Alternative Quantum Chromo-Dynamic Colourification

Proton (reddish orange)

up quarks x 2 (red)
down quarks x 1 (yellow)

Neutron (yellowish orange)

up quarks x 1 (red)
down quarks x 2 (yellow)

Now we can verify the postulating statements using the previously elaborated mathematical representation of the colourwheel.

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1 = Red
2 = Orange
3 = Yellow
4 = Green
5 = Blue
6 = Purple

(Blue + Yellow) ÷ 2 = Green
(Yellow + Red) ÷ 2 = Orange
Red + Blue = Purple*****

Proton = 1 + 1 + 3
= 5

Neutron = 1 + 3 + 3
= 7

Nucleus = (5 + 7) / 6 quarks
= 2 (Orange)

A colourification of particle physics that allows a certain degree of quantification and information storage.

..and YES! ..our preliminary theoretical implementation is affirmative.

Protons + Neutrons
----------------------------- = Secondary Colour (particle)
N-particles (quarks)

The words "Electricity" and "Electron", what colour comes to mind? ..of course, it is even complementary to our orange nucleus, the electric blue electron.

The interesting aspect, where there exists an imbalance of forces it cannot be expressed using a true secondary colour. The imbalance of particle types can be expressed as "in-between" colour states for isotopes, ions and other non-stable states of particles, atoms, molecules ..this may apply to the scale of proteins as well. Start with one particle, an atom and so on.

For computerized models, at-a-glance comprehension of balance or instability for particle states and structures which are comprised of them.

I have somehow elaborated the mathematics of the situation before noticing ..that the chosen mapping for electron colour coincides exactly with the bluish colour of pre-arc electron jets. The orange colouring assigned the proton is a colour-match to the phenomena exhibited by protons within our sun.