Weightlessness的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列線上看、影評和彩蛋懶人包

Encyclopedia of Bioastronautics

為了解決Weightlessness的問題，作者 這樣論述：

This comprehensive encyclopedia serves the needs of biomedical researchers, space mission planners and engineers, aerospace medicine physicians, graduate students, and professors interested in obtaining an up-to-date and readable introduction to bioastronautics, the science of humans in space. Follo

wing the excitement and progress of the birth of the space age in the fifties and sixties, with the successes in human space flight - culminating with the Moon landings - the field of bioastronautics retreated into the more workmanlike arena of successively longer stays in low Earth orbit. At this t

ime, major new initiatives are ahead both in human and robotic space exploration. The International Space Station, along with the developing Chinese space station and lunar program, will permit the development and testing of the means of astronaut protection for long duration missions - eventually t

o Mars and its moons, as well as visits to asteroids, other NEOs, and the Lagrange points. New life support systems and innovative approaches to radiation protection beyond Earth's magnetic field will all be developed and tested. Meanwhile, the search for extraterrestrial life, past or even present,

is accelerating - with the spectacular finds of Martian water and the discovery of potentially habitable extra-solar planets. A new generation of scientists is ready to attack a new set of problems, and is in need of an efficient, accurate and searchable means of discovering the essentials of the f

ield. This reference work also covers the challenges, past achievements, and potential solutions inherent to the safe exploration of distant space and the search for life off our planet. The entries summarize the tertiary literature and include sufficient data and illustrations to introduce each top

ic, while avoiding the length and detail of scientific review articles. Laurence R. Young is the Apollo Program Professor of Astronautics and Professor of Health Sciences and Technology at the Massachusetts Institute of Technology. He was the founding Director (1997-2001) of the National Space Bio

medical Research Institute. He directs Harvard’s HST Ph.D. program in Bioastronautics. Dr. Young was elected to the National Academy of Engineering and the Institute of Medicine of the NAS and is a full member of the International Academy of Astronautics. He received an B.A.. from Amherst College in

1957; a Certificate in Applied Mathematics from the Sorbonne, Paris, as a French Government Fellow in 1958; S.B. and S.M. degrees in Electrical Engineering and the Sc.D. degree in Instrumentation from MIT, from 1957-1962. Dr. Young has been active on many professional and government committees, inc

luding the Air Force Scientific Advisory Board for which he chaired the Airlift Panel and received the Air Force Decoration for Exceptional Civilian Service, the Space Medicine and Biology Committee of the National Academy of Sciences, NASA’s Life Science Advisory Committee and the NIH Training Comm

ittee on Biomedical Engineering. He serves on several NASA Advisory panels relating to life sciences and the Space Station. He currently serves on the Institute of Medicine Standing Committee on Aerospace Medicine and the Medicine of Extreme Environments (CAMMEE). He is also a member of the Bárány S

ociety for vestibular research, the Human Factors Society, and the Aerospace Medical Association. He is a Fellow of the IEEE, The Biomedical Engineering Society, The American Institute of Medical and Biological Engineering and the Explorers Club. Professor Young’s contributions to the aerospace medi

cal field have been in instrumentation (eye movement measurement) and basic and applied research in the field of vestibular function. Dr. Young is also recognized for his leadership in the aerospace human factors including applications of manual control theory, and especially for his research on ada

ptive manual control. His work on the vestibular system has led to his role as principal investigator for experiments on vestibular adaptation to weightlessness conducted aboard five Spacelab missions for which he received NASA’s Public Service Group Achievement Award. Author of more than 200 journa

l articles, Prof. Young serves on the Scientific Advisory Board for the Encyclopedia of Neuroscience. Jeffrey P. Sutton is President, CEO and Institute Director of NSBRI. Dr. Sutton holds the Friedkin Chair for Research in Sensory System Integration and Space Medicine at Baylor College of Medicine,

where he is also Professor of Medicine and Director of the Center for Space Medicine. Dr. Sutton is also an affiliate faculty member in the Harvard-MIT Division of Health Sciences and Technology. Dr. Sutton’s education and training were at the University of Toronto and Harvard University. He holds M

