Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This successor edition picks up the story where the first edition left off in 1997, and runs through to Mir’s de-orbiting in March 2001, providing the definitive account of the Mir Space Station. The book reviews the origins of the Soviet space station programme, in particular the highly successful Salyuts 6 and 7, describes Mir’s structure, environment, power supply and maneuvering systems, and provides a comprehensive account of how it was assembled and how it operated in orbit. Tells how the Soviet Union's experience with a succession of Salyut space stations led to the development of Mir, which was assembled in space, piece by piece, between 1982 and 1996 and became an international research laboratory whose technology went on to form the 'core modules' of the International Space Station.

Mir (Space station) --- Astronomy. --- Astronautics. --- Astrophysics. --- Popular Science in Astronomy. --- Aerospace Technology and Astronautics. --- Astronomy, Observations and Techniques. --- Space Sciences (including Extraterrestrial Physics, Space Exploration and Astronautics). --- Astronomical physics --- Astronomy --- Cosmic physics --- Physics --- Space sciences --- Aeronautics --- Astrodynamics --- Space flight --- Space vehicles --- Aerospace engineering. --- Observations, Astronomical. --- Astronomy—Observations. --- Space sciences. --- Science and space --- Space research --- Cosmology --- Science --- Astronomical observations --- Observations, Astronomical --- Aeronautical engineering --- Astronautics --- Engineering

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Science --- Space research --- Astrophysics --- ruimtestations --- astrofysica --- popularisering wetenschap --- ruimte (astronomie) --- ruimtevaart --- astronomie

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In the 1960s and 1970s deep space missions were dispatched in pairs in case one was lost in launch or failed during its journey. Following the triumphs of the Viking landings on Mars in 1976 and both Voyagers spacecraft successfully surveying the outer giant planets of the Solar System, it was decided by NASA to cut costs and send out just a single probe. Although Magellan successfully mapped Venus by radar, it suffered from problems during the flight. Then came the loss of Mars Observer, whose engine exploded as it was preparing to enter Mars’ orbit because it was using technology designed for Earth’s satellites and the engine was not suited to spending several months in space. Later came the high-profile losses of Mars Climate Observer and Mars Polar Lander - a consequence of the faster, better, cheaper philosophy introduced by Dan Goldin in 1993. Even the highly successful Galileo mission suffered a major setback when its high-gain antenna (also based on satellite mission suffered a major setback when its high-gain antenna (also based on satellite communication technology) failed to deploy fully, greatly diminishing the craft’s radio transmission capabilities, forcing the ground crew to re-programme the on-board computer to enable it to fulfil its mission and provide stunning images of Jupiter and its moons. In Space Systems Failures, David Harland (here working with co-author Ralph Lorenz) describes the many quite fascinating tales of woe involving failures of rockets, satellites and deep space missions in his inimitable style, providing a unique insight into the trials and tribulations of exploration at the high frontier.

Space vehicle accidents. --- Aeronautics --- History. --- Space vehicles --- Accidents --- Astronautics --- Astronomy. --- Engineering. --- Astronomy, Observations and Techniques. --- Popular Science in Astronomy. --- Automotive Engineering. --- Construction --- Industrial arts --- Technology --- Observations, Astronomical. --- Astronomy—Observations. --- Automotive engineering. --- Astronomical observations --- Observations, Astronomical

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

"Why explore Mars? The simple answer is, we're going to Mars to search for life. We're following the water because on Earth where you find liquid water, organic material, and energy, you find life." u find life" Ed Weiler, NASA's Associate Administrator for Space Science Ear where you find liquid water, A century ago, the world was enthralled by Percival Lowell's vision of a Mars criss-crossed with the canals of a dying civilization distributing water from the polar caps. Later, Mars was thought to have been cold, dead and dry for eons, but striking new evidence suggests the planet was relatively warm and wet in geologically recent times, and that even now there are reserves of water frozen beneath the planet's surface. Today, robot spacecraft maneuver across the Martian surface while others orbit overhead seeking evidence of water, ice, and landing sites for further exploration. In recent years, the very possibilities for life have dramatically expanded as discoveries by biologists and oceanographers have revealed bizarre life forms where none would have been expected. And as the growing evidence that water flowed on Mars becomes indisputable, more spacecraft are soon to follow. This highly absorbing book relates how NASA and ESA have sought evidence of life on Mars. ˜Follow the water' with noted science writer David Harland as he assembles and weighs the evidence in this timely and compelling book. It contains what you need to know behind today's, and possibly tomorrow's, headlines, including details of the Mariner, Viking, and Pathfinder missions and evolving theories of Martian geology and climate. It explains how the search accelerates with the Mars Orbiter and Mars Exploration Rovers Spirit and Opportunity. Harland sets this within the broader perspective of the likely nature of life on Mars as compared to primitive life on Earth. Finally, he analyzes the implications of there being life on both planets. Join the scientific adventure of a lifetime in this well-researched and thoroughly engrossing true account.

Science --- Space research --- Solar system --- Astrophysics --- Biology --- zonnestelsel --- astrofysica --- popularisering wetenschap --- biologie --- ruimte (astronomie) --- planeten --- ruimtevaart --- astronomie

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In the 1960s and 1970s deep space missions were dispatched in pairs in case one was lost in launch or failed during its journey. Following the triumphs of the Viking landings on Mars in 1976 and both Voyagers spacecraft successfully surveying the outer giant planets of the Solar System, it was decided by NASA to cut costs and send out just a single probe. Although Magellan successfully mapped Venus by radar, it suffered from problems during the flight. Then came the loss of Mars Observer, whose engine exploded as it was preparing to enter Mars' orbit because it was using technology designed for Earth's satellites and the engine was not suited to spending several months in space. Later came the high-profile losses of Mars Climate Observer and Mars Polar Lander - a consequence of the faster, better, cheaper philosophy introduced by Dan Goldin in 1993. Even the highly successful Galileo mission suffered a major setback when its high-gain antenna (also based on satellite mission suffered a major setback when its high-gain antenna (also based on satellite communication technology) failed to deploy fully, greatly diminishing the craft's radio transmission capabilities, forcing the ground crew to re-programme the on-board computer to enable it to fulfil its mission and provide stunning images of Jupiter and its moons. In Space Systems Failures, David Harland (here working with co-author Ralph Lorenz) describes the many quite fascinating tales of woe involving failures of rockets, satellites and deep space missions in his inimitable style, providing a unique insight into the trials and tribulations of exploration at the high frontier.

Science --- Space research --- Astrophysics --- Transport engineering --- astrofysica --- popularisering wetenschap --- transport --- ruimte (astronomie) --- astronomie