1. Number Systems
Background: Number Systems is a post to explore number systems in general and for use in the
physical and computational sciences.
Post 8.1.6
Natural Events in Fibonacci Number Space
Medical Sciences
Posts 1 – 8 have established:
1 𝐷 = (1 +
𝛾∞
𝑓
𝑇𝐷
)
−1
(1 +
𝛾 𝐷
𝑓
𝑇𝐷
)
+1
For natural events, this definition should correlate to the Bernoulli base of natural logarithms:
∫
1
𝑥
𝑑𝑥
𝑒
1
= 1 where lim
𝑛→∞
(1 +
1
𝑛
)
𝑛
= 𝑒
A mathematical description of nature should not be accurate unless the number system complies
with both natural conditions of the number one shown above.
𝐸
𝐸 𝐵
= 𝑚𝑉𝐵
Kilogram+1 Meter+3
𝐸 𝐵 = 680 𝑒𝑉𝑘𝑔−1
The most efficient location of mass in space is referred to as the lowest energy state.
EB represents a dimensionless ratio and should be independent of units of measure or
number system. This value represents a power of one hundred times (100x) a dimensional
one (1x) using the base 10 number system. The physical units are energy per unit mass.
𝐸 𝐵 = 1.089𝐸 − 16
The molecule CH3 has unique spatial symmetry:
3HC-CH3
The most efficient location of mass in space is referred to as the lowest energy state.
2. The MKS system of units is related to dimensions of curvature for a surface D=2.
6.8 𝑒𝑉 = 1𝑘𝑔 𝑥
𝐸 𝐵_𝐸
10+2
Earth surface energy E3 should not be continuous in Fibonacci dimensional space D=3.
The dimensionless ratio:
𝑏3 =
1
𝑐2
𝒃 𝟑 = 1.111E-17 meter
Then a molecule has the highest contained energy when it has minimized its physical size
through symmetry. Some molecules have much more energy than others.
Post 8.1.7 is intended to further clarify the significance of CH3 in Fibonacci energy space.