.D., M.Sc. and Ph.D. (theoretical physics) degrees, and is a Fellow of the Royal College of Physicians of Surgeons of Canada and a Diplomate of the American Board of Psychiatry and Neurology. Dr. Sutton’s research expertise is in smart medical systems, computational neuroscience and neuroimaging. He

has made significant contributions through scholarly publications and patents to these fields. His research, medical practice and teaching were integrated for more than a decade at Harvard Medical School and the Massachusetts General Hospital, prior to his appointment as NSBRI Director in 2001. Dr.

Sutton’s academic leadership is internationally acclaimed, and he has received numerous awards for his achievements, including the NASA Distinguished Public Service Medal, an NIH Career Development Award, President’s Citation from the Society of NASA Flight Surgeons and Diploma from IBMP of the Rus

sian Academy of Sciences.

Weightlessness進入發燒排行的影片

路邊的物

為了解決Weightlessness的問題，作者石孟鑫 這樣論述：

本篇論文分為四個章節，分別是「自塑像」、「均值」、「反轉白盒子」和「道具」。主要以筆者就讀造形所前後所創作的作品來做討論及探索。 創作中所使用的素材，大部分來自生活中的工具和現成物，以及城市中的邊陲物件，看似以強烈的「物質性」作為創作的出發點，利用了物件自身的特性與物件在空間中的安排，例如：放大鏡的折射、電腦螢幕的反光、實體的物件在影像中作為道具的存在......等諸多方式。最終作品的呈現，實體的物件已經不再是作品的主軸，反而導向「去物質」，與「虛擬性」的轉化。論文中所提及的作品中，有回應力量、速度、長度、光、風等等......不同的元素，而筆者創作的過程，是將這些不同的感知，做出一種可以被

知覺的介面。

Encyclopedia of Bioastronautics

為了解決Weightlessness的問題，作者 這樣論述：

This comprehensive encyclopedia serves the needs of biomedical researchers, space mission planners and engineers, aerospace medicine physicians, graduate students, and professors interested in obtaining an up-to-date and readable introduction to bioastronautics, the science of humans in space. Follo

wing the excitement and progress of the birth of the space age in the fifties and sixties, with the successes in human space flight - culminating with the Moon landings - the field of bioastronautics retreated into the more workmanlike arena of successively longer stays in low Earth orbit. At this t

ime, major new initiatives are ahead both in human and robotic space exploration. The International Space Station, along with the developing Chinese space station and lunar program, will permit the development and testing of the means of astronaut protection for long duration missions - eventually t

o Mars and its moons, as well as visits to asteroids, other NEOs, and the Lagrange points. New life support systems and innovative approaches to radiation protection beyond Earth's magnetic field will all be developed and tested. Meanwhile, the search for extraterrestrial life, past or even present,

is accelerating - with the spectacular finds of Martian water and the discovery of potentially habitable extra-solar planets. A new generation of scientists is ready to attack a new set of problems, and is in need of an efficient, accurate and searchable means of discovering the essentials of the f

ield. This reference work also covers the challenges, past achievements, and potential solutions inherent to the safe exploration of distant space and the search for life off our planet. The entries summarize the tertiary literature and include sufficient data and illustrations to introduce each top

ic, while avoiding the length and detail of scientific review articles. Laurence R. Young is the Apollo Program Professor of Astronautics and Professor of Health Sciences and Technology at the Massachusetts Institute of Technology. He was the founding Director (1997-2001) of the National Space Bio

medical Research Institute. He directs Harvard’s HST Ph.D. program in Bioastronautics. Dr. Young was elected to the National Academy of Engineering and the Institute of Medicine of the NAS and is a full member of the International Academy of Astronautics. He received an B.A.. from Amherst College in

