How fast and how far can we travel? Fundamental breakthroughs in propulsion and energy are required for interstellar travel to be feasible. To overcome the formidable time-distance barrier for travel between stars, robust leaps in theory and engineering for energy production, control and storage must occur, as well as the advancement and demonstration of propulsion techniques.
Data, Communications and Information Technology
Sending and receiving information by interstellar travelers or robotic vehicles requires development new methods to traverse the vast emptiness between stars. Additionally, in the absence of routine and timely communication with Earth, a probe or traveler must be self-sufficient in gathering, generating, compiling, storing, analyzing and retrieving data while ensuring these systems are operational over the lifetime of the mission and beyond.
Designing for Interstellar
Design for interstellar probes and crewed vehicles must address the unique characteristics and extreme environment of interstellar space. The equipment, structures, tools, materials, buildings, furniture, cleaning and maintenance processes, clothing-the accouterments of life and work-surround and create an environment. This environment protects, nourishes and facilitates daily activities. For most living things, their environment must fulfill many physical needs and for higher order creatures, physical, mental and emotional requirements need be met as well. Understanding, optimizing and manufacturing design to make these aspects of daily activities sustainable are critical for any hope of successful interstellar flight-with a living crew or robotic probes.
"Uncharted" Space and Destinations
Understanding the interstellar medium and the composition of exosolar systems is vital as we contemplate travel to the stars. In addition, as our gaze is drawn many light years away, focusing on closer objectives as stepping stones to deep space will be essential. Beyond Mars, what missions should be designed to eventuate successful travel to another star? How should potential destinations be evaluated? What do we know and how do we learn more about space between the stars?
Interstellar Education
The journey beyond our solar system will overwhelm current educational practices. Commonly held beliefs and understandings of "learning" must and will be challenged. It is probable that humans have huge untapped capacities. Innovative learning tools and educational structures are needed for syntheses of ever-increasing information. The interstellar education platform will drive new knowledge of the universe and the development of the workforce that can create all that will be needed for interstellar travel. What are these new educational paradigms? What is education's role-formal and informal-in producing interstellar citizens?
Life Sciences in Space Exploration
As "Earth-evolved" humans, plants and other life forms travel deeper in space, we must understand much more about the fundamentals of life mechanisms. We must prepare for radical shifts in nutrition, potential therapeutics, growth and development, physiology and ethics. Concurrently, as we search for life beyond the earth we may need to re-evaluate our perspective of what is defined as "life". Also, how might we use the interstellar environment itself for life science research?
Becoming an Interstellar Civilization
Are humans driven to search beyond our knowledge base? How and in response to what do we create the belief systems that guide us? Interstellar travel is not just about the physical trip, but must include the journey civilizations take together. Who will we be and what will define our societies, morality, ethics, cultures, laws, economies, relationships and identities?
Interstellar Innovations Enhancing Life on Earth
Technology progresses in small increments and by leaps and bounds. Often the biggest steps forward are through the invention and innovation required to meet grand challenges. Interstellar travel represents such a challenge that may spur new economies, combat climate change, address heretofore incurable diseases. This session asks "What are these innovations and how can we deploy these to enhance life here on Earth?" [100yss.org
The 100 Year Starship (100YSS) is a joint U.S. Defense Advanced Research Projects Agency (DARPA) and National Aeronautics and Space Administration (NASA) grant project to a private entity. The goal of the study is not to have the government fund the actual building of spacecraft, but rather to create a business plan that can last 100 years in order to help foster the research needed for interstellar travel. [en.wikipedia.org
А ещё Энергомаш радовал нас, жителей Химок, красивыми оранжевыми облаками и разноцветными сливами в канал. Было это в перестроечные годы, к чести завода скажу — давно такого нету =)
Мы еще делаем ракеты (но часто падают почему-то, особенно с очень ценными спутниками), и перекрыли Енисей (но вот СШГЭС лет 5 назад чуть не накрылась совсем — 49 миллиардов ущерба, 75 трупов и риск перелива и разрушения арочной части плотины — успели водосброс построить второй вовремя, пронесло), и даже в области балета (Мариинку в Нью-Йорк Сити на бис вызывают по 15 раз, а вот Волочкова сука конченная, блядь) неоднозначно всё совсем.
