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Published to coincide with the 50th anniversary of the first Moon landing by Apollo 11. The story of Apollo has been told many times, but most accounts stop at the first landing. This book picks up where others have left off, and describes the five post-Apollo 11 Moon landings, defined as technical developments built upon engineering excellence. It was only through the robust design adopted when aerospace contractors first designed and built the Apollo spacecraft and the Lunar Module that successive evolutions were possible, taking lunar-landing operations far beyond what had first been envisaged. This book is not intended to tell the full story of each mission, but rather to describe the technical development of spacecraft and equipment necessary to grow the capability from a single EVA (‘moonwalk’) of less than three hours, to advanced missions where astronauts spent three full working days exploring their landing sites. With the aid of a Lunar Roving Vehicle, they collected a wide variety of rocks and soil and left a range of instruments at the surface powered by a thermonuclear generator. As interest grows in humans returning to the Moon, 50 years on from those pioneering days of lunar exploration, we look again at what was accomplished at the dawn of the Space Age, spurred on by a political goal and developed as a tool for science. The story of the Apollo Moon missions is an expression of those achievements.
Designed between 1969 and 1972 and first flown into space in 1981, the NASA Shuttle will have flown almost 140 missions by the time it is retired in 2011. David Baker describes the origin of the reusable launch vehicle concept during the 1960s, its evolution into a viable flying machine in the early 1970s, and its subsequent design, engineering, construction, and operation. The Shuttle’s internal layout and systems are explained, including the operation of life support, electrical-power production, cooling, propulsion, flight control, communications, landing, and avionics systems.
Welcome Aboard! You are about to embark on a spectacular adventure, blazing a trail for future space travel in the world's greatest flying machine. Prepare for lift-off using the step-by-step instructions for launch and ascent. Soar into the sky consulting the authentic gatefold reproduction of the Shuttle's instrument panel. Operate the remote manipulator arm, the space telescope, and the data relay satellite as you communicate with ground control. Chart your space flight using the authentic fold-out orbital map. Hurtle back through the Earth's atmosphere to land the aircraft gently like a glider. Congratulations! We hope your mission is rewarding and fascinating! Sincerely, Directorate for Crew Training Written for the layperson by curators at the National Air and Space Museum, with colorful illustrations throughout, THE SPACE SHUTTLE OPERATOR'S MANUAL takes the reader through all the motions of an actual mission -- from preparation to takeoff to orbit to re-entry.
On July 20, 1969, US astronauts Neil Armstrong and Buzz Aldrin became the first men to walk on the moon. The Apollo 11 mission that carried them and fellow astronaut Michael Collins on their epic journey marked the successful culmination of a quest that, ironically, had begun in Nazi Germany thirty years before. This is the story of the Apollo 11 mission and the ‘space hardware’ that made it all possible. Author Chris Riley looks at the evolution and design of the mighty Saturn V rocket, the Command and Service Modules, and the Lunar Module. He also describes the space suits worn by the crew, with their special life support systems. Launch procedures are described, ‘flying’ the Saturn V, navigation, course correction ‘burns’, orbital rendezvous techniques, flying the LEM, moon landing, moon walk, take-off from the moon, and earth re-entry procedure. Includes performance data, fuels, biographies of Armstrong, Aldrin and Collins, Gene Kranz and Werner von Braun. Detailed appendices cover all of the Apollo missions, with full details of crews, spacecraft names and logos, mission priorities, moon landing sites, and the Lunar Rover.
Few launch vehicles are as iconic and distinctive as NASA's behemoth rocket, the Saturn V, and none left such a lasting impression on those who watched it ascend. Developed with the specific brief to send humans to the Moon, it pushed rocketry to new scales. Its greatest triumph is that it achieved its goal repeatedly with an enviable record of mission success. Haynes' Saturn V Manual tells the story of this magnificent and hugely powerful machine. It explains how each of the vehicle's three stages worked; Boeing's S-IC first stage with a power output as great as the UK's peak electricity consumption, North American Aviation's S-II troubled second stage, Douglas's workhorse S-IVB third stage with its instrument unit brain - as much a spacecraft as a rocket. From the decision to build it to the operation of its engines' valves and pumps, this lavishly illustrated and deeply informative book offers a deeper appreciation of the amazing Saturn V.
