View allAll Photos Tagged rollout
The Atlas V 431 rocket rolled out to the SLC-41 pad December 17 in preparation for the EchoStar XIX satellite launch December 18. Photo courtesy of Lockheed Martin and United Launch Alliance.
The Soyuz spacecraft is rolled out by train, on 14 November 2016, from the MIK 112 integration facility to the Baikonur Cosmodrome launch pad 1, in Kazakhstan.
ESA astronaut Thomas Pesquet, NASA astronaut Peggy Whitson and commander Oleg Novitsky will be launched 17 November for a six-month mission on the International Space Station.
Follow Thomas via thomaspesquet.esa.int and check out the Proxima mission blog for updates.
Credit: ESA–Manuel Pedoussaut, 2016
Orgulho de ter participado do RollOut deste belíssimo projeto da Embraer S.A. / Embraer - Empresa Brasileira de Aeronáutica S.A. em parceria com a Força Aérea Brasileira ...
Seja bem vindo Kc-390 aos céus do nosso Brasil , e logo mais ao Mundo !!!
Não esqueçam de Curtir a FAN PAGE da Aviação na WEB e receba noticias , fotos , novidades da aviação diariamente ... www.facebook.com/aviacaonaweb
(Alberto)
Shortly before dawn, a red-rimmed moon helped to light the way for the Space Shuttle Atlantis as it rolled out to Launch Pad 39A in preparation for launch of Mission STS-86 on September 26, 1997.
Via: www.flickr.com/photos/nasacommons/9458268945/in/dateposted/
L-3: Our Soyuz rocket with the spacecraft inside is rolled out to the launchpad. The system to keep it upright is ingeniously simple. By using counterweights the rocket is held upright but the slightest force (such as liftoff) pushes the supports out of the way, no complicated electronics required! Did you ever wonder how a launch time is recorded? Easy, the rocket is standing on a large switch, as soon as it is depressed (i.e. we are launched) the time is recorded and we have a launch time!
L-3 : Transfert de la fusée jusqu’au pas de tir. Ça a l’air impressionnant, mais le système pour la faire tenir à la verticale n’a rien de compliqué : on utilise tout simplement des contrepoids. Pas besoin non plus d’électroniques sophistiquées pour dégager la voie à la fusée lors du lancement, la force du décollage suffisant largement pour faire basculer les structures de soutien en arrière. Comment arrive-t-on à connaître l’heure exacte du décollage ? Là aussi, c’est facile : la fusée est installée sous une sorte de grand bouton-poussoir qui est relâché quand elle décolle, ce qui déclenche l’enregistrement de l’heure du lancement.
Credits: ESA–M-Pedoussaut
CAPE CANAVERAL, Fla. -- The United Launch Alliance Atlas V rocket carrying NASA’s Mars Atmosphere and Volatile EvolutioN, or MAVEN, spacecraft arrives at the pad at Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida after a 20-minute journey from the Vertical Integration Facility. Rollout began on schedule with first motion at 9:57 a.m. Launch is scheduled for Nov. 18 during a window that extends from 1:28 to 3:28 p.m. Once positioned in orbit above the Red Planet, MAVEN will study its upper atmosphere in unprecedented detail. For more information, visit: www.nasa.gov/mission_pages/maven/main/index.html. Photo credit: NASA/Kim Shiflett
nhq201704170020 (April 16, 2017) --- The Soyuz MS-04 spacecraft is rolled out to the launch pad by train on Sunday, April 16, 2017 at the Baikonur Cosmodrome in Kazakhstan. Launch of the Soyuz rocket is scheduled for April 20 and will carry Expedition 51 Soyuz Commander Fyodor Yurchikhin of Roscosmos and Flight Engineer Jack Fischer of NASA into orbit to begin their four and a half month mission on the International Space Station.Photo Credit: (NASA/Aubrey Gemignani)
nhq201704170035 (April 16, 2017) --- The Soyuz MS-04 spacecraft is seen at the Soyuz launch pad 1 just before it is raised into a vertical position Monday, April 17, 2017 at the Baikonur Cosmodrome in Kazakhstan. Launch of the Soyuz rocket is scheduled for April 20 Baikonur time and will carry Expedition 51 Soyuz Commander Fyodor Yurchikhin of Roscosmos and Flight Engineer Jack Fischer of NASA into orbit to begin their four and a half month mission on the International Space Station. Photo Credit: (NASA/Aubrey Gemignani)
L-3: Our Soyuz rocket with the spacecraft inside is rolled out to the launchpad. The system to keep it upright is ingeniously simple. By using counterweights the rocket is held upright but the slightest force (such as liftoff) pushes the supports out of the way, no complicated electronics required! Did you ever wonder how a launch time is recorded? Easy, the rocket is standing on a large switch, as soon as it is depressed (i.e. we are launched) the time is recorded and we have a launch time!
