What is Delta G in chemistry? – Standard Free Energy Equation Equilibrium Constant

When we first got to know Delta G, it looked like this:

It’s really not that complicated:

A simple equation

For the math, we’ll assume that Delta G is composed of molecules called Delta (sometimes referred to as “G”, which stands for “green”) and Proteine (often referred to as “P”, which stands for “orange”).

G stands for “Green”, Proteine stands for “Orange”

When there are too many atoms in a small space (like carbon), the density becomes too high — more than is ideal — and the molecules can collide (which in this case would cause the “green atom” to absorb energy), causing the atom to emit some light, creating an orange molecule and throwing it into our eyes.

The reason that this happens is because of the interaction between the two molecules (see above). When this happens, a “gamma decay” (also called a “delta-gamma decay” or a “gamma-gamma decay”) occurs — the molecular energy of the green atom is reduced and is converted to radiation, which can then interact with another atom (proteine) to cause its energy to increase, causing the orange molecule to emit more energy (in the form of photons) and finally produce gamma radiation (in the form of gamma rays) which bounces off the walls of the eye. Gamma rays then interact with the red and blue cones of the eye, causing the colors we see in the world.

And that’s Delta G!

So, does this mean, “Delta G is green, but it’s not too nice”?

A little.

To simplify the equation, we know that delta G (G) and Proteine (P) are not so good at each other at the very beginning. So the “delta-gamma decay” occurs — so the “green atom” absorbs the green and white photons and emits orange and red light for the green light to interact “gamma-gamma decay”. This causes the carbon atom to absorb red. We’d normally say that carbon becomes “red” and orange becomes “yellow”. The red-blue-green color that we see is the result of the alpha-beta (or Gamma) radiation.

The other problem with “Delta Green” is that the color is very inconsistent and unpredictable with different wavelengths. For example, green is typically shown as very yellow, but sometimes yellow is shown as

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