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ELECTRODYNAMIC GRAVITY GENERATOR FOR ARTIFICIAL GRAVITY American Institute of Aeronautics and Astronautics 1 Electrodynamic Gravity Generator for Artificial Gravity Modules Predrag Jevtovic Bezares S.A., Casarrubios del Monte-Toledo, SPAIN, 45950 THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, … THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, AND FUNCTION IN THE HIGH FRONTIER Theodore W. Hall Chinese University of Hong Kong in SPACE MANUFACTURING 10 DESIGN CONCEPTS FOR A MANNED ARTIFICIAL GRAVITY RESEARCH Tether Applications, Inc. Sept 2010, pg. 3 Artificial Gravity Facility IAC-10-D1.1.4 Why 0.06 Gee, and not Just Moon and Mars? 1. It’s the next ~1/e step, after Earth—Mars—Moon - This makes it a useful step for fundamental bio studies A TETHER-BASED VARIABLE-GRAVITY RESEARCH FACILITY CONCEPT Figure 3: Knowing the human response to low gravity could mean the difference between exploring or exercising! But on Mars, with its gravity 3/8 that of Earth’s, is it necessary to engage in such a level of exercise? Is the gravitational environment sufficient to produce the needed stresses and eliminate the need for exercise as aAG SYS 100813 06
6 1. Introduction AG_SYS is a student internship project done in partial fulfillment of the Master of Space Studies degree of International Space University at NASA JPL in Pasadena, HABITABILITY FACTORS IN A ROTATING SPACE STATION HABITABILITY FACTORS IN A ROTATING SPACE STATION B. D. NEWSOM NASA Manned Spacecraft Center, Houston, Tex. 77058, U.S.A. (Received 23August, 1971)
ARTIFICIAL GRAVITYHTMLPDFSPINCALC Conventional and Bimodal Nuclear Thermal Rocket (NTR) Artificial Gravity Mars Transfer Vehicle Concepts (AIAA 2014-3623). 50th AIAA / ASME / SAE / ASEE Joint Propulsion Conference, Cleveland, Ohio, USA, 28-30 July 2014. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics . SPINCALC - ARTIFICIAL GRAVITY JavaScript calculator for artificial gravity. About the Calculator. Artificial gravity, as it is usually conceived, is the inertial reaction to the centripetal acceleration that ARTIFICIAL GRAVITY: WHY CENTRIFUGAL FORCE IS A BAD IDEA 1 Artificial Gravity: Why Centrifugal Force is a Bad Idea Theodore W. Hall1 University of Michigan, Ann Arbor, Michigan, 48109, USA The concept of centrifugal force is ARTIFICIAL GRAVITY IN THEORY AND PRACTICE International Conference on Environmental Systems 3 light.” Rather, it’s the change in the gravitational field that propagates as wave-like fluctuations of space-time as massive objects move. When we observe the light from celestial objects across light-years ofspace-time, we see
ELECTRODYNAMIC GRAVITY GENERATOR FOR ARTIFICIAL GRAVITY American Institute of Aeronautics and Astronautics 1 Electrodynamic Gravity Generator for Artificial Gravity Modules Predrag Jevtovic Bezares S.A., Casarrubios del Monte-Toledo, SPAIN, 45950 THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, … THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, AND FUNCTION IN THE HIGH FRONTIER Theodore W. Hall Chinese University of Hong Kong in SPACE MANUFACTURING 10 DESIGN CONCEPTS FOR A MANNED ARTIFICIAL GRAVITY RESEARCH Tether Applications, Inc. Sept 2010, pg. 3 Artificial Gravity Facility IAC-10-D1.1.4 Why 0.06 Gee, and not Just Moon and Mars? 1. It’s the next ~1/e step, after Earth—Mars—Moon - This makes it a useful step for fundamental bio studies A TETHER-BASED VARIABLE-GRAVITY RESEARCH FACILITY CONCEPT Figure 3: Knowing the human response to low gravity could mean the difference between exploring or exercising! But on Mars, with its gravity 3/8 that of Earth’s, is it necessary to engage in such a level of exercise? Is the gravitational environment sufficient to produce the needed stresses and eliminate the need for exercise as aAG SYS 100813 06
