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по названию А-я Я-а
по автору А-я Я-а
1978
Armeerundschau Jugendo+Technik Interkosmos 78
1975
Apollo-Soyuz_Press_Kit
1975
Apollo-Soyuz_Press_Kit
2015
A Researcher’s Guide to: Acceleration Environment
Full Speed AheadThe International Space Station (ISS) has a mass of over 900,000 pounds (400,000 kg), but it’s nearly weightless! This near weightlessness is due to its continuous state of free-fall around the Earth not considering a small amount of atmospheric drag. An accounting of precisely how weightless comes by virtue of the Microgravity Acceleration Measurement System (MAMS) which monitors the quasi-steady acceleration environment 24 hours a day, 7 days a week. The ISS offers a microgravity research platform for those who need to leverage its unique environment. The space station is over 350 feet (109 m) wide and has 3 separate, main laboratory modules, each roughly the size of a school bus. Each laboratory has a multitude of equipment, some related to science operations and some related to life-support. Centrifuges, fans, pumps, compressors, structural bending, etc. all contribute to tiny vibrations over a wide range of frequencies that are monitored continuously by sensors distributed in locations designated for support by the Space Acceleration Measurement System (SAMS). These SAMS measurements along with those from MAMS give researchers, technology developers, and structural analysts the information they need to do their work, whether it is principal investigators studying fluid or combustion behavior in microgravity, or analysts tracking the structural integrity of the ISS
2015
A Researcher’s Guide to: Cellular Biology
The mission of the International Space Station Program is to advance science and technology research, expand human knowledge, inspire and educate the next generation, foster the commercial development of space, and demonstrate capabilities to enable future exploration missions beyond low-Earth orbit (LEO). This guide has been developed to provide prospective investigators with an introduction to ISS capabilities, characteristics, resources, processes, lessons learned, and knowledge gained in the general topic area of Cellular Biology.
2015
A Researcher’s Guide to: Combustion Science
Flying 250 miles above the Earth, the International Space Station (ISS) provides a platform for research to improve life on Earth, enable space exploration, and understand the universe. This Researcher’s Guide is intended to help potential ISS combustion science researchers plan experiments utilizing the microgravity environment in order to understand how heat and mass transport phenomena coupled with chemistry affect combustion behavior and fire safety. It covers the nature of the acceleration environment on ISS, available facilities for conducting combustion research, examples of previous microgravity investigations, and current combustion science and fire safety projects being developed for execution on the ISS.
A Researcher’s Guide to: Earth Observations
Orbiting the Earth at almost 5 miles per second, a structure exists that is nearly the size of a football field and weighs almost a million pounds. The International Space Station (ISS) is a testament to international cooperation and significant achievements in engineering. Beyond all of this, the ISS is a truly unique research platform. The possibilities of what can be discovered by conducting research on the ISS are endless and have the potential to contribute to the greater good of life on Earth and inspire generations of researchers to come. As we increase utilization of ISS as a National Laboratory, now is the time for investigators to propose new research and to make discoveries unveiling novel responses that could not be defined using traditional approaches on Earth.
2015
A Researcher’s Guide to: Fluid Physics
Flying 250 miles above the Earth, the ISS provides a platform for research to improve life on Earth, enable space exploration, and understand the universe. This researcher’s guide is intended to help potential ISS fluid physics researchers plan experiments utilizing the microgravity environment in order to understand how heat and mass transfer affects fluid flows and behavior. It covers the nature of the acceleration environment on ISS, available facilities for conducting fluid physics research, examples of previous microgravity research, and current fluid physics projects being developed for execution on the ISS.
2015
A Researcher’s Guide to: Macromolecular Crystal Growth
Orbiting the Earth at almost 5 miles per second, a structure exists that is nearly the size of a football field and weighs almost a million pounds. The International Space Station (ISS) is a testament to international cooperation and significant achievements in engineering. Beyond all of this, the ISS is a truly unique research platform. The possibilities of what can be discovered by conducting research on the ISS are endless and have the potential to contribute to the greater good of life on Earth and inspire generations of researchers to come. As we increase utilization of ISS as a National Laboratory, now is the time for investigators to propose new research and to make discoveries unveiling new knowledge about nature that could not be defined using traditional approaches on Earth.
2015
A Researcher’s Guide to: Microbial Research
Orbiting the Earth at almost 5 miles per second, a structure exists that is nearly the size of a football field and weighs almost a million pounds. The International Space Station (ISS) is a testament to international cooperation and significant achievements in engineering. Beyond all of this, the ISS is a truly unique research platform. The possibilities of what can be discovered by conducting research on the ISS are endless and have the potential to contribute to the greater good of life on Earth and inspire generations of researchers to come. As we increase utilization of ISS as a National Laboratory, now is the time for investigators to propose new research and to make discoveries unveiling novel responses that could not be defined using traditional approaches on Earth
2015
A Researcher’s Guide to: Microgravity Materials Research
Flying 250 miles above the Earth, the ISS provides a platform for research to improve life on Earth, enable space exploration, and understand the universe. This researcher’s guide is intended to help potential ISS materials science researchers plan experiments utilizing the microgravity environment in order to understand how heat and mass transfer affects materials processing. It covers the nature of the acceleration environment on ISS, available facilities for conducting materials research, examples of previous microgravity materials research, and current materials science projects being developed for execution on the ISS.
