I was thinking about zeration in particular,
x[0]e , e[0]x or the average of those 2.
I wonder if this comes close
exp^[1/2](x) / {exp(x-1)}^[1/2] ~~ x[0]e
or maybe
exp[1/2] ( ln^[1/2](exp^[1/2](x)) - ln^[1/2]({exp(x-1)}^[1/2] ) ) ~~ x[0]e
this last simplifies to
exp[1/2] ( x - ln^[1/2]({exp(x-1)}^[1/2] ) ) ~~ x[0]e
Notice replacing [1/2] with [1] gives e = 1[2]e.
regards
tommy1729
x[0]e , e[0]x or the average of those 2.
I wonder if this comes close
exp^[1/2](x) / {exp(x-1)}^[1/2] ~~ x[0]e
or maybe
exp[1/2] ( ln^[1/2](exp^[1/2](x)) - ln^[1/2]({exp(x-1)}^[1/2] ) ) ~~ x[0]e
this last simplifies to
exp[1/2] ( x - ln^[1/2]({exp(x-1)}^[1/2] ) ) ~~ x[0]e
Notice replacing [1/2] with [1] gives e = 1[2]e.
regards
tommy1729