6 1. Introduction AG_SYS is a student internship project done in partial fulfillment of the Master of Space Studies degree of International Space University at NASA JPL in Pasadena, HABITABILITY FACTORS IN A ROTATING SPACE STATION HABITABILITY FACTORS IN A ROTATING SPACE STATION B. D. NEWSOM NASA Manned Spacecraft Center, Houston, Tex. 77058, U.S.A. (Received 23August, 1971)
THE ARCHITECTURE OF ARTIFICIAL GRAVITY: ARCHETYPES … 199 Background The apparent “up” vector for an observer in a rotating space station is defined by the vector sum of three accelerations:* R = 2 r + 2 r+ r The first term is the centripetal acceleration: it represents the design gravity, and is the only term that is inde- THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR dissertation, Arch.D., University of Michigan, May 1994. Table of Contents. Title Page . Abstract . Dedication. ii. Acknowledgments THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR dissertation, Arch.D., University of Michigan, May 1994. 1.2 From Tsiolkovsky to Sputnik, 1878-1957. The scientific and literary developments that occurred in the two hundred years following the publication of Newton's Principles laid the groundwork for the first generation of modern space scientists. THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR dissertation, Arch.D., University of Michigan, May 1994. 2.2 Artificial-Gravity Research. The only substitute for gravity isacceleration.
THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR 5.7 The Architecture of Artificial Gravity. In the twenty years since the Skylab workshop, micro-gravitational environmental design has progressed from an almost anti-terrestrial disregard for Earth-normalcy to a realization that some Earth norms can serve a useful coordinating function. THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR dissertation, Arch.D., University of Michigan, May 1994. 3.1 Newton's Laws. Newton's three laws of motion, and his law of gravitation, are the foundation upon which the rest of this chapter is built. AN APPROACH FOR DEVELOPMENT AND DEPLOYMENT OF ARTIFICIAL American Institute of Aeronautics and Astronautics 2 Figure 1: From the current state of the art – JAXA mouse habitat to popular depictions II. Artificial Gravity as a Countermeasure We have an increasingly robust dataset for human performance and physiological well-being in space for 6 months DESIGN CONCEPTS FOR A MANNED ARTIFICIAL GRAVITY RESEARCH Tether Applications, Inc. Sept 2010, pg. 3 Artificial Gravity Facility IAC-10-D1.1.4 Why 0.06 Gee, and not Just Moon and Mars? 1. It’s the next ~1/e step, after Earth—Mars—Moon - This makes it a useful step for fundamental bio studies DESIGN AND CONTROL OF GROWTH ADAPTABLE ARTIFICIAL GRAVITY formed. However, small surface area to mass ratio is the biggest disadvantage of this design. Furthermore, this method of growth provides limited space for each module and the lack of variability ofo
DO HUMANS HAVE A FUTURE IN MOON OR MARS GRAVITY PAPER Do Humans Have a Future in Moon or Mars Gravity Paper and ARTIFICIAL GRAVITYHTMLPDFSPINCALC Conventional and Bimodal Nuclear Thermal Rocket (NTR) Artificial Gravity Mars Transfer Vehicle Concepts (AIAA 2014-3623). 50th AIAA / ASME / SAE / ASEE Joint Propulsion Conference, Cleveland, Ohio, USA, 28-30 July 2014. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics . SPINCALC - ARTIFICIAL GRAVITY JavaScript calculator for artificial gravity. About the Calculator. Artificial gravity, as it is usually conceived, is the inertial reaction to the centripetal acceleration that ARTIFICIAL GRAVITY: WHY CENTRIFUGAL FORCE IS A BAD IDEA 1 Artificial Gravity: Why Centrifugal Force is a Bad Idea Theodore W. Hall1 University of Michigan, Ann Arbor, Michigan, 48109, USA The concept of centrifugal force is ARTIFICIAL GRAVITY IN THEORY AND PRACTICE International Conference on Environmental Systems 3 light.” Rather, it’s the change in the gravitational field that propagates as wave-like fluctuations of space-time as massive objects move. When we observe the light from celestial objects across light-years ofspace-time, we see
