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Team:Tokyo Tech/Project
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=== Short term approach for Terraforming === | === Short term approach for Terraforming === | ||
In short term or in those steps, our approach is shown below. | In short term or in those steps, our approach is shown below. | ||
| - | *Heat Energy Injection | + | *Heat Energy Injection |
| - | *Heat Energy Production | + | *Heat Energy Production |
| - | *Atmosphere Generation | + | *Atmosphere Generation |
| - | *Organic Matters Accumulation | + | *Organic Matters Accumulation |
| - | *Water Accumulation | + | *Water Accumulation |
Revision as of 07:23, 21 October 2009
| Main | Team | Terraforming | Experiments | Parts | Safety |
Contents |
Introduction
Mars Environment compared to earth
Modifying planet’s environment (※1) to more habitable one for human beings on earth. Mars is the most earth-like of all the other planets in our solar system.
| Earth | Mars | |
| Atmosphere | N2(78%)
O2(20%) | CO2(95%)
N2(2%) |
| Pressure at Surface [atm] | 1 | 0.007 |
| Temperature at Surface [K] | 280 ± 20 | 180 ± 30 |
Long term approach for Terraforming
In long term,
- 1. Start Point of Terra Forming
- 2. Microorganisms I (for adaptation)
- 3. Microorganisms II (for habitat manipulation)
- 4. Cyanobacteria / Plants
- 5. Animals
- 6. Human Beings
Short term approach for Terraforming
In short term or in those steps, our approach is shown below.
- Heat Energy Injection
- Heat Energy Production
- Atmosphere Generation
- Organic Matters Accumulation
- Water Accumulation
(Introduction/ideas/story about terraforming)
Approaches
Actually we have four ideas to terraform the Mars.
 Iron-oxidizing bacteria |
 Consortium |
 Antifreeze protein |
 Darker colored E.coli |
Cph
(Abstract/link of each idea)
Related works
(write down some related works)