Военные технологии у нас были в общем то всегда на высоте (не все конечно и не всегда, ночасто — бабла в совесткие времена вбухивали по самое не балуй). Остальное ну и так все в курсе.
Если Вы не в состоянии сделать выводы на основании данного обзора, то Вы не Псаки, и за научными подробностями Вам необходимо обратиться непосредственно в архив КБ "Энергомаша" через Первый отдел. Вам обязательно помогут.
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100 years Starship. Public symposium
Propulsion and Energy
How fast and how far can we travel? Fundamental breakthroughs in propulsion and energy are required for interstellar travel to be feasible. To overcome the formidable time-distance barrier for travel between stars, robust leaps in theory and engineering for energy production, control and storage must occur, as well as the advancement and demonstration of propulsion techniques.
Data, Communications and Information Technology
Sending and receiving information by interstellar travelers or robotic vehicles requires development new methods to traverse the vast emptiness between stars. Additionally, in the absence of routine and timely communication with Earth, a probe or traveler must be self-sufficient in gathering, generating, compiling, storing, analyzing and retrieving data while ensuring these systems are operational over the lifetime of the mission and beyond.
Designing for Interstellar
Design for interstellar probes and crewed vehicles must address the unique characteristics and extreme environment of interstellar space. The equipment, structures, tools, materials, buildings, furniture, cleaning and maintenance processes, clothing-the accouterments of life and work-surround and create an environment. This environment protects, nourishes and facilitates daily activities. For most living things, their environment must fulfill many physical needs and for higher order creatures, physical, mental and emotional requirements need be met as well. Understanding, optimizing and manufacturing design to make these aspects of daily activities sustainable are critical for any hope of successful interstellar flight-with a living crew or robotic probes.
"Uncharted" Space and Destinations
Understanding the interstellar medium and the composition of exosolar systems is vital as we contemplate travel to the stars. In addition, as our gaze is drawn many light years away, focusing on closer objectives as stepping stones to deep space will be essential. Beyond Mars, what missions should be designed to eventuate successful travel to another star? How should potential destinations be evaluated? What do we know and how do we learn more about space between the stars?
Interstellar Education
The journey beyond our solar system will overwhelm current educational practices. Commonly held beliefs and understandings of "learning" must and will be challenged. It is probable that humans have huge untapped capacities. Innovative learning tools and educational structures are needed for syntheses of ever-increasing information. The interstellar education platform will drive new knowledge of the universe and the development of the workforce that can create all that will be needed for interstellar travel. What are these new educational paradigms? What is education's role-formal and informal-in producing interstellar citizens?
Life Sciences in Space Exploration
As "Earth-evolved" humans, plants and other life forms travel deeper in space, we must understand much more about the fundamentals of life mechanisms. We must prepare for radical shifts in nutrition, potential therapeutics, growth and development, physiology and ethics. Concurrently, as we search for life beyond the earth we may need to re-evaluate our perspective of what is defined as "life". Also, how might we use the interstellar environment itself for life science research?
Becoming an Interstellar Civilization
Are humans driven to search beyond our knowledge base? How and in response to what do we create the belief systems that guide us? Interstellar travel is not just about the physical trip, but must include the journey civilizations take together. Who will we be and what will define our societies, morality, ethics, cultures, laws, economies, relationships and identities?
Interstellar Innovations Enhancing Life on Earth
Technology progresses in small increments and by leaps and bounds. Often the biggest steps forward are through the invention and innovation required to meet grand challenges. Interstellar travel represents such a challenge that may spur new economies, combat climate change, address heretofore incurable diseases. This session asks "What are these innovations and how can we deploy these to enhance life here on Earth?" [100yss.org
The 100 Year Starship (100YSS) is a joint U.S. Defense Advanced Research Projects Agency (DARPA) and National Aeronautics and Space Administration (NASA) grant project to a private entity. The goal of the study is not to have the government fund the actual building of spacecraft, but rather to create a business plan that can last 100 years in order to help foster the research needed for interstellar travel. [en.wikipedia.org
Они наследство оставленное им, развалили... :(
А вернее отдали Американцам теперь, наверное. :(
Смысла комментировать твое плоское суждение не вижу ...
Ты и так шибко умный ...
Хотя если приличия нет, а есть потребность в тыканье, то конечно можно ...
Автора как недалекого дикобраза научная ценность материала особо не интересует.
Так Я ничего и не путал ...