THE ARCHITECTURE OF ARTIFICIAL GRAVITY: ARCHETYPES … 199 Background The apparent “up” vector for an observer in a rotating space station is defined by the vector sum of three accelerations:* R = 2 r + 2 r+ r The first term is the centripetal acceleration: it represents the design gravity, and is the only term that is inde- ELECTRODYNAMIC GRAVITY GENERATOR FOR ARTIFICIAL GRAVITY American Institute of Aeronautics and Astronautics 1 Electrodynamic Gravity Generator for Artificial Gravity Modules Predrag Jevtovic Bezares S.A., Casarrubios del Monte-Toledo, SPAIN, 45950 THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, … THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, AND FUNCTION IN THE HIGH FRONTIER Theodore W. Hall Chinese University of Hong Kong in SPACE MANUFACTURING 10 AN APPROACH FOR DEVELOPMENT AND DEPLOYMENT OF ARTIFICIAL American Institute of Aeronautics and Astronautics 2 Figure 1: From the current state of the art – JAXA mouse habitat to popular depictions II. Artificial Gravity as a Countermeasure We have an increasingly robust dataset for human performance and physiological well-being in space for 6 monthsAI?!I?!F PORN/
Ai?!i?!F Porn/ L1 LIBRATION POINT MANNED SPACE HABITAT NASA-USRA Advanced Space Mission Design Project University of Colorado, BouLder Department of Aerospace Engineering NASA / Ames : Robert MacElroy University of Colorado : Marvin Luttges Steve Johnson Student Representatives : Gary Banks Richard Johnson A TETHER-BASED VARIABLE-GRAVITY RESEARCH FACILITY CONCEPT Figure 3: Knowing the human response to low gravity could mean the difference between exploring or exercising! But on Mars, with its gravity 3/8 that of Earth’s, is it necessary to engage in such a level of exercise? Is the gravitational environment sufficient to produce the needed stresses and eliminate the need for exercise as a ARTIFICIAL GRAVITYHTMLPDFSPINCALC Conventional and Bimodal Nuclear Thermal Rocket (NTR) Artificial Gravity Mars Transfer Vehicle Concepts (AIAA 2014-3623). 50th AIAA / ASME / SAE / ASEE Joint Propulsion Conference, Cleveland, Ohio, USA, 28-30 July 2014. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics . SPINCALC - ARTIFICIAL GRAVITY JavaScript calculator for artificial gravity. About the Calculator. Artificial gravity, as it is usually conceived, is the inertial reaction to the centripetal acceleration that ARTIFICIAL GRAVITY: WHY CENTRIFUGAL FORCE IS A BAD IDEA 1 Artificial Gravity: Why Centrifugal Force is a Bad Idea Theodore W. Hall1 University of Michigan, Ann Arbor, Michigan, 48109, USA The concept of centrifugal force is ARTIFICIAL GRAVITY IN THEORY AND PRACTICE International Conference on Environmental Systems 3 light.” Rather, it’s the change in the gravitational field that propagates as wave-like fluctuations of space-time as massive objects move. When we observe the light from celestial objects across light-years ofspace-time, we see
