The perturbation that has had the people in a snit for a bit now

In  The Helio politan revelation 

it is written:

immersed in the primordial water of

 Nun

Tum 

By  ~~~ per 

t ur ba t ion

causes

 Gene ra t ion

Cre at in G

Ka mu te f

Min

Pho ta h

O siris

Five

aka

Two plus three 

 3 }Φ{ 2

The relationship of three

and two

evolves into the relationship

of 

1481

and

6765

in the F Series

1 and 1481/6765

The real relationship

across three points

defining

three lines

defining one surface

the seed of 

square area

the seed of 

cubic Volume

One Plus Phi

is watt?

Heaven (indivisible energy in the visible)

1 / Φ 

+

Earth [Visible Energy of the indivisible

containing the indivisible]

1 - (1/Φ)

=

Unity

1

1  - ( 1/Φ )  =  1 / (Φ^2)

Here's a breakdown of how they relate:

1. Amplitude and Energy:

• E ∝ A²: This is the fundamental relationship. 
• The energy of a wave is directly proportional to the square of the amplitude of the wave.
• This means amplitude is inversely proportional energy in every wave.  

2. Frequency and Energy:

• Mechanical aka VISIBLE/AUDIBLE waves (Sound aka~water waves): 
•  the energy is proportional to both 
• the square of the amplitude and
•  the square of the frequency. 
• Electromagnetic waves (aka color): In the case of visible colored light, the Energy of the basic unit of light visible or not is directly proportional to its frequency 
• E = hf, where h is Planck's constant Higher frequency light beyond the visible as ultraviolet and higher frequencies carry more energy per photon than 
• lower frequency audible light aka radio waves. 
• the total energy of an electromagnetic wave is Then determined by  both the 
• number of photons (related to amplitude) and the 
• energy per photon (related to frequency). 

3. Wavelength and Energy:

• Inverse Relationship: Frequency and wavelength are inversely related: as the frequency of a wave increases, its wavelength decreases.
• Wavelength and Energy: Due to this inverse relationship, energy is also inversely related to wavelength. Shorter wavelengths correspond to higher frequencies, which in turn means higher energy. 

1. Classical Electromagnetism:

• Light and other electromagnetic (EM) radiation are described as waves of
• crossing/oscillating electric and magnetic fields.
• Amplitude is the maximum Strength of the oscillating fields defining the wave 
• Photons of the same Frequency have the same Energy, regardless of  amplitude   according to the equation E = hf, where h is 

  3 × 5 × 7 × 6310543 = 662607015 X10^-42

• The Intensity aka  Brightness or Volume of any E~M wave is directly proportional to the square of the Amplitude of the wave
• A Higher Amplitude wave is called Brighter or more Intense, and does more Work. 

2. Quantum Mechanics and Photons:

• Quantum mechanics introduces photons, separating  waves into imaginary parts of waves 
• which are called imaginary discrete packets called quanta of electromagnetic energy.
• The energy of a single photon is determined solely by its frequency, according to the equation E = hf, where h is Planck's constant and f is the frequency.
• All photons of the same frequency have the same energy, regardless of the wave's amplitude.
• A single photon does not have a well-defined amplitude in the classical sense. Its "amplitude" is related to the probability of finding the photon in a certain location, as described by its wave function. 

3. Connecting the Two Views:

• The classical description of an electromagnetic wave with a certain amplitude emerges when there is a very large number of photons acting collectively.
• The amplitude of the classical EM wave is proportional to the number of photons present.
• Therefore, a higher amplitude wave means there are more photons of a particular frequency.
• Increasing the number of photons (by increasing the amplitude) increases the total energy of the electromagnetic wave, since each photon carries a specific amount of energy (determined by its frequency). 

color :.. Find Ultra Violet to the right on the FΦM dial as Φ expanding

sound ..: Find Infa Red to the Left where the low notes live in Blue 

always ready Φ or another trip around the may po:.e

The photon perspective:

• Photons and Amplitude: In the quantum mechanical view, light is composed of photons, and the amplitude of the electromagnetic wave is related to the number of photons present. More photons of blue light mean a higher amplitude wave and thus greater intensity.
• Energy per photon: The energy of an individual photon is solely determined by its frequency (E=hf). So, while blue light photons are more energetic than red light photons, the total energy of a blue light beam (its intensity/amplitude) depends on both the energy of each photon and the number of photons. 

In essence, the amplitude of a blue light wave is determined by the source creating the light, and its effect is observed as the brightness or intensity of the blue light. The value is inferred due to its relationship to intensity, though it is not directly measured as a physical height. 

Blue light's properties:

• Color is determined by wavelength and frequency: Λ = C / V aka C = V X Λ
• Blue light has a relatively short wavelength and high frequency.
• Red light has a relatively long Wavelength and A relatively Low Frequency
• Amplitude is related to intensity/brightness: The amplitude of a blue light wave, like any light wave, determines its intensity or brightness. A higher amplitude blue light wave will be brighter, and a lower amplitude blue light wave will be dimmer. 

Determining Amplitude from Intensity: The amplitude of the blue light wave can be calculated by taking the square root of the intensity (with a proportionality constant) if the intensity of the blue light wave is measured (which can be done using various light sensors or by converting it to heat).