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PIX4640756: Mine sur un asteroide - Illustration - Asteroid mining outpost - Artist's view a mining base installed on an asteroid. A massive manned mining outpost is built around a rocky near - Earth asteroid about 300 million miles from Earth. This oblong asteroid is approximately 2,000 feet long by 1,000 feet wide. The mining base and its supporting structure is almost one - half statute mile long / Bridgeman Images
PIX4640856: Extravehicular output of Cosmonauts - 06/2014 - Cosmonauts extravehicular activity 06/2014: Extravehicular output of cosmonauts Alexander Skvortsov (red stripes) and Oleg Artemyev for the maintenance of the International Space Station (ISS). A Progress ship is visible, mooring at the station. 19 June 2014. English cosmonauts Alexander Skvortsov (red stripes) and Oleg Artemyev, both Expedition 40 flight engineers, participate in a session of extravehicular activity (EVA) as work continues on the International Space Station. During the seven-hour, 23-minute spacewalk Skvortsov and Artemyev completed installation and experiment tasks outside the station's Russian segment. The Progress 55 spacecraft, currently docked to the Pirs Docking Compartment, is at left. 19 June 2014. / Bridgeman Images
PIX4640940: Weightless Astronaut: Astronaut Scott Kelly has fun with carrots in the International Space Station (ISS). April 19, 2015. Snack time on the International Space Station as NASA astronaut Scott Kelly watches a bunch of fresh carrots float in front of him while preparing to partake of their crunchy goodness. Scott is one of the One-Year crew members on the station to test how the human body reacts to an extended presence in space as preparation for the long flights NASA plans to Mars and back in the future / Bridgeman Images
PIX4640942: Samantha Cristoforetti in weightlessness - Samantha Cristoforetti in ISS: Italian astronaut Samantha Cristoforetti in the International Space Station (ISS). 19/02/2015. / Bridgeman Images
PIX4640971: Samantha Cristoforetti in weightlessness - Samantha Cristoforetti in ISS: Italian astronaut Samantha Cristoforetti in Cupola, the panoramic observation dome of the International Space Station (ISS) celebrates his 200th day in space. Samantha Cristoforetti is to date the longest time in space, with a flight lasting 199 days and 16 hours. ESA astronaut Samantha Cristoforetti enjoying the view on her 200th day in space on the International Space Station. / Bridgeman Images
PIX4640984: ISS: Installation of BEAM - 04/2016 - Bigelow Expandable Activity Module installation - 04/2016 - Installation of the Bigelow Expandable Activity Module (BEAM) on the International Space Station (ISS) on 16 April 2016. This experimental habitable module is intended to test the technique of inflatable space habitat. The module, whose internal volume pressurized once deployed is 16 m3, will be tested for 2 years. The Bigelow Expandable Activity Module (BEAM) was installed to the International Space Station on April 16, 2016 at 5:36 a.m. EDT. Following extraction from Spacex's Dragon cargo craft using the Canadarm2 robotic arm, ground controllers installed the expandable module to the aft port of Tranquility. Astronauts will enter BEAM on an occasional basis to conduct tests to validate the module's overall performance and the capability of expandable habitats / Bridgeman Images
PIX4641050: Progress spacecraft seen from the International Space Station - Progress spacecraft from ISS 07/2016: Progress 62 spacecraft, during an automatic docking test at the International Space Station. July 1, 2016 - The undocked Russian Progress 62 spacecraft backs away from the International Space Station for a test of the upgraded tele-robotically operated rendezvous system, or the TORU manual docking system. July 1st 2016 - / Bridgeman Images
PIX4641167: Thomas Pesquet aboard ISS - Thomas Pesquet in ISS: French astronaut Thomas Pesquet checks the proper functioning of his space suit aboard the International Space Station (ISS). 30 December 2016 - ESA (European Space Agency) astronaut Thomas Pesquet checking his spacesuit aboard the International Space Station / Bridgeman Images
PIX4641246: Thomas Pesquet in the International Space Station (ISS) - Thomas Pesquet in ISS: French astronaut Thomas Pesquet deguts macaroons in the International Space Station (ISS). February 23, 2017. / Bridgeman Images
PIX4638695: Lava Cactus - Galapagos - Lava Cactus - Galapagos - Lava Cactus (Brachycereus nesioticus) on Fernandina Island. The lava cactus (Brachycereus nesioticus) is a species of cactus and the sole species of the genus Brachycereus. Fernandina, Galapagos / Bridgeman Images
PIX4638703: Apollo 11: lunar rock - Apollo 11: lunar rock: basaltic lunar rock brought back by astronauts from the Apollo 11 mission. Sample 10057. Lunar basalt sample. The sample number is 10057. This rock was among the samples collected by astronauts Neil A. Armstrong and Edwin E. Aldrin Jr. during their lunar surface extravehicular activity on July 20, 1969. / Bridgeman Images
PIX4638831: Lunar base - Illustration - Moon base - artist's view - Artist view of a permanent base installed on the Moon. Moon base - artist's life / Bridgeman Images
