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- However, TGM does not arrive at its timel by dividing the day by pure powers of a dozen. Instead, it first does a binary division of the day, into two semi·days, and then divides each of those into a dozen customary hours, and then divides those by four more powers of dozen, to yield the ⚀semi·pentcia·daysemi·pentcia·day, or quadcia·hour, which it uses as TGM's timel, the Tim.
- TGM then uses a (slightly different) value for Earth's gravity as its accelerel, the Gee.
- Multiplying the Gee by the Tim yields the Vlos, TGM's velocitel.
- Multiplying the Vlos by the Tim, yields the Grafut, TGM's lengthel.
- Squaring the Grafut yields the Surf, TGM's areanel.
- Cubing the Grafut yields the Volm, TGM's volumel.
- TGM uses the maximal density of water as its densitel, the Denz.
- Multiplying the Denz by the Volm yields the Maz,TGM's massel.
- Multiplying the Maz by the Gee yields the Mag, TGM's forcel.
- Mutliplying the Mag by the Grafut yields the Werg, TGM's energel.
- Dividing the Werg by the Tim yields the Pov, TGM's powerel.
- Dividing the Mag by the Grafut yields the Tenz, TGM's tensionel.
- Dividing the Mag by the Surf yields the Prem, TGM's pressurel.
- TGM takes a (slightly different) value for the massic heatability (aka specific heat capacity) of water, and uses that as the Calsp, TGM's masselic·heatabilitel.
- Multiplying the Calsp by the Maz yields the Calkap, TGM's heatabilitel.
- Dividing the Werg by the Calkap yields the Calg, TGM's temperaturel.
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