As c=2(b-1)/2 {b26, /max=25 (0-25) || b = brane count [which is of the sesquilinear form (e-,e+)]}, an egg is the coverage's resultant as an integer spin statistic (positive parity[+]).

The theory of eggs is ellis. start leaf (see also epp, Egglepple)

Notes (+): +The formula is in direct correlation to spin-statistics. So, for example, when b is odd, say b=7, then c(=8) is an integer-spin (egg). When b is even, say b=4, then c(=2.82842712+) 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 twistor space. 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.