November 22nd update – Kyo’s Blog

Article 1:

No.2447. Studying Quantum Biology.

Update 1:

from

fig.14. {(+1) × (∑ (+x)^d) = (-1) × (∑ (-x)^d)}set → {{+S}space_amount_set = {-S}space_amount_set}set as (d = 0~∞), {t'}set → any_quantum_leap, then it is preparation of any large scale of -gravity.

fig.14. with the imaginary number field, as {(+1) × (∑ (+x)^d) = (-1) × (∑ (-x)^d)}set → {{+S}space_amount_set = {-S}space_amount_set}set as (d = 0~∞), {t'}set → any_quantum_leap, then it is preparation of any large scale of -gravity.

fig.14:
E.g. ∑ (+x)^d = 0 + 2 + 4 = 6, ∑ (-x)^d = 0 - 2 + 4 = 2 | x = 2 and d = 0~2 here. But with the imaginary number field, (+1) × ∑ (+x)^d = (-1) × ∑ (-x)^d = 6.
Where the 4 leaves is included to the Genesis energy. See fig.15.

fig.15. space-time generation for {x, y, z, ∂t}, if fig.14 is referred, a space-time generation for 4.

fig.15:
Fig.14's left 4 is shown as y and z in fig.15.
(1) Halmos' set of ⊥, {x, , } ⊥ {y, , }, {x, , } ⊥ {z, , }, {y, , } ⊥ {z, , }, and x^d + y^d ≠ z^d,
(2) what should reach to ∞ can be in an adic number of Galois field for a vector.
(3) the imaginary number space is realized to (1) and (2), it is the requirement of expanded Minkowski space-time to ∞ dimensions, not for four dimensions' Minkowski space-time.

URL 1:

https://kyonissho.com/kyos-blog/blog/2023/11/08/no-2447-studying-quantum-biology/

Article 2:

Studying Quantum Biology

Update 2:

Same contents with update 1 for Article 2 Studying Quantum biology, as fig.23 and fig.24.

URL 2:

https://kyonissho.com/kyos-blog/blog/2022/01/05/studying-quantum-biology-4/

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