| 1 |
((x^2-1)*4)=e cost to od to x (in the manual)
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1 |
((x^2-1)*4)=e cost to od to x (in the manual)
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| 2 |
((x^2-1)*4)-((x-1)^2-1)*4)=e cost to increase od by 100%
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2 |
((x^2-1)*4)-((x-1)^2-1)*4)=e cost to increase od by 100%
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| 3 |
*17.7=the cost of 1 e produced by singu in terms of metal
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3 |
*17.7=the cost of 1 e produced by singu in terms of metal
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| 4 |
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4 |
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| 5 |
(((x^2-1)*4)-((x-1)^2-1)*4))*17.7=the cost to increase od by 100% in terms of metal(if you use singu)
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5 |
(((x^2-1)*4)-((x-1)^2-1)*4))*17.7=the cost to increase od by 100% in terms of metal(if you use singu)
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| 6 |
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6 |
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| 7 |
(((x^2-1)*4)-((x-1)^2-1)*4))*17.7/m=the amount it costs to increase your income by 1 metal using od
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7 |
(((x^2-1)*4)-((x-1)^2-1)*4))*17.7/m=the amount it costs to increase your income by 1 metal using od
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| 8 |
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8 |
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| 9 |
933=metal/metal of cloaky con
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9 |
933=metal/metal of cloaky con
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| 10 |
733=metal/metal of nanolathe
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10 |
733=metal/metal of nanolathe
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| 11 |
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11 |
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| 12 |
put in metal/metal into y, solve for x, you is done!
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12 |
put in metal/metal into y, solve for x, you is done!
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13 |
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14 |
you get od value to get %=(x-1)*100
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How cost effective is a con swarm