User:Pichemist/PostLight Travel Systems

Sub Light
The engine shift type can be given by the tritium consumption formula: $$w\ =\ f\left(\frac{c}{3h}\right)$$

Engine Shift = n
$$V\ =\ V+$$

Engine Shift = f
$$V\ =\ V$$

InterP
Engine emits pulses up to 4EHz using formula to calculate tritium expenditure. $$o\ =\ \frac{\left(cfnv^2+cfnv\right)}{3h}$$, engine force can also be calculated.

HYperwave Septasystem
Mostly used for pro-light Hyperwave travel when the points of travel are in different systems of baryonic gravitational points with mass of around $$1.0\times 10^{15}$$ exagrams. Also makes use of seven subsystems, given the "Septasystem" namesake. Tritium expenditure is usually 0 during single-phase travel but can still be given by the formula: $$r\ \ =\ \frac{\left(cfhnv^3+cfnv^2+3\right)}{3h}$$

InterS
Uses standard HYS to transmit matter from Point 1 to Point 2, mostly in different star systems. Since the line of travel is relatively gravitationally linear, the engine usally makes use of a Zero-Phase HY System. InterS can be set to two different modes:

InterCx
Uses the same HYS system as in InterS but does not consume Tritium. Mostly used as a guidance system to keep relative stability as high as possible.

InterGx
Uses the same HYS system as in InterS and InterCx but to an extreme extent. Uses the formula $$E\ >\ \frac{h+1}{h-1}$$.