Mei Man: My dad is Batman

The increased intelligence of Skynet is a good thing.

But for Jason.

There are also distresss.

For example.

Skynet asked more and more questions, which made him very distressed.

He also had to explain, which made him very distressed.

For example, now.

He had to explain some problems to Skynet.

“Although there is no antigravity in the strict sense, we have a way to take advantage of it.”

“Gravity comes from the mass of matter itself.”

“Logically, as long as there is mass, there will be gravity.”

“That can’t be changed.”

“But what if we could find a substance with a negative mass?”

“Negative mass? What is this? ”

Skynet asked very suspiciously.

“Negative mass is actually a description, which refers to substances with lower energy than vacuum.”

“Modern physics thinks.”

“In the vacuum, a large number of virtual particle pairs are created and annihilated at all times.”

“In 1948, H. Shmir made a new discovery.”

“He found that the virtual particles between parallel guides in a vacuum have less energy than in a vacuum.”

“There is a weak attraction between the two boards.”

“This phenomenon is known as the Kashmir effect.”

“And such a particle is equivalent to having a negative mass.”

“Matter composed of this negative mass will be the same as the substance that has mass.”

“Creates a relative movement away from each other.”

“It’s equivalent to an anti-gravity effect.”

Jason smiled and said.

“So it is.”

“But how do we produce this negative mass substance?”

Skynet continued to ask.

“Use some kind of device.”

“Fill the device with mercury and let the two devices run in phase direction.”

“A stable nucleus with a bismuth core added to it.”

“Pass subdimensional energy into it.”

“We can obtain a certain negative mass through the restraint device.”

Jason explained.

This seems very simple.

But it was very difficult to achieve.

First of all.

It is how to use subdimensional energy.

This is no simple task for geoscientists other than him.

Want to capture this energy from the interior of the mezzanine of the main material universe.

It’s not a very easy thing to do.

The second is the choice of materials.

He chose mercury as a raw material.

It’s because this metal is very special

It just so happened that Skynet also asked.

“Why mercury as a raw material?

“Because mercury is the most special metal.”

“All the metals we see, except mercury.”

“They exist as solids at room temperature and pressure.”

“There is only one metal, mercury, which is in a liquid state at room temperature and pressure.”

Jason said with a smile.

This metal is in the thermometer.

It seems to be very common.

It’s not that precious.

It’s very special.

“The reason why metals appear solid.”

“It is because they will have a metal crystal structure at room temperature and pressure.”

“Ordinary metals can form three structures: face-centered cube, body-centered cube, and densely arranged hexagonal structure.”

“And that’s completely untrue for mercury.”

Jason paused, as if to give Skynet time to react.

“Why?”

Skynet questioned.

“This is the result of a combination of relativistic and quantum-theoretical effects.”

Jason smiled confidently and began to explain.

“According to the Pauli principle of difference.”

“Two identical fermions cannot be in the same quantum state.”

“And the electrons of atomic clocks are all identical fermions.”

“Their quantum states correspond to properties such as energy level, spin, magnetic moment, angular momentum, etc.”

“So you can’t be in the same quantum state.”

“It’s just that these attributes are different.”

“As a result, atoms have to be arranged inside and outside.”

“That’s what makes mercury so unusual.”

Skynet silently records these things in the database.

It should be trying to understand.

Jason wasn’t impressed.

The reaction speed of artificial intelligence is much stronger than his.

He didn’t have to wait at all.

Jason went on to explain.

“First, the nucleus has a strong electrostatic attraction on electrons.”

“This allows only the most velometric electrons to move around the nucleus at the lowest orbit without being sucked in.”

“Then obviously, the heavier the nucleus, the greater the speed of the innermost electrons.”

“For elements after cesium, the electrons are already so fast that they have a relativistic effect, making them heavier and lowering the radius of their orbit.”

Jason took a sip of coffee and slowed down.

Second, although electrons move in “orbits”, this orbit is by no means the smooth circle of the “planetary orbit” we imagine. ”

“It’s geometry that stretches in three-dimensional space.”

“The electrons appear randomly somewhere in each instant, which can be approximated as standing waves of probability waves”

“Among them, the highest-energy orbit of each layer of electrons is a complete concentric sphere, called the S orbital.”

“When relativistic effects cause the 1s orbital to contract, all the s orbital will contract accordingly.”

“But the shape of other orbitals is very complex, and when the 1s orbit contracts, they are not affected as significantly.”

Speaking of this, Jason obviously felt that Skynet’s computing power was at its maximum.

Even the armor next to him showed signs of sluggishness.

This shows that Skynet’s computing power has reached its limit.

Jason sighed.

After all, it is hardware that limits the development of Skynet.

But there shouldn’t be any major problems now.

He continued.

“Each orbital of an atom can hold two electrons with opposite spins and thus reach stability.”

“For example, the last electron of the gold element fills the 6s orbital and fails to fill the orbital.”

“Now that this orbit has been lowered, then the electrons on the 5D channel below can absorb visible light photons with less energy and jump up.”

“And mercury has 1 more electron than gold, fills 6s orbitals, and the electrons below will not jump up.”

“And because the 6s orbit is lowered under the relativistic effect, it is further away from the next 6p orbit and requires more energy to jump on.”

“The result is that the electrons in orbital 6s are unusually stable and reluctant to share them with other atoms.” “It is also difficult to form ordinary metal crystals, but only attract each other by intermolecular forces.”

“Because of this, mercury cannot form the corresponding metal crystals.”

“It can only exist in the state of liquid metal atoms.”

“And it is precisely because of this state that he has a good ability to shape himself.”

“The saturation of energy is also very high.”

“It’s really good to use this metal to make working fluids that produce negative energy.”

Jason took a sip of coffee and said with a smile.

To see the ununderlined version of the novel, please download Feilu Jr