*c*=2

^{(b-1)/2}{

*b*∈

**ℤ**→26, /max=25 (0-25) ||

*b*= brane count [which is of the sesquilinear form (e

^{-},e

^{+})]}, an

**epp**is the coverage's resultant as a

*half-integer*spin statistic (negative parity[

^{-}]).

The theory of

**epps**is earl. stop leaf (see egg, Egglepple, play)

/// +The formula is in direct correlation to spin-statistics. So, for example, when

*b*is odd, say

*b*=5, then

*c*(=4) is an integer-spin (egg). When

*b*is even, say

*b*=8, then

*c*(=11.3137085+) is a half-integer-spin (

**epp**). The rational portion (floating point) of half-integer statistics contributes to seigniorage. Obviously, any negative

`value`

for *b*will

`yield`

an **epp**. (see

`juke tax`

)+Yes, there are twenty-six (26) integer

`values`

here; we denote "0" as (0^{-},0

^{+}) → having both negative(-) and positive(+) polarity in

`twistorspace`

. For instance, -12 ... (0^{-},0

^{+}) ... +12 = [26]. The total number of coverages,

*c*, is an upperbound for points on a curve, and so its number line must include 0 (hence 0 through 25). However, because any

*b*=0 gives nonsensical

`values`

`[error codes]`

, the zeroes are discounted, and lower and upper bounds are just eleven (11). The minima (cover-0 = -11) is 0.015625 and the maxima (cover-25 = +11) is 32.