1957; a Certificate in Applied Mathematics from the Sorbonne, Paris, as a French Government Fellow in 1958; S.B. and S.M. degrees in Electrical Engineering and the Sc.D. degree in Instrumentation from MIT, from 1957-1962. Dr. Young has been active on many professional and government committees, inc

luding the Air Force Scientific Advisory Board for which he chaired the Airlift Panel and received the Air Force Decoration for Exceptional Civilian Service, the Space Medicine and Biology Committee of the National Academy of Sciences, NASA’s Life Science Advisory Committee and the NIH Training Comm

ittee on Biomedical Engineering. He serves on several NASA Advisory panels relating to life sciences and the Space Station. He currently serves on the Institute of Medicine Standing Committee on Aerospace Medicine and the Medicine of Extreme Environments (CAMMEE). He is also a member of the Bárány S

ociety for vestibular research, the Human Factors Society, and the Aerospace Medical Association. He is a Fellow of the IEEE, The Biomedical Engineering Society, The American Institute of Medical and Biological Engineering and the Explorers Club. Professor Young’s contributions to the aerospace medi

cal field have been in instrumentation (eye movement measurement) and basic and applied research in the field of vestibular function. Dr. Young is also recognized for his leadership in the aerospace human factors including applications of manual control theory, and especially for his research on ada

ptive manual control. His work on the vestibular system has led to his role as principal investigator for experiments on vestibular adaptation to weightlessness conducted aboard five Spacelab missions for which he received NASA’s Public Service Group Achievement Award. Author of more than 200 journa

l articles, Prof. Young serves on the Scientific Advisory Board for the Encyclopedia of Neuroscience. Jeffrey P. Sutton is President, CEO and Institute Director of NSBRI. Dr. Sutton holds the Friedkin Chair for Research in Sensory System Integration and Space Medicine at Baylor College of Medicine,

where he is also Professor of Medicine and Director of the Center for Space Medicine. Dr. Sutton is also an affiliate faculty member in the Harvard-MIT Division of Health Sciences and Technology. Dr. Sutton’s education and training were at the University of Toronto and Harvard University. He holds M

.D., M.Sc. and Ph.D. (theoretical physics) degrees, and is a Fellow of the Royal College of Physicians of Surgeons of Canada and a Diplomate of the American Board of Psychiatry and Neurology. Dr. Sutton’s research expertise is in smart medical systems, computational neuroscience and neuroimaging. He

has made significant contributions through scholarly publications and patents to these fields. His research, medical practice and teaching were integrated for more than a decade at Harvard Medical School and the Massachusetts General Hospital, prior to his appointment as NSBRI Director in 2001. Dr.

Sutton’s academic leadership is internationally acclaimed, and he has received numerous awards for his achievements, including the NASA Distinguished Public Service Medal, an NIH Career Development Award, President’s Citation from the Society of NASA Flight Surgeons and Diploma from IBMP of the Rus

sian Academy of Sciences.

無邊際的山

為了解決Weightlessness的問題，作者葉庭瑄 這樣論述：

中文摘要    本研究以挖掘自身內在世界為主體，深入探討內在與潛意識的關聯性、並與精神性做連結。藝術創作的療癒功能，能夠從個體滲透到生活，由於一般多數人對於潛意識與精神性對於藝術的影響並沒有太多的認知，因此本研究將整理出的精神性脈絡清晰描述，平行時空與失重狀態的呈現造就了無邊際的山，這其中更重要的是「自我」與「我」之間對話中穿透的力量，由於在發現的時間點上有了區別，使我能夠與內在的我相互依存並進行溝通。屏蔽了外在世界，除了因為資訊量超載，為的是要更能夠深刻體會內在的正在發生的故事。這些都是創作之下的產物，藉由創作形式以及符號在不同創作時期的演變，來釐清我在不同時空當中的成長以及存在的意義與價

值，並且使用符號介入的方式呈現給觀者，也在不同時期的創作中找尋並認識更深層的自我，最終將「作者之死」的觀者角度以及「在場/缺席」的狀態切換與創作狀態做結合，同時達到療癒自我的目的。