about $22, 0.045 manhour per dollar. The constant K is calculated as before, and the exponent does not change. We can now presume that a similar distribution will exist for a lunar colony. The annual product value is unknown; we can guess at the mass. The exponent a is unknown as is the lower limit value C. We introduce a difficulty factor D and a mass factor f. the manhours to produce a particular type of product on the Moon are D times the manhours to produce the same product on Earth, due to diseconomies of small scale, constraints of the extraterrestrial environment, or whatever. The same small scale, however, leads to a lunar economy that needs less total mass of production by the factor f. Comparing the Earth and lunar economies, we can write for the per-worker Earth product mass,
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