Value of y slog(base (e^(pi/2))( y) = y
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Value of y slog(base (e^(pi/2))( y) = y
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I was strugling to get in grips with infinite pentation of other base than e but failed.
So my question to experts: Which y would satisfy the equation in the subject of the thread? My guess is e^(-pi), so that: e^(pi/2) [5] ( - infinity) = e^(-pi). Ivars
02/03/2008, 11:54 PM
Thank you, Ivars. Let us see.
@ Andydude. Could you please check the coordinates of the common intersection, for x < 0, and for b = e^(Pi/2), with your powerful slog and sexp machines, of: - y = b # x = b-tetra-x; - y = [base b]slog x, the inverse of the previous one; - y = x, principal diagonal ? The intersections of the three "tails" for x < 0 should correspond to b-penta(-oo). But, I might be wrong. GFR
02/22/2008, 01:21 PM
Is this very difficult or not interesting?
I still have not acquired software to be able to do it myself one day. I will proceed analytically, but that might take years  Ivars  Ivars Wrote:Is this very difficult or not interesting? The value must be somewhere around -2 (far from your guess of \( e^{-\pi} \)) considering this picture showing the intersection of \( \text{slog}_{e^{\pi/2}} x \) with \( x \). I guess it is not symboblically expressable with \( e \), \( i \) and \( \pi \). But it is not exactly -2, because \( \text{slog}_b (x) > -2 \) for all real \( x \). |
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