THE ARCHITECTURE OF ARTIFICIAL GRAVITY: ARCHETYPES … 199 Background The apparent “up” vector for an observer in a rotating space station is defined by the vector sum of three accelerations:* R = 2 r + 2 r+ r The first term is the centripetal acceleration: it represents the design gravity, and is the only term that is inde- ELECTRODYNAMIC GRAVITY GENERATOR FOR ARTIFICIAL GRAVITY American Institute of Aeronautics and Astronautics 1 Electrodynamic Gravity Generator for Artificial Gravity Modules Predrag Jevtovic Bezares S.A., Casarrubios del Monte-Toledo, SPAIN, 45950 THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, … THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, AND FUNCTION IN THE HIGH FRONTIER Theodore W. Hall Chinese University of Hong Kong in SPACE MANUFACTURING 10 AN APPROACH FOR DEVELOPMENT AND DEPLOYMENT OF ARTIFICIAL American Institute of Aeronautics and Astronautics 2 Figure 1: From the current state of the art – JAXA mouse habitat to popular depictions II. Artificial Gravity as a Countermeasure We have an increasingly robust dataset for human performance and physiological well-being in space for 6 monthsAI?!I?!F PORN/
Ai?!i?!F Porn/ L1 LIBRATION POINT MANNED SPACE HABITAT NASA-USRA Advanced Space Mission Design Project University of Colorado, BouLder Department of Aerospace Engineering NASA / Ames : Robert MacElroy University of Colorado : Marvin Luttges Steve Johnson Student Representatives : Gary Banks Richard Johnson A TETHER-BASED VARIABLE-GRAVITY RESEARCH FACILITY CONCEPT Figure 3: Knowing the human response to low gravity could mean the difference between exploring or exercising! But on Mars, with its gravity 3/8 that of Earth’s, is it necessary to engage in such a level of exercise? Is the gravitational environment sufficient to produce the needed stresses and eliminate the need for exercise as a THE ARCHITECTURE OF ARTIFICIAL GRAVITY: ARCHETYPES … 199 Background The apparent “up” vector for an observer in a rotating space station is defined by the vector sum of three accelerations:* R = 2 r + 2 r+ r The first term is the centripetal acceleration: it represents the design gravity, and is the only term that is inde- THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR Abstract. Chairman: Colin Clipson Gravity deprivation (weightlessness) leads to a multitude of problems for people during spaceflight. For reasons of health, comfort, and practicality, scientists have often proposed to provide artificial gravity by spinning the spacecraft. THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR dissertation, Arch.D., University of Michigan, May 1994. Table of Contents. Title Page . Abstract . Dedication. ii. Acknowledgments THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR dissertation, Arch.D., University of Michigan, May 1994. 3.1 Newton's Laws. Newton's three laws of motion, and his law of gravitation, are the foundation upon which the rest of this chapter is built. DESIGN AND CONTROL OF GROWTH ADAPTABLE ARTIFICIAL GRAVITY formed. However, small surface area to mass ratio is the biggest disadvantage of this design. Furthermore, this method of growth provides limited space for each module and the lack of variability ofo
POWERPOINT PRESENTATION ES-2 2020 ES-2 2020 Artificial Gravity Concept Feasibility Study Structural Engineering Division April - 2017AI?!I?!F PORN/
Ai?!i?!F Porn/ L1 LIBRATION POINT MANNED SPACE HABITAT NASA-USRA Advanced Space Mission Design Project University of Colorado, BouLder Department of Aerospace Engineering NASA / Ames : Robert MacElroy University of Colorado : Marvin Luttges Steve Johnson Student Representatives : Gary Banks Richard Johnson DO HUMANS HAVE A FUTURE IN MOON OR MARS GRAVITY PAPER Do Humans Have a Future in Moon or Mars Gravity Paper and ELECTRODYNAMIC GRAVITY GENERATOR American Institute of Aeronautics and Astronautics 1 Electrodynamic Gravity Generator Predrag Jevtovic Bezares S.A., Casarrubios del Monte-Toledo, SPAIN, 45950 LIFE BEYOND LOW EARTH ORBIT 3 LIFE BEYOND LOW EARTH ORBIT SCIENCE WORKING GROUP PAUL W. TODD, Techshot Incorporated, Retired, Co -Chair ROBERT J. FERL, University of