phantom 2 quadcopter over Lake Anna, Virginia.
A Certificate of Authorization (COA) was signed August 13, 2014 officially opening Virginia Tech’s airspace as a certified Unmanned aerial vehicle (UAV) test site for the Mid-Atlantic Aviation Partnership (MAAP).
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
Gemacht mit einer Drohne md4-1000.
Taken by a drone (unmanned aerial vehicle) md4-1000.
Visit me www.air-media.ch
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
U.S. Marines with Marine Unmanned Aerial Vehicle Squardon Two (VMU-2) prepare a Unmanned Aerial Vehicle for launch at Speed Bag Airfield, near Niland, Calif., Oct. 25, 2011. VMU-2 was in support of Weapons and Tactics Instructor Course 1-12, hosted by Marine Aviation Weapons and Tactics Squadron One. (U.S. Marine Corps photo by Cpl. Patrick P. Evenson/Released)
A Certificate of Authorization (COA) was signed August 13, 2014 officially opening Virginia Tech’s airspace as a certified Unmanned aerial vehicle (UAV) test site for the Mid-Atlantic Aviation Partnership (MAAP).
AirStrato is a solar powered medium-sized unmanned aerial vehicle currently in development at ARCA. There are currently two variants available, AirStrato Explorer with a flight ceiling of 18,000 m and AirStrato Pioneer with a flight ceiling of 8000 m. It can cary a 45 kg payload consisting of surveillance equipment, scientific instruments or additional battery pods for extended autonomy. The first prototype maiden flight took place on February 28, 2014. It was equipped with a fixed landing gear. Two more prototypes were constructed that lacked a landing gear. Instead ARCA opted for a pneumatic catapult as a launcher and landing skids and a recovery parachute for landing. Both prototypes performed take-off and landing testing and low altitude flights.
General Atomics MQ-1 Predator of the 6th Reconnaissance Squadron (6th RS) from Holloman AFB performing at the 2014 Holloman AFB "Legacy of Freedom" Open House.
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
A Certificate of Authorization (COA) was signed August 13, 2014 officially opening Virginia Tech’s airspace as a certified Unmanned aerial vehicle (UAV) test site for the Mid-Atlantic Aviation Partnership (MAAP).
General Atomics MQ-1B Predator "Ikhana" of NASA's Armstrong Flight Research Center on static display during the US Air Force's celebration of the 70th anniversary of supersonic flight at Edwards AFB, October 13, 2017.
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release
After eight months of designing, building and testing, the middle school, high school and college and university teams launched their rockets as part of NASA Student Launch on Saturday, April 6. The rockets and their payloads are designed to fly to between 4,000 and 5,500 feet in altitude before deploying recovery systems that brings them safely to the ground.
Image credit: NASA/Fred Deaton
Student Launch awards news release