L-3 : Transfert de la fusée jusqu’au pas de tir. Ça a l’air impressionnant, mais le système pour la faire tenir à la verticale n’a rien de compliqué : on utilise tout simplement des contrepoids. Pas besoin non plus d’électroniques sophistiquées pour dégager la voie à la fusée lors du lancement, la force du décollage suffisant largement pour faire basculer les structures de soutien en arrière. Comment arrive-t-on à connaître l’heure exacte du décollage ? Là aussi, c’est facile : la fusée est installée sous une sorte de grand bouton-poussoir qui est relâché quand elle décolle, ce qui déclenche l’enregistrement de l’heure du lancement.
Credits: ESA–M-Pedoussaut
All photo rights are owned by Doc's Friends, Inc. and use of the photos on this site for publication must be approved by Doc's Friends, Inc. For more information, contact: www.b-29doc.com/media-contact/
A SpaceX Falcon 9 rocket with the Surface Water and Ocean Topography (SWOT) spacecraft onboard is seen as it rolls out to the pad, Tuesday, Dec. 13, 2022, at Space Launch Complex 4E at Vandenberg Space Force Base in California. Jointly developed by NASA and Centre National D'Etudes Spatiales (CNES), with contributions from the Canadian Space Agency (CSA) and United Kingdom Space Agency, SWOT is the first satellite mission that will observe nearly all water on Earth’s surface, measuring the height of water in the planet’s lakes, rivers, reservoirs, and the ocean. Photo Credit: (NASA/Keegan Barber)
Rollout of Galileo L14 Ariane 6 A62 flight VA266 at the Ariane 6 launch complex (ELA-4) at Europe's Spaceport in French Guiana on 16 December 2025.
Credits: ESA - M. Pédoussaut
Shortly before dawn, a red-rimmed moon helped to light the way for the Space Shuttle Atlantis as it rolled out to Launch Pad 39A in preparation for launch of Mission STS-86 on September 26, 1997.
Via: www.flickr.com/photos/nasacommons/9458268945/in/dateposted/
At around 3:00 am Saturday, July 17, Boeing's CST-100 Starliner emerged from the Commercial Crew and Cargo Processing Facility (C3PF) at NASA's Kennedy Space Center. It traveled at 5 mph to United Launch Alliance's Vertical Integration Facility, where it was placed atop its ride to the International Space Station, an Atlas V rocket.
The OFT-2 launch is set for 2:53 pm on July 30.
(Pic: me/Nat Geo)
USAF/North American XB-70A Valkyrie rollout, North American Aviation facilities (USAF Plant 42(?)), Palmdale, CA, 11 May 1964.
7.5" x 9.5" - does not appear to have been trimmed.
It's impossible to get too much of this aircraft.
Shortly before dawn, a red-rimmed moon helped to light the way for the Space Shuttle Atlantis as it rolled out to Launch Pad 39A in preparation for launch of Mission STS-86 on September 26, 1997.
Via: www.flickr.com/photos/nasacommons/9458268945/in/dateposted/
The Soyuz TMA-11M rocket, adorned with the logo of the Sochi Olympic Organizing Committee and other related artwork, is seen after being erected into position at the launch pad on Tuesday, Nov. 5, 2013, at the Baikonur Cosmodrome in Kazakhstan. Launch of the Soyuz rocket is scheduled for November 7 and will send Expedition 38 Soyuz Commander Mikhail Tyurin of Roscosmos, Flight Engineer Rick Mastracchio of NASA and Flight Engineer Koichi Wakata of the Japan Aerospace Exploration Agency on a six-month mission aboard the International Space Station. Photo Credit: (NASA/Bill Ingalls)
All photo rights are owned by Doc's Friends, Inc. and use of the photos on this site for publication must be approved by Doc's Friends, Inc. For more information, contact: www.b-29doc.com/media-contact/
A team prepares the 1,000th 777 to roll out of the Everett, Wash., factory. The jetliner is a 777-300ER (extended range) model and will be delivered to Emirates in March 2012. (Patrick Rodwell photo)
Boeing provides this photo for the public to share. Media interested in high-resolution images for publication should email boeingmedia@boeing.com or visit boeing.mediaroom.com. Users may not manipulate or use this photo in commercial materials, advertisements, emails, products, or promotions without licensed permission from Boeing. If you are interested in using Boeing imagery for commercial purposes, email imagelicensing@boeing.com or visit www.boeingimages.com.