Florida, Co- Chair ARTIFICIAL GRAVITYHTMLPDFSPINCALC published papers and software for artificial-gravity habitat design, plus links to other relevant sites. SPINCALC - ARTIFICIAL GRAVITY JavaScript calculator for artificial gravity. About the Calculator. Artificial gravity, as it is usually conceived, is the inertial reaction to the centripetal acceleration that ARTIFICIAL GRAVITY: WHY CENTRIFUGAL FORCE IS A BAD IDEA 1 Artificial Gravity: Why Centrifugal Force is a Bad Idea Theodore W. Hall1 University of Michigan, Ann Arbor, Michigan, 48109, USA The concept of centrifugal force is ELECTRODYNAMIC GRAVITY GENERATOR FOR ARTIFICIAL GRAVITY American Institute of Aeronautics and Astronautics 2 PGS = propulsion and guidance system R = resistance RMS = rotating modular set r = radial distance from the center of rotation SC = superconductor SCM = super conducting magnet SFS = space frame structure TRL = technology readiness level Δ = Laplace operator v = relative tangential velocity ARTIFICIAL GRAVITY IN THEORY AND PRACTICE International Conference on Environmental Systems 3 light.” Rather, it’s the change in the gravitational field that propagates as wave-like fluctuations of space-time as massive objects move. When we observe the light from celestial objects across light-years ofspace-time, we see
THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, … THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, AND FUNCTION IN THE HIGH FRONTIER Theodore W. Hall Chinese University of Hong Kong in SPACE MANUFACTURING 10 DESIGN CONCEPTS FOR A MANNED ARTIFICIAL GRAVITY RESEARCH Tether Applications, Inc. Sept 2010, pg. 3 Artificial Gravity Facility IAC-10-D1.1.4 Why 0.06 Gee, and not Just Moon and Mars? 1. It’s the next ~1/e step, after Earth—Mars—Moon - This makes it a useful step for fundamental bio studies DO HUMANS HAVE A FUTURE IN MOON OR MARS GRAVITY PAPER Do Humans Have a Future in Moon or Mars Gravity Paper andAG SYS 100813 06
6 1. Introduction AG_SYS is a student internship project done in partial fulfillment of the Master of Space Studies degree of International Space University at NASA JPL in Pasadena, A TETHER-BASED VARIABLE-GRAVITY RESEARCH FACILITY CONCEPT Figure 3: Knowing the human response to low gravity could mean the difference between exploring or exercising! But on Mars, with its gravity 3/8 that of Earth’s, is it necessary to engage in such a level of exercise? Is the gravitational environment sufficient to produce the needed stresses and eliminate the need for exercise as a ARTIFICIAL GRAVITYHTMLPDFSPINCALC published papers and software for artificial-gravity habitat design, plus links to other relevant sites. SPINCALC - ARTIFICIAL GRAVITY JavaScript calculator for artificial gravity. About the Calculator. Artificial gravity, as it is usually conceived, is the inertial reaction to the centripetal acceleration that ARTIFICIAL GRAVITY: WHY CENTRIFUGAL FORCE IS A BAD IDEA 1 Artificial Gravity: Why Centrifugal Force is a Bad Idea Theodore W. Hall1 University of Michigan, Ann Arbor, Michigan, 48109, USA The concept of centrifugal force is ELECTRODYNAMIC GRAVITY GENERATOR FOR ARTIFICIAL GRAVITY American Institute of Aeronautics and Astronautics 2 PGS = propulsion and guidance system R = resistance RMS = rotating modular set r = radial distance from the center of rotation SC = superconductor SCM = super conducting magnet SFS = space frame structure TRL = technology readiness level Δ = Laplace operator v = relative tangential velocity ARTIFICIAL GRAVITY IN THEORY AND PRACTICE International Conference on Environmental Systems 3 light.” Rather, it’s the change in the gravitational field that propagates as wave-like fluctuations of space-time as massive objects move. When we observe the light from celestial objects across light-years ofspace-time, we see
THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, … THE ARCHITECTURE OF ARTIFICIAL GRAVITY: THEORY, FORM, AND FUNCTION IN THE HIGH FRONTIER Theodore W. Hall Chinese University of Hong Kong in SPACE MANUFACTURING 10 DESIGN CONCEPTS FOR A MANNED ARTIFICIAL GRAVITY RESEARCH Tether Applications, Inc. Sept 2010, pg. 3 Artificial Gravity Facility IAC-10-D1.1.4 Why 0.06 Gee, and not Just Moon and Mars? 1. It’s the next ~1/e step, after Earth—Mars—Moon - This makes it a useful step for fundamental bio studies DO HUMANS HAVE A FUTURE IN MOON OR MARS GRAVITY PAPER Do Humans Have a Future in Moon or Mars Gravity Paper andAG SYS 100813 06
6 1. Introduction AG_SYS is a student internship project done in partial fulfillment of the Master of Space Studies degree of International Space University at NASA JPL in Pasadena, A TETHER-BASED VARIABLE-GRAVITY RESEARCH FACILITY CONCEPT Figure 3: Knowing the human response to low gravity could mean the difference between exploring or exercising! But on Mars, with its gravity 3/8 that of Earth’s, is it necessary to engage in such a level of exercise? Is the gravitational environment sufficient to produce the needed stresses and eliminate the need for exercise as a THE ARCHITECTURE OF ARTIFICIAL-GRAVITY ENVIRONMENTS FOR dissertation, Arch.D., University of Michigan, May 1994. 1.2 From Tsiolkovsky to Sputnik, 1878-1957. The scientific and literary developments that occurred in the two hundred years following the publication of Newton's Principles laid the groundwork for the first generation of modern space scientists. THE ARCHITECTURE OF ARTIFICIAL GRAVITY: ARCHETYPES … 199 Background The apparent “up” vector for an observer in a rotating space station is defined by the vector sum of three accelerations:* R = 2 r + 2 r+ r The first term is the centripetal acceleration: it represents the design gravity, and is the only term that is inde- DESIGN CONCEPTS FOR A MANNED ARTIFICIAL GRAVITY RESEARCH Tether Applications, Inc. Sept 2010, pg. 3 Artificial Gravity Facility IAC-10-D1.1.4 Why 0.06 Gee, and not Just Moon and Mars? 1. It’s the next ~1/e step, after Earth—Mars—Moon - This makes it a useful step for fundamental bio studies POWERPOINT PRESENTATION ES-2 2020 ES-2 2020 Artificial Gravity Concept Feasibility Study Structural Engineering Division April - 2017 DESIGN AND CONTROL OF GROWTH ADAPTABLE ARTIFICIAL GRAVITY formed. However, small surface area to mass ratio is the biggest disadvantage of this design. Furthermore, this method of growth provides limited space for each module and the lack of variability ofo
AI?!I?!F PORN/
Ai?!i?!F Porn/ L1 LIBRATION POINT MANNED SPACE HABITAT NASA-USRA Advanced Space Mission Design Project University of Colorado, BouLder Department of Aerospace Engineering NASA / Ames : Robert MacElroy University of Colorado : Marvin Luttges Steve Johnson Student Representatives : Gary Banks Richard Johnson 2000-01-2244 GRAVITY AS AN ENVIRONMENTAL SYSTEM SAE TECHNICAL PAPER SERIES 2000-01-2244 Gravity as an Environmental System Theodore W. Hall Chinese University of Hong Kong SAEThe Engineering Society For Advancing Mobility Land Sea Air METHOD TO MAINTAIN ARTIFICIAL GRAVITY DURING TRANSFER 2 American Institute of Aeronautics and Astronautics in Figure 2a, or constantly adjusting the tether to the center of mass as the tanks expend propellant as in Figure 2b.2–6 A method that provides artificial gravity throughout a mission with a fixed tethered configuration involves thrustingARTIFICIAL GRAVITY
Artificial Gravity
DO HUMANS HAVE A FUTURE IN MOON OR MARS GRAVITY? Tether Applications, Inc. 2019 IAC, rev Nov 14, 2 Do Humans Have a Future in Moon or Mars Gravity? A Remarkably Convenient Coincidence0.02 0.05