PIX4638880: Depart to the Moon - Artist view - Tug and lunar lander leaving Earth - Artist view - A spaceship leaves Earth orbit for a three-day journey to the Moon. Following a powerful burst from its primary thruster, a trans-moon space tug accelerates itself and the attached lunar lander into a much larger Earth orbit that will intercept the moon in about three days / Bridgeman Images
LRI4638915: View of the island of Delos in the Cyclades, in the back to the right Mikonos. Greece / Bridgeman Images
PIX4638923: Stadium on the Moon - Artist's view - Lunar Stadium - Wrestling meeting in a stadium on the Moon. A wrestling meeting in a lunar stadium / Bridgeman Images
PIX4638930: Back to the Moon: the Ares 1 and Ares 5 fusees - Illustration of Ares I and Ares V Launch Vehicles - Lunar Programme Constellation. Artist's view of the two future launchers Ares 1 and Ares 5 (right). Ares 5 is a cargo rocket that will be used around 2020 to carry the landing module as well as the various elements needed to build a base on the Moon. Ares 1, previewed to operate from 2014, will take the inhabited capsule Orion, first to the destination of the international space station, then towards the moon. Lunar program Constellation. Artwork of the future launchers Ares 1 and Ares 5. Ares 1 (left) is the crew launch vehicle; it will carry Orion capsule to ISS in 2014. The larger, unmanned Ares V will be the cargo launch vehicle for project Constellation / Bridgeman Images
PIX4638940: Back to the Moon: the Ares 1 rocket - Illustration of Ares I launch - Constellation Programme. The Ares 1 rocket carrying the module lives Orion. American project to return man to the Moon. The Ares 1 rocket is expected to take a crew to the space station in 2014 and then to the Moon in 2020. Artist's view. Illustration of the Ares I crew launch vehicle on the launch pad at Nasa's Kennedy Space Center, Florida. Ares rockets, named for the Greek god associated with Mars, will return humans to the moon and later take them to Mars and other destinations. Ares I is an inline, two-stage rocket configuration topped by the Orion crew vehicle and its launch abort system. Ares I may also deliver resources and supplies to the International Space Station (ISS), or to “” park”” payloads in orbit for retrieval by other spacecraft bound for the moon or other destinations / Bridgeman Images
PIX4638967: Back to the Moon: Artist view from the departure to the Moon - The Orion spacecraft onward to Moon - Artist view - The module inhabit Orion is docked to the planing module in Earth orbit and propels to the moon through a stage of the Ares 5 rocket. Ares 5 is a cargo rocket that will be used around 2020 to carry the landing module as well as the various elements needed to build a base on the Moon. The Orion manned spacecraft, docked to the lunar module in lunar orbit, propelled by an Ares 5 stage rocket towards the Moon. The Nasa's Project Constellation plans to send human explorers back to the Moon by 2020, and then onward to Mars; each Orion spacecraft will carry a crew of four to six astronauts / Bridgeman Images
PIX4639037: Back to the Moon: the Orion module in lunar orbit - Artist view - The Orion spacecraft in lunar orbit - Lunar program Constellation. The module lives in Orion orbit around the Moon. Orion should be able to take a crew of four astronauts to the Moon in 2020 and could be used to take men to Mars. Artist's concept of the Orion manned spacecraft in lunar orbit. The Nasa's Project Constellation plans to send human explorers back to the Moon by 2020, and then onward to Mars; each Orion spacecraft will carry a crew of four to six astronauts / Bridgeman Images
PIX4639089: Space Exploration: Soyuz and Orion Ships - Artist's View - CEV-Soyuz Joint Mission - An American Orion ship mooring has a Soyuz TMA-M spaceship during a space exploration mission. Illustration. An Orion class Crew Exploration Vehicle (AKA Deep Space Vehicle) is paired with a Soyuz TMA-M manned spacecraft for a joint deep space mission. The two spacecraft are connected via an adapter module that includes a hatch for Extra-vehicular activity (EVA) and science instrumentation / Bridgeman Images
TEC4639868: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
TEC4639903: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
TEC4639919: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
TEC4639931: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
TEC4639936: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
PIX4639956: Mars Exploration - Mars Exploration - Illustration: Astronauts drill the surface of Mars to find water. Astronauts drill for water on the Red Planet. / Bridgeman Images
TEC4639962: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
TEC4639991: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
TEC4639998: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images
TEC4640019: The royal greenhouses of Laeken in Belgium. Achievement 1873. In the 19th century, glass and metal, as new building materials, allowed the construction of a new type of building: the greenhouse. King Leopold II (1835-1909) entrusted the architect Alphonse Balat (1819-1895) with the construction of an ideal glass palace. Open to the public three weeks a year, the Royal Greenhouses of Laeken house an exceptional collection of plants, some dating back to Leopold II. Photography 30/04/06. / Bridgeman Images