nhq201704170036 (April 16, 2017) --- The Soyuz MS-04 spacecraft is raised into position on the launch pad Monday, April 17, 2017 at the Baikonur Cosmodrome in Kazakhstan. Launch of the Soyuz rocket is scheduled for April 20 Baikonur time and will carry Expedition 51 Soyuz Commander Fyodor Yurchikhin of Roscosmos and Flight Engineer Jack Fischer of NASA into orbit to begin their four and a half month mission on the International Space Station. Photo Credit: (NASA/Aubrey Gemignani)
L-3: Our Soyuz rocket with the spacecraft inside is rolled out to the launchpad. The system to keep it upright is ingeniously simple. By using counterweights the rocket is held upright but the slightest force (such as liftoff) pushes the supports out of the way, no complicated electronics required! Did you ever wonder how a launch time is recorded? Easy, the rocket is standing on a large switch, as soon as it is depressed (i.e. we are launched) the time is recorded and we have a launch time!
L-3 : Transfert de la fusée jusqu’au pas de tir. Ça a l’air impressionnant, mais le système pour la faire tenir à la verticale n’a rien de compliqué : on utilise tout simplement des contrepoids. Pas besoin non plus d’électroniques sophistiquées pour dégager la voie à la fusée lors du lancement, la force du décollage suffisant largement pour faire basculer les structures de soutien en arrière. Comment arrive-t-on à connaître l’heure exacte du décollage ? Là aussi, c’est facile : la fusée est installée sous une sorte de grand bouton-poussoir qui est relâché quand elle décolle, ce qui déclenche l’enregistrement de l’heure du lancement.
Credits: ESA–M-Pedoussaut
L-3: Our Soyuz rocket with the spacecraft inside is rolled out to the launchpad. The system to keep it upright is ingeniously simple. By using counterweights the rocket is held upright but the slightest force (such as liftoff) pushes the supports out of the way, no complicated electronics required! Did you ever wonder how a launch time is recorded? Easy, the rocket is standing on a large switch, as soon as it is depressed (i.e. we are launched) the time is recorded and we have a launch time!
L-3 : Transfert de la fusée jusqu’au pas de tir. Ça a l’air impressionnant, mais le système pour la faire tenir à la verticale n’a rien de compliqué : on utilise tout simplement des contrepoids. Pas besoin non plus d’électroniques sophistiquées pour dégager la voie à la fusée lors du lancement, la force du décollage suffisant largement pour faire basculer les structures de soutien en arrière. Comment arrive-t-on à connaître l’heure exacte du décollage ? Là aussi, c’est facile : la fusée est installée sous une sorte de grand bouton-poussoir qui est relâché quand elle décolle, ce qui déclenche l’enregistrement de l’heure du lancement.
Credits: ESA–M-Pedoussaut
Rollout of A/C AN-2 from Final Assy to Weigh Station
All Images are Approved for Public Release as Per JPO on 03 05 13
Rollout PATRIOT Kampfwertanpassung 2 (KWA2).
PATRIOT-Startgerät mit PAC-3 Lenkflugkörper und leeren PAC-3 Startbehältern, am 23.07.2008.
©Bundeswehr/Gygas
During rollout operations for NASA’s Artemis I Moon rocket, the iconic Vehicle Assembly Building is visible in the background behind the countdown clock at Kennedy Space Center in Florida, Tuesday, Aug. 16, 2022. As part of the agency’s Artemis I flight test, the fully stacked and integrated Space Launch System (SLS) rocket with the Orion spacecraft is scheduled to liftoff on Monday, Aug. 29. The first in a series of increasingly complex missions, Artemis I will provide a foundation for human deep space exploration and demonstrate our commitment and capability to extend human presence to the Moon and beyond. The primary goal of Artemis I is to thoroughly test the integrated systems before crewed missions by launching Orion atop the SLS rocket, operating the spacecraft in a deep space environment, testing Orion’s heat shield, and recovering the crew module after reentry, descent, and splashdown. Photo credit: NASA/Ben Smegelsky
Shortly before dawn, a red-rimmed moon helped to light the way for the Space Shuttle Atlantis as it rolled out to Launch Pad 39A in preparation for launch of Mission STS-86 on September 26, 1997.