Mars is one of the most explored planets in the solar system. Machines called probes and rovers gather photographs and information from Mars to be sent to Earth. Learn more in Journey to Mars, one of the titles in the All About Space Science series. This series examines the history and science of space exploration. It also delves into the careers and technological advancements associated with this exciting field of study.
The world-famous Apollo 13 mission and dramatic explosion on the service module, captured in technical detail like you’ve never seen before. On April 13, 1970, NASA’s Apollo 13 suffered a near-catastrophic explosion in space. The planned lunar landing that day was promptly called off, and a new challenge prioritized: get the spacecraft safely back to Earth. Written by David Baker, an original member of NASA’s Apollo 13 Houston Mission Control team, Apollo 13 Owners’ Workshop Manual offers unprecedented, meticulous coverage of the Apollo 13 mission. Beginning with an overview of the era’s equipment and technology, Baker focuses primarily on the planning, goals, and execution of the mission itself, including an hour-by-hour timeline of the crew’s near-disaster in space. Additionally, his thorough analysis of the post-flight investigation and lurking design problems with the spacecraft offer the rare viewpoint of a true Apollo 13 insider. Not only does Baker present and analyze the mission itself, but he also celebrates NASA’s legacy in the wake of the event with the redesign of sections of the Apollo spacecraft and the changes to the way later missions were organized, beginning with Apollo 14. In typical fully illustrated Haynes Manual detail, Apollo 13 Owners’ Workshop Manual presents the fascinating circumstances behind a team who recovered their spacecraft just hours before hurtling back into the earth’s atmosphere. But more than that, the book is a brand-new insight into the remarkable story of how clever, improvised engineering, remarkable teamwork, and sheer will to succeed averted a major catastrophe in space.
This book is in full-color - other editions may be in grayscale (non-color). The hardback version is ISBN 9781680920512 and the paperback version is ISBN 9781680920505. The NASA Space Flight Program and Project Management Handbook (NASA/SP-2014-3705) is the companion document to NPR 7120.5E and represents the accumulation of knowledge NASA gleaned on managing program and projects coming out of NASA's human, robotic, and scientific missions of the last decade. At the end of the historic Shuttle program, the United States entered a new era that includes commercial missions to low-earth orbit as well as new multi-national exploration missions deeper into space. This handbook is a codification of the "corporate knowledge" for existing and future NASA space flight programs and projects. These practices have evolved as a function of NASA's core values on safety, integrity, team work, and excellence, and may also prove a resource for other agencies, the private sector, and academia. The knowledge gained from the victories and defeats of that era, including the checks and balances and initiatives to better control cost and risk, provides a foundation to launch us into an exciting and healthy space program of the future.
The book begins with early ideas about astronauts in science fiction and film portrayals of the role. It goes on to cover recruitment and the application process to become an astronaut with NASA and ESA, and the qualifications and fitness required for various astronaut roles. The reader is taken through training for different types of astronaut roles (pilot, scientist, payload specialist, space walker, Moon walker, etc) and the different types of missions are described (sub-orbital, Earth orbit, living aboard the International Space Station (ISS), lunar flight and landing, driving on the Moon, and planned future missions to asteroids and Mars). The equipment used by astronauts is documented, including clothing, space suits, tools, backpacks, zero-gravity toilets, food stations, etc. The experience of space flight on typical missions is outlined, illustrated by the accounts of real astronauts on actual flights – the experience of launch, first reactions to Zero-G, exiting the hatch for a spacewalk, the views of Earth, walking on the Moon, and re-entering the Earth’s atmosphere. The book is written in a style accessible to the layperson, while including sufficient technical details to satisfy more knowledgeable readers. It also captures the excitement and wonder of spaceflight, making extensive use of astronaut biographies and interviews to uncover the real human experience, as much as technical information to provide detail to satisfy those curious about ‘how it works’.