ARTIFICIAL GRAVITY
-------------------------SOFTWARE
Bryll, Robert. Object Trajectories in a Rotating Frame of Reference. A simulation of a fountain on a rotating space station, as a Java 1.2.2 applet. HTML Hall, Theodore W. SpinCalc: An Artificial-Gravity Calculator in JavaScript. HTML Hall, Theodore W. SpinDoctor: An Artificial-Gravity Simulation Program. Compiled for IRIX, SunOS, and Mac OS X workstations. HTML Hoza, William M. Space Cylinder Physics.HTML
------------------------- BOOKS, CHAPTERS, PAPERS, ARTICLES, PRESENTATIONS Bell, Michael; Griggs, Tequila; Latta, Jarrid; Nelms, Alice; Shunnarah, Richard; Sparks, Damon; Xenofos, George; Zarichnak, Michael (1999). An Experimental Study of Natural Convection in Artificial Gravity. NASA Reduced Gravity Student Flight Opportunities Program Proposal. Birmingham, Alabama, USA: The University of Alabama at Birmingham . PDF Borowski, Stanley K.; McCurdy, David R.; Packard, Thomas W. (2014 July). Conventional and Bimodal Nuclear Thermal Rocket (NTR) Artificial Gravity Mars Transfer Vehicle Concepts (AIAA 2014-3623). 50th AIAA / ASME / SAE / ASEE Joint Propulsion Conference, Cleveland, Ohio, USA, 28-30 July 2014. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics .Order
Cardús, David (1994 May). Artificial Gravity in Space and in Medical Research. In, Journal of Gravitational Physiology (vol. 1, no. 1, p. 19-22). International Society for Gravitational Physiology. HTML
Carroll, Joseph A. (2010 September). Design Concepts for a Manned Artificial Gravity Research Facility (IAC-10-D1.1.4). 61st International Astronautical Congress, Prague, Czech Republic, 27 September - 1 October 2010. Paris, France: International Astronautical Federation . PDFPDF Order
Engle, James; Simón, Xavier D.; Clark, Torin K. (2018 January 24). Boeing Artificial Gravity Concepts for Low Earth Orbit & Deep Space Exploration. Future In-Space Operations (FISO) Working Group presentation. PDFMP3
Dorais, Gregory A. (2016 September). An Artificial-Gravity Space-Settlement Ground-Analogue Design Concept (AIAA 2016-5388). AIAA Space 2016 Conference & Exposition, Long Beach, California, USA, 13-16 September 2016. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics . PDFOrder
Fisher, Nick (2001 May). Space Science 2001: Some Problems With Artificial Gravity. In, Physics Education (vol. 36, no. 3, p. 193-201). Bristol, England, UK: IOP Publishing/ AIAA / SSI
Conference, Princeton, New Jersey, USA, 15-18 May 1991. Washington, DC, USA: American Institute of Aeronautics and Astronautics . PDF Hall, Theodore W. (1993 May). The Architecture of Artificial Gravity: Archetypes and Transformations of Terrestrial Design. In B. Faughnan (Ed.), Space Manufacturing 9: The High Frontier – Accession, Development and Utilization (p. 198-209). 11th SSI -Princeton Conference, Princeton, New Jersey, USA, 12-15 May 1993. Washington, DC, USA: American Institute of Aeronautics and Astronautics . PDF Hall, Theodore W. (1994 April). Designing for Life and Motion in Artificial-Gravity Environments. SSI Update (vol. 20, no. 2, p. 1-4). Princeton, New Jersey, USA: Space StudiesInstitute .
Hall, Theodore W. (1994 May). The Architecture of Artificial-Gravity Environments for Long-Duration Space Habitation (University Microfilms 9423117). Doctoral dissertation (Arch.D. ), Ann Arbor, Michigan, USA: University of Michigan. HTML
Order
Hall, Theodore W. (1995 May). The Architecture of Artificial Gravity: Theory, Form, and Function in the High Frontier. In B. Faughnan (Ed.), Space Manufacturing 10: Pathways to the High Frontier (p. 182-192). 12th SSI-Princeton
Conference, Princeton, New Jersey, USA, 4-7 May 1995. Washington, DC, USA: American Institute of Aeronautics and Astronautics. HTML
.