Via: www.flickr.com/photos/nasacommons/9458268945/in/dateposted/
All photo rights are owned by Doc's Friends, Inc. and use of the photos on this site for publication must be approved by Doc's Friends, Inc. For more information, contact: www.b-29doc.com/media-contact/
All photo rights are owned by Doc's Friends, Inc. and use of the photos on this site for publication must be approved by Doc's Friends, Inc. For more information, contact: www.b-29doc.com/media-contact/
Shortly before dawn, a red-rimmed moon helped to light the way for the Space Shuttle Atlantis as it rolled out to Launch Pad 39A in preparation for launch of Mission STS-86 on September 26, 1997.
Via: www.flickr.com/photos/nasacommons/9458268945/in/dateposted/
NASA Administrator Richard H. Truly addresses the audience in attendance at the rollout ceremonies of the Space Shuttle Orbiter Endeavour which occurred on April 25, 1991, at the Rockwell International facility, Palmdale, Calif. Endeavour, the fourth Orbiter to join the fleet, replacing the lost Challenger, can be seen in the background.
Credit: NASA
Image Number: 91-H-323
Date: April 25, 1991
A team of 777 employees accompanies the 1,000th 777 makes it way outside the Everett, Wash., factory. The airplane is a 777-300ER (extended range) jetliner and it will be delivered to Emirates in March 2012. (Patrick Rodwell photo)
Boeing provides this photo for the public to share. Media interested in high-resolution images for publication should email boeingmedia@boeing.com or visit boeing.mediaroom.com. Users may not manipulate or use this photo in commercial materials, advertisements, emails, products, or promotions without licensed permission from Boeing. If you are interested in using Boeing imagery for commercial purposes, email imagelicensing@boeing.com or visit www.boeingimages.com.
The Soyuz TMA-09M spacecraft is rolled out by train to the Baikonur Cosmodrome launch pad, 26 May 2013. The launch of the Soyuz rocket to the International Space Station (ISS) with Expedition 36/37 Soyuz Commander Fyodor Yurchikhin of the Russian Federal Space Agency (Roscosmos), Flight Engineers; Luca Parmitano of the European Space Agency, and Karen Nyberg of NASA, is scheduled for Wednesday 29 May, Kazakh time. Yurchikhin, Nyberg, and, Parmitano, will remain aboard the station until mid-November.
Credit: NASA/Bill Ingalls
L-3: Our Soyuz rocket with the spacecraft inside is rolled out to the launchpad. The system to keep it upright is ingeniously simple. By using counterweights the rocket is held upright but the slightest force (such as liftoff) pushes the supports out of the way, no complicated electronics required! Did you ever wonder how a launch time is recorded? Easy, the rocket is standing on a large switch, as soon as it is depressed (i.e. we are launched) the time is recorded and we have a launch time!
L-3 : Transfert de la fusée jusqu’au pas de tir. Ça a l’air impressionnant, mais le système pour la faire tenir à la verticale n’a rien de compliqué : on utilise tout simplement des contrepoids. Pas besoin non plus d’électroniques sophistiquées pour dégager la voie à la fusée lors du lancement, la force du décollage suffisant largement pour faire basculer les structures de soutien en arrière. Comment arrive-t-on à connaître l’heure exacte du décollage ? Là aussi, c’est facile : la fusée est installée sous une sorte de grand bouton-poussoir qui est relâché quand elle décolle, ce qui déclenche l’enregistrement de l’heure du lancement.
Credits: ESA–M-Pedoussaut
CAPE CANAVERAL, Fla. – In the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida, NASA Administrator Charlie Bolden delivers a “state of the agency” address at NASA's televised fiscal year 2016 budget rollout event with Kennedy Space Center Director Bob Cabana looking on, at right. Representatives from the Kennedy workforce, news media and social media were in attendance. NASA's Orion, SpaceX Dragon and Boeing CST-100 spacecraft, all destined to play a role in NASA’s overall exploration objectives, were on display. For information on NASA's budget, visit www.nasa.gov/budget. Photo credit: NASA/Amber Watson