In-Space Manufacturing and Resources
portes grátis
In-Space Manufacturing and Resources
Earth and Planetary Exploration Applications
Hessel, Volker; Stoudemire, Jana; Fisk, Ian D.; Miyamoto, Hideaki
Wiley-VCH Verlag GmbH
08/2022
432
Dura
Inglês
9783527348534
15 a 20 dias
932
Descrição não disponível.
Introductory Statement: National Aeronautics and Space Administration
Introductory Statement: European Space Agency
Introductory Statement: Japan Aerospace Exploration Agency
Introductory Statement: Australian Space Agency
Part 1: Space Medicine and Human Health
1. Human Health in Space
2. Space Medicine and Countermeasures
3. Frontier Medical Technologies to Support Space Exploration
Part 2: Space Biology
4. Plant Biology and a New Approach to Space Farming
5. Stem Cell Biology and Tissue Engineering in Space
Part 3: Space Chemistry
6. Chemistry Related Innovations in Space. Benefits of Flow Chemistry
7. Catalysis in Space Environments
Part 4: Space Mining
8. Mining and Microbiology for the Solar System Silicate and Basalt Economy
9. Near-Earth Asteroids as Promising Candidates for Space Resources
10. Space Mining of Phosphorus from Moon Crust-Spillover of Learning from Earth
11. Lunar Resources in Support of Human Interplanetary Settlement & Limitations
Part 5: Space Farming & Food
12. PONDS: A New Method for Plant Production in Space
13. Space Food for the Future: Nutritional Challenges and Technological Strategies for Healthy and High-Quality Products
Part 6: Advanced Materials
14. Metal Alloy Synthesis in Microgravity
15. Layer-by-Layer Deposition in Microgravity for Enhanced Thin Film Production
16. 3D Bioprinting Aboard the International Space Station using the Techshot BioFabrication Facility
Part 7: Space Construction
17. Beyond the ISS: The World's First Commercial Space Station
18. Leveraging Open Innovation to Incentivize Advances in Additive Construction in Space and on Earth
Part 8: Space Policy, Law, and Economics
19. The Impact of the Artemis Accords on Resource Extraction
20. Space Resources: Physical Constraints, Policy Choices, & Ethical Considerations
The Future of Space Exploration: A Young Perspective
Introductory Statement: European Space Agency
Introductory Statement: Japan Aerospace Exploration Agency
Introductory Statement: Australian Space Agency
Part 1: Space Medicine and Human Health
1. Human Health in Space
2. Space Medicine and Countermeasures
3. Frontier Medical Technologies to Support Space Exploration
Part 2: Space Biology
4. Plant Biology and a New Approach to Space Farming
5. Stem Cell Biology and Tissue Engineering in Space
Part 3: Space Chemistry
6. Chemistry Related Innovations in Space. Benefits of Flow Chemistry
7. Catalysis in Space Environments
Part 4: Space Mining
8. Mining and Microbiology for the Solar System Silicate and Basalt Economy
9. Near-Earth Asteroids as Promising Candidates for Space Resources
10. Space Mining of Phosphorus from Moon Crust-Spillover of Learning from Earth
11. Lunar Resources in Support of Human Interplanetary Settlement & Limitations
Part 5: Space Farming & Food
12. PONDS: A New Method for Plant Production in Space
13. Space Food for the Future: Nutritional Challenges and Technological Strategies for Healthy and High-Quality Products
Part 6: Advanced Materials
14. Metal Alloy Synthesis in Microgravity
15. Layer-by-Layer Deposition in Microgravity for Enhanced Thin Film Production
16. 3D Bioprinting Aboard the International Space Station using the Techshot BioFabrication Facility
Part 7: Space Construction
17. Beyond the ISS: The World's First Commercial Space Station
18. Leveraging Open Innovation to Incentivize Advances in Additive Construction in Space and on Earth
Part 8: Space Policy, Law, and Economics
19. The Impact of the Artemis Accords on Resource Extraction
20. Space Resources: Physical Constraints, Policy Choices, & Ethical Considerations
The Future of Space Exploration: A Young Perspective
