Here is the engineering specification: Difference between revisions
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Surface units operate in local gravity 3.7 m/s2. | Surface units operate in local gravity 3.7 m/s2. | ||
All units operate in a high-vacuum atmosphere | All units operate in a high-vacuum atmosphere approximately 0.5 nPa (0.005 picobars) in a temperature range of 100K-350K. I have my doubts about Wikipedia's pressure figures but it's still an ultra-vacuum. One unsolved problem is how to keep it that way while refining so much material. | ||
Surface units: we require an assortment of [[minibots]], [[railgun]], [[surface power collector]], [[surface power distributor]]. | Surface units: we require an assortment of [[minibots]], [[railgun]], [[railgun power storage]], [[surface power collector]], [[surface power distributor]]. | ||
Orbiting units: we require [[orbiting factory unit]], [[minibots]], [[mirror]], [[orbiting power distributor]]. | Orbiting units: we require [[orbiting factory unit]], [[minibots]], [[mirror]], [[orbiting power distributor]]. | ||
link back to [[Engineering]] | link back to [[Engineering]] |
Latest revision as of 13:24, 24 January 2020
Surface units operate in local gravity 3.7 m/s2.
All units operate in a high-vacuum atmosphere approximately 0.5 nPa (0.005 picobars) in a temperature range of 100K-350K. I have my doubts about Wikipedia's pressure figures but it's still an ultra-vacuum. One unsolved problem is how to keep it that way while refining so much material.
Surface units: we require an assortment of minibots, railgun, railgun power storage, surface power collector, surface power distributor.
Orbiting units: we require orbiting factory unit, minibots, mirror, orbiting power distributor.
link back to Engineering