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Moved the experiments to talk page. Resized the figure. |
Put back capacitor level as function of time |
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* '''Your capacitor will recharge faster the closer you are to (approximately) 25% of your maximum.''' | * '''Your capacitor will recharge faster the closer you are to (approximately) 25% of your maximum.''' | ||
* '''The recharge rate drops of very quickly once you go below this.''' | * '''The recharge rate drops of very quickly once you go below this.''' | ||
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Experimenting with this formula,<ref>https://spreadsheets.google.com/ccc?key=0AnYZ5Ix967m9dGR1YTY2emRGaXgyR3k4QlBnYng3SlE&hl=en</ref> it has been found that the peak recharge rate, without any effect of boosters or energy draining weapons, is indeed at 25% of capacitor capacity. | Experimenting with this formula,<ref>https://spreadsheets.google.com/ccc?key=0AnYZ5Ix967m9dGR1YTY2emRGaXgyR3k4QlBnYng3SlE&hl=en</ref> it has been found that the peak recharge rate, without any effect of boosters or energy draining weapons, is indeed at 25% of capacitor capacity. | ||
The full derivation may be found at http://forum.eveuniversity.org/viewtopic.php?f=222&t=30652. | The formula can be also used to write capacitor level as function of time | ||
[[File:EVE_Cap_Recharge_Rate_Formula.png|center]]<!-- TeX: {\color{White}C_1=C_\mathrm{max}\left(1+e^{t_0-t_1\over\tau}\left(\sqrt{C_0\over C_\mathrm{max}}-1\right)\right)^2} --> | |||
where C<sub>0</sub> is capacitor level at starting time t<sub>0</sub> and C is capacitor level at time t<sub>1</sub> | |||
The full derivation may be found at http://forum.eveuniversity.org/viewtopic.php?f=222&t=30652 (dead link). | |||
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