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Space medicine; space biology; space chemistry; space mining; space farming; space materials; 3D printing in space; space construction; space law; space policy; space manufacturing; space resources; Earth exploration; planetary exploration
Introductory Statement: National Aeronautics and Space Administration
Introductory Statement: European Space Agency
Introductory Statement: Japan Aerospace Exploration Agency
Introductory Statement: Australian Space Agency
Part 1: Space Medicine and Human Health
1. Human Health in Space
2. Space Medicine and Countermeasures
3. Frontier Medical Technologies to Support Space Exploration
Part 2: Space Biology
4. Plant Biology and a New Approach to Space Farming
5. Stem Cell Biology and Tissue Engineering in Space
Part 3: Space Chemistry
6. Chemistry Related Innovations in Space. Benefits of Flow Chemistry
7. Catalysis in Space Environments
Part 4: Space Mining
8. Mining and Microbiology for the Solar System Silicate and Basalt Economy
9. Near-Earth Asteroids as Promising Candidates for Space Resources
10. Space Mining of Phosphorus from Moon Crust-Spillover of Learning from Earth
11. Lunar Resources in Support of Human Interplanetary Settlement & Limitations
Part 5: Space Farming & Food
12. PONDS: A New Method for Plant Production in Space
13. Space Food for the Future: Nutritional Challenges and Technological Strategies for Healthy and High-Quality Products
Part 6: Advanced Materials
14. Metal Alloy Synthesis in Microgravity
15. Layer-by-Layer Deposition in Microgravity for Enhanced Thin Film Production
16. 3D Bioprinting Aboard the International Space Station using the Techshot BioFabrication Facility
Part 7: Space Construction
17. Beyond the ISS: The World's First Commercial Space Station
18. Leveraging Open Innovation to Incentivize Advances in Additive Construction in Space and on Earth
Part 8: Space Policy, Law, and Economics
19. The Impact of the Artemis Accords on Resource Extraction
20. Space Resources: Physical Constraints, Policy Choices, & Ethical Considerations
The Future of Space Exploration: A Young Perspective
Introductory Statement: European Space Agency
Introductory Statement: Japan Aerospace Exploration Agency
Introductory Statement: Australian Space Agency
Part 1: Space Medicine and Human Health
1. Human Health in Space
2. Space Medicine and Countermeasures
3. Frontier Medical Technologies to Support Space Exploration
Part 2: Space Biology
4. Plant Biology and a New Approach to Space Farming
5. Stem Cell Biology and Tissue Engineering in Space
Part 3: Space Chemistry
6. Chemistry Related Innovations in Space. Benefits of Flow Chemistry
7. Catalysis in Space Environments
Part 4: Space Mining
8. Mining and Microbiology for the Solar System Silicate and Basalt Economy
9. Near-Earth Asteroids as Promising Candidates for Space Resources
10. Space Mining of Phosphorus from Moon Crust-Spillover of Learning from Earth
11. Lunar Resources in Support of Human Interplanetary Settlement & Limitations
Part 5: Space Farming & Food
12. PONDS: A New Method for Plant Production in Space
13. Space Food for the Future: Nutritional Challenges and Technological Strategies for Healthy and High-Quality Products
Part 6: Advanced Materials
14. Metal Alloy Synthesis in Microgravity
15. Layer-by-Layer Deposition in Microgravity for Enhanced Thin Film Production
16. 3D Bioprinting Aboard the International Space Station using the Techshot BioFabrication Facility
Part 7: Space Construction
17. Beyond the ISS: The World's First Commercial Space Station
18. Leveraging Open Innovation to Incentivize Advances in Additive Construction in Space and on Earth
Part 8: Space Policy, Law, and Economics
19. The Impact of the Artemis Accords on Resource Extraction
20. Space Resources: Physical Constraints, Policy Choices, & Ethical Considerations
The Future of Space Exploration: A Young Perspective
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.