Chapter 1739 How to Prevent the Transitioned Electrons From Falling Back to the Original Place?

Philby's face suddenly turned serious.

The new legend turned to look at Gretel, then at the atomic structure shadow she had sketched, then at Gretel, and then at the atomic structure shadow.

It sounds slightly possible. Well, the ideas and conjectures that Grete put forward, even if they were just scratching her head, were worthy of her research and try.

What if it’s really reliable? What if it is really feasible?

Of course, this conjecture is just a small possibility. There is still a long, long way to go before we can jump from possibility to verification that this is the case.

Well, the first step is to prove that the atomic structure in the molecule looks a bit like the magic model...

Philby lowered her head and thought for a moment. To remind her of the atomic structure of diamonds, and which spell's structure is more similar, she really couldn't think of it for a while:

In other words, because this structure is too common, too special, too uniform and stable, there are not many spells she knows that have such a small model.

To prove that this small piece is related to the atomic structure of diamond, first, you have to find a spell that uses diamond as a casting material;

Next, prove that this spell has a spell configuration fragment that is the same as the diamond atomic structure;

Finally, it is proved that when casting a spell, it is the atomic structure of the diamond that resonates with the relevant configuration in the spell, thus playing a key role...

Philby thought over and over again, starting from the three-ring spell of the transformation system [Diamond Steel], to the fourth-ring spell of the plasticity system [Steel Diamond Explosion], and then to the eight-ring spell of the control system [Photography] Soul Emblem].

After much deliberation, she sorted through all the spells she knew that used diamonds as casting materials, from low-level to high-level, but still couldn't find even a single entry point.

These spells, even the lowest level spells, are too complicated in configuration...

She thought for a while, then stared at the diamond configuration for a while, then suddenly raised her hand again, and a small section of the double helix structure - a fragment taken out of the chromosome point - lit up in front of her eyes.

In the fragment, dots and dots, different horizontal lines, vertical lines, curves, and broken lines, constitute a specific and subtle spell configuration...

"It doesn't look like it." Philby looked left and right and muttered. It must be said that it is okay to connect certain atoms to form a spell structure. However, no matter how you look at it, it is a bit far-fetched.

There are so many atoms that can be connected into this shape!

There are too many atoms in a chromosome segment! They form small molecules, which are then combined into large molecules, and the large molecules twist into double helices...

It seems that if I connect it casually, I can connect it into the configuration I want. If I connect it back and forth, can I connect seventeen or eighteen? Then why should I say that what I connected is correct!

Philby sighed in annoyance. Gretel sighed next to him:

He took it for granted that atomic bonds were so complex. There are five types of optical atomic bonds: ionic bonds, covalent bonds, metallic bonds, molecular bonds, and hydrogen bonds, each of which has different causes.

Understanding atomic bonds would have been worth...how many Nobel Prizes in the previous life? Anyway, after figuring out the strong interaction force, he wouldn't be surprised at all if a few more legends pop up in the plasticity department!

By the way, does anyone know how to break atomic bonds to release energy?

He only knows if chemical bonds are broken, will it release... or absorb energy... When it's over, he returns it to the teacher and has to look up the book again. Is this mentioned in "Medical Physics"...

Anyway, observing these spell configurations from a macro perspective and trying to map them to the microscopic molecular structure and atomic bonds gave him the feeling that it was a bit like looking up at the sky and trying to outline the stars into constellations——

God knows that it is actually three-dimensional. The distance between two stars in a constellation and the earth can be several to hundreds of light years away...

"Maybe this method may not be reliable." He slumped down depressedly, then slumped again:

"But senior sister, if you can figure out how electrons exist, how they exist around the nucleus, and how they exist when atoms are aggregated into molecules - then you will be successful -"

I don't want to post it. How electrons exist around the nucleus, I still haven't figured out yet. Philby looked at Gretel expressionlessly:

Don't say I didn't understand it, not even the teacher understood it. The only thing that is certain is that electrons will jump around uncontrollably and will appear in different states under the influence of observation——

So, taking advantage of this phenomenon, I sent out a bolt of lightning that could appear in two places at the same time without being observed;

I can make a bolt of my lightning travel across space and appear directly where I want it to appear;

I can also let these electrons take me into a space jump state for a short time, or catch other enemies in this state...

But I still don't know how they exist. I still don’t know how a single electron exists around the nucleus of a hydrogen atom;

How do a large number of electrons exist around a relatively large atomic nucleus - such as the nucleus of an iron atom, such as the nucleus of a copper atom, such as the nucleus of a uranium atom... Will they hit each other? Will there be a fight?

Oh, the collision won't hit because negative charges repel like charges.

But are they whirling around the nucleus?

All the electrons spinning around together?

Under what circumstances do they release energy?

Will they disperse at once, with all the electrons running away together? Or will only one electron escape?

On a metal plate, current conducts through an electron - an electron from the next atom - an electron from the next atom, still enveloping the metal. Three to five electrons per atom, ten Seven or eight electrons go together?

Philby let out a long sigh. She suddenly stood up, waved her hand, and jumped out: there was a crack of thunder outside the window, and a bolt of lightning pierced the sky and the earth, but Philby had already jumped into the lightning and was far away.

The only solution to worries is experimentation. She still has a lot of experiments to do!

Use light, use various kinds of light, illuminate various metal plates, various other substances, and then measure the voltage changes on them -

Until now, machining accuracy has been an issue. The voltage she measured here either didn't measure anything at all, or the data jumped up.

Philby intuitively believed that this road would also have great development, but it was limited by observation methods. Over there in the Department of Change, when can I give you something good?

Isn’t there already a legend? !

"Mage Nordmark! Mage Nordmark!" Whoever comes to mind will arrive, Legend Langer rushed over excitedly:

"I thought of the problem you mentioned!"