HTML
PDF Order
Hall, Theodore W. (1999 September). Inhabiting Artificial Gravity (AIAA 99-4524). AIAA Space Technology Conference & Exposition, Albuquerque, New Mexico, USA, 28-30 September 1999. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics. HTML
PDF Order
Hall, Theodore W. (2000 July). Gravity as an Environmental System (SAE 2000-01-2244). 30th International Conference on Environmental Systems (ICES), Toulouse, France, 10-13 July 2000. Warrendale, Pennsylvania, USA: Society of Automotive Engineers . PDFOrder
Hall, Theodore W. (2001). Gravity, Space, and Architecture. In J. Zukowsky (Ed.), 2001: Building for Space Travel (p. 168-174). New York, New York, USA: Harry N. Abrams,Inc.
Hall, Theodore W. (2002 July). Architectural Considerations for a Minimum Mass, Minimum Energy, Artificial Gravity Environment (SAE 2002-01-2431). 32nd International Conference on Environmental Systems (ICES), San Antonio, Texas, USA, 15-18 July 2002. Warrendale, Pennsylvania, USA: Society of Automotive Engineers . PDFOrder
Hall, Theodore W. (2002 October). Envisioning Artificial Gravity. Poster, 1st Space Architecture Symposium (SAS 2002), Houston, Texas, USA, 10-11 October 2002..
Hall, Theodore W. (2006 September). Artificial Gravity Visualization, Empathy, and Design (AIAA 2006-7321). 2nd International Space Architecture Symposium (SAS 2006), AIAA Space 2006 Conference & Exposition, San Jose, California, USA, 19-21 September 2006. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics . PDF Order Hall, Theodore W. (2009). Artificial Gravity. In A. S. Howe,
B. Sherwood
(Eds.), Out of This World: The New Field of Space Architecture (Chapter 12, p. 133-152). Reston, Virginia, USA: American Institute of Aeronautics and Astronautics . HTML Hall, Theodore W. (2015 December 3). Architecture for Artificial Gravity. Invited presentation, Students for the Exploration and Development of Space, University of Michigan chapter , Ann Arbor, Michigan, USA.HTML
Hall, Theodore W. (2016 June). Artificial Gravity and Implications for Space Architecture. In S.Häuplik-Meusburger
,
O. Bannova
,
Space Architecture Education for Engineers and Architects: Designing and Planning Beyond Earth (Section 4.5, p. 133-149). New York, New York, USA: Springer . Order Hall, Theodore W. (2016 July). Artificial Gravity in Theory and Practice (ICES-2016-194). 46th International Conference on Environmental Systems (ICES), Vienna, Austria, 10-14 July 2016. Lubbock Texas, USA: Texas Tech UniversityOrder
Jevtovic, Predrag (2012 July). Electrodynamic Generator of Gravity Sensation. In, Proceedings of the 12th European Conference on Space Structures, Materials & Environmental Testing (ESA SP-691), Noordwijk, The Netherlands, 20-23 March 2012. Paris, France: European SpaceAgency . PDF
Jevtovic, Predrag (2015 August). Electrodynamic Gravity Generator (AIAA 2015-4613). AIAA Space 2015 Conference & Exposition, Pasadena, California, USA, 31 August - 2 September 2015. Reston, Virginia, USA: American Institute of Aeronautics and Astronautics . PDF Order Jevtovic, Predrag (2017 September). Electrodynamic Gravity Generator for Artificial Gravity Modules (AIAA 2017-5140). AIAA Space 2017 Conference & Exposition, Orlando, Florida, USA, 12-14 September 2017 . Reston, Virginia, USA: American Institute of Aeronautics and Astronautics .PDF Order
Johnson, Richard D.; Holbrow, Charles (Eds.) (1977). Space Settlements: A Design Study (NASA SP-413). Washington, DC, USA: National Aeronautics and Space Administration. HTML
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