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Artificial Gravity

Kataloginformation Katalogdatensatz500119583 .

Kataloginformation
Feldname	Details
Vorliegende Sprache	eng
Hinweise auf parallele Ausgaben	272542679 Buchausg. u.d.T.: ‡Artificial gravity
ISBN	978-0-387-70712-9
Name	Clément, Gilles
Name	Bukley, Angie
Name ANZEIGE DER KETTE	Bukley, Angie
T I T E L	Artificial Gravity
Verlagsort	New York, NY
Verlag	Springer New York
Verlag	Springer
Erscheinungsjahr	2007
Erscheinungsjahr	2007
Umfang	Online-Ressource (XXII, 364 p, digital)
Reihe	¬The¬ Space Technology Library ; 20
Notiz / Fußnoten	Includes bibliographical references and index
Weiterer Inhalt	Foreword; Preface; Acknowledgements; CONTENTS; CHAPTER 1: THE GRAVITY OF THE SITUATION; 1 Why Artificial Gravity?; 2 Mars Mission Scenario; 3 Detrimental Effects of Weightlessness; 4 Activities on Mars Surface; 5 Current Countermeasures; 6 Artificial Gravity is an Integrated Countermeasure; 7 References; CHAPTER 2: PHYSICS OF ARTIFICIAL GRAVITY; 1 Artificial Gravity: What Is It?; 2 Artificial Gravity Generated by Rotation; 3 Human Factors Considerations; 4 Design Options; 5 References; CHAPTER 3: HISTORY OF ARTIFICIAL GRAVITY; 1 Concepts; 2 Experience with Artificial Gravity. 3 Ground-Based Centrifuge Experiments4 Summary; 5 References; CHAPTER 4: PHYSIOLOGICAL TARGETS OF ARTIFICIAL GRAVITY: THE SENSORY-MOTOR SYSTEM; 1 Structure and Function of the Sensory-Motor System; 2 Spatial Orientation; 3 Motion Sickness; 4 Eye Movements; 5 Head and Arm Movements, and Object Manipulation; 6 Posture and Gait; 7 Conclusion; 8 References; CHAPTER 5: PHYSIOLOGICAL TARGETS OF ARTIFICIAL GRAVITY: THE CARDIOVASCULAR SYSTEM; 1 Cardiovascular Physiology; 2 Effects of Spaceflight; 3 Effects of Hypergravity; 4 Long- versus Short-Radius Centrifuge. 5 Short-Radius Centrifugation as a Countermeasure6 Other "Gravity-Like" Countermeasures during Spaceflight and Bed Rest; 7 The Twin Bike System; 8 Conclusion; 9 References; CHAPTER 6: PHYSIOLOGICAL TARGETS OF ARTIFICIAL GRAVITY: THE NEUROMUSCULAR SYSTEM; 1 Effects of Detraining and Inactivity on Muscle Single Fiber; 2 Effects of Detraining and Inactivity on the Whole Muscle; 3 Effects of Countermeasures; 4 Conclusion; 5 References; CHAPTER 7: PHYSIOLOGICAL TARGETS OF ARTIFICIAL GRAVITY: ADAPTIVE PROCESSES IN BONE; 1 Introduction; 2 Basic Bone Biology; 3 Mechanical Functions of Bone. 4 Adaptive Process in Bone5 Homeostasis; 6 Hypergravity Bone Research; 7 References; 1 Introduction; 2 Central Vestibulo-Autonomic Pathways; 3 Vestibular Influence on Cardio-Respiratory Function; 4 Vestibular Influence on Bone Mineralization; 5 Vestibular Influence on Hypothalamic Regulations; 6 Implications for Using Artificial Gravity as a Countermeasure; 7 References; 1 Introduction; 2 Energy Intake and Macronutrient Supply; 3 Vitamins and Artificial Gravity; 4 Minerals and Artificial Gravity; 5 Impact of Artificial Gravity on GI-Tract; 6 References. CHAPTER 10: ARTIFICIAL GRAVITY AND THE IMMUNE SYSTEM FUNCTION1 Effects of Spaceflight; 2 Design of the Immune Components of Artificial Gravity Studies; 3 Latent Virus Reactivation; 4 References; CHAPTER 11: MEDICAL, PSYCHOLOGICAL, AND ENVIRONMENTAL ISSUES OF ARTIFICIAL GRAVITY; 1 Introduction; 2 Space Medicine; 3 Medical Monitoring during Artificial Gravity Studies; 4 Emergencies; 5 References; CHAPTER 12: SAFETY ISSUES IN ARTIFICIAL GRAVITY STUDIES; 1 General Safety Principles; 2 Hazards in Centrifuge System Design; 3 Safety in Centrifuge Design; 4 Facility Safety Considerations. 5 Test Subject Safety
Titelhinweis	Buchausg. u.d.T.: ‡Artificial gravity
ISBN	ISBN 978-0-387-70714-3
Klassifikation	TTDS
	TRP
	TEC002000
	531.14
	629.1
	610
	620
	TL787-4050.22
	US 9400
	ZO 8000
Kurzbeschreibung	Protecting the health, safety, and performance of exploration-class mission crews against the physiological deconditioning resulting from long-term weightlessness during transit and long-term reduced gravity during surface operations will require effective, multi-system countermeasures. Artificial gravity, which would replace terrestrial gravity with inertial forces generated by rotating the transit vehicle or by short-radius human centrifuge devices within the transit vehicle or surface habitat, has long been considered a potential solution. However, despite its attractiveness as an efficient
1. Schlagwortkette	Bemannte Raumfahrt
	Schwere
	Physiologie
ANZEIGE DER KETTE	Bemannte Raumfahrt -- Schwere -- Physiologie
2. Schlagwortkette	Bemannte Raumfahrt
	Schwere
	Physiologie
ANZEIGE DER KETTE	Bemannte Raumfahrt -- Schwere -- Physiologie
SWB-Titel-Idn	265120527
Signatur	Springer E-Book
Bemerkungen	Elektronischer Volltext - Campuslizenz
Elektronische Adresse	$uhttp://dx.doi.org/10.1007/0-387-70714-X
Internetseite / Link	Volltext
Siehe auch	Cover

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