2018
A researchers guide to physical sciences informatics system-nasa iss science office
’The Lab is Open Orbiting the Earth at almost 5 miles per second, a structure exists that is nearly the size of a football feld and weighs almost a million pounds. The International Space Station (ISS) is a testament to international cooperation and signifcant achievements in engineering. Beyond all of this, the ISS is a truly unique research platform. The possibilities of what can be discovered by using the results of research already conducted, as well as by conducting research on the ISS, are endless and have the potential to contribute to the greater good of life on Earth and inspire generations of researchers to come. As we increase utilization of the ISS as a National Laboratory, now is the time for investigators to propose ways to use both existing and new research and to make discoveries unveiling new knowledge about nature that could not be defned using traditional approaches on Earth. NASA s Physical Sciences Research Program conducts fundamental and applied physical sciences research, with the objective of enabling exploration and pioneering scientifc discovery. NASA s experiments in the various disciplines of physical science reveal how physical systems respond to the near absence of gravity. They also reveal how other phenomena that have a small infuence on physical systems in Earth’s gravity can dominate system behavior in space. Not only are we using the ISS to perform investigations, we are also taking the results from these investigations and making them available to researchers via open data. The PSI system (https://psi.nasa.gov) allows researchers to access the data from physical sciences investigations, most of which have been performed on the ISS.
2016
A Researcher’s Guide to: Plant Science
Soaring 250 miles above Earth, the International Space Station (ISS) is a modern wonder of the world, combining the efforts of 15 countries and thousands of scientists, engineers and technicians. The ISS is a magnificent platform and laboratory for all kinds of research to improve life on Earth, enable future space exploration and understand the universe. This guide is intended to help potential researchers plan and carry out plant experiments aboard the ISS, provide an overview of plant growth chambers available for use, and discuss the integrated spaceflight environment. This includes utilizing the continuous freefall or microgravity environment to study the role of gravity and other spaceflight environment effects on plant growth and metabolism.
2015
A Researcher’s Guide to: Rodent Research
Soaring 250 miles above Earth, the ISS is a modern wonder of the world, combining the efforts of 15 countries and thousands of scientists, engineers and technicians. The ISS is a magnificent platform for all kinds of research to improve life on Earth, enable future space exploration and understand the universe. This researcher’s guide is intended to help potential researchers plan experiments that would be exposed to the space environment within the ISS. It covers all the pertinent aspects of that space environment and how to best translate ground research to flight results and lessons learned from previous experiments
2015
A Researcher’s Guide to: Space Environmental Effects
Soaring 250 miles above Earth, the ISS is a modern wonder of the world, combining the efforts of 15 countries and thousands of scientists, engineers and technicians. The ISS is a magnificent platform for all kinds of research to improve life on Earth, enable future space exploration and understand the universe. This researcher’s guide is intended to help potential researchers plan experiments that would be exposed to the space environment, while externally attached to or deployed from the ISS. It covers all the pertinent aspects of the space environment, how to best translate ground research to flight results and lessons learned from previous experiments. It also details what power and data are available on the ISS in various external locations.
2013
A Researcher’s Guide to: Technology Demonstration
The mission of the International Space Station (ISS) Program is to advance science and technology research, expand human knowledge, inspire and educate the next generation, foster the commercial development of space and demonstrate capabilities to enable future exploration missions beyond low Earth orbit (LEO). To execute this mission — specifically, technology advancements — the ISS Program is utilizing the space station as a test bed to demonstrate operational techniques and capabilities, and demonstrate technologies and advanced systems that benefit space science capabilities and human and robotic exploration beyond LEO. This booklet has been developed to provide prospective technology and advanced system developers the information that will aid in the formulation of demonstration concepts and as an introduction of station capabilities, characteristics and processes.
2012
Celebrating 30 Years of the Space Shuttle Program
The Space Shuttle fleet set high marks of achievement and endurance through 30 years of missions, from its first, when STS-1 launched on April 12, 1981, to its last, when STS-135 landed on July 21, 2011. Beginning with the orbiter Columbia and continuing with Challenger, Discovery, Atlantis, and Endeavour, the National Aeronautics and Space Administration's (NASA) Space Shuttle has carried people into orbit; launched, recovered, and repaired satellites; conducted cutting-edge research; and helped build the largest human made structure in space, the International Space Station. As humanity's first reusable spacecraft, the Space Shuttle pushed the bounds of inquiry, requiring not only advanced technologies, but the tremendous effort of a vast workforce. Thousands of civil servants and contractors throughout NASA Centers and across the Nation have demonstrated an unwavering commitment to mission success and the greater goal of space exploration. For an entire generation, the Space Shuttle program defined NASA. This book is a tribute to everything accomplished during the Shuttle program's 30 years of operation.
1984
Стыковочные устройства космических аппаратов
1978
140 суток в космосе специальный выпуск
О полете "Салют - 6"
1976
JANNAF Rocket Engine Performance Prediction and Evaluation Manual
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