Du Fu's strict requirements and the confidence of all scientists will certainly not come out of thin air, and their confidence comes from what is in the box.

These boxes contain animatronics, artifact-level scientific creations in scientific research.

The "electron" is not the other "electron", in this case, the "electron" is one of the elementary particles that make up the atom, with an extremely small mass, a unit negative charge, and an electron that revolves around the nucleus of the atom.

Electronic robots refer to robots that are about the same size as electrons, much smaller than micron and nanorobots, and of course the way they move and work in different places.

Macroscopic matter is composed of microscopic molecules or atoms, and atoms are composed of atomic nuclei and electrons, and atomic nuclei can be broken down into neutrons and protons.

In order of diameter, from largest to smallest, they are molecules, atoms, nuclei, neutrons, quarks, and electrons.

They are all orders of magnitude smaller in diameter, with atoms about 10^(-10) meters in diameter, protons about 10^(-15) meters, neutrons about 10^(-15) meters, electrons about 10^(-16) meters, and quarks about 10^(-18) meters.

They are all very small in length, and the units below the nanometer commonly used in Chinese scientific activities are picometer, femtometer, ami, and the meter that has been defined but has not yet been popularized on a large scale.

These units are all in the decimal system, i.e. 1 nanometer = 1000 picometers, 1 picometer = 1000 femtometers, 1 femtometer = 1000 ami, and 1 ami = 1000 decimal meters.

The meter is currently the smallest unit of length, and scientists hope that this is the end of the length decomposition, hence the name.

This is just a good wish in the process of exploring the mysteries of the universe, and everyone knows that it is impossible, and in this correspondence, 1 meter = 1×10^(-21) meters.

The diameter of the electron is between femtomi and ami, because the accuracy of Huaxia's observation equipment has surpassed that of ami, so that electronic-grade robots can be manufactured.

At present, these scientists are working hard to achieve the best of their ability, and it is believed that the emergence of quark robots is not too far away.

"All the electronic robots have been started up and are entering the working state." The smooth report made Du Fu very satisfied.

There are big differences between electronic robots and micro and nano robots, first of all, the working mode is different.

Micro and nano robots can work independently, and when necessary, micro and nano robots can be directly transformed into materials and directly integrated into the work object.

In contrast, a single electronic robot is almost useless, and must be linked by millions of people, under the control of a preset program, to carry out the scheduled work.

The drive is also different, the micro and nano robots work on the surface of the material, and their driving force mainly comes from the external wireless power supply.

Electrobots are distributed between atoms and directly absorb the energy generated by the activity of electrons within the atoms, or directly use the gravitational pull of the atomic nucleus.

"Synchronize the location of all robots." Du Fu, who had already walked into the monitoring room, ordered.

At his request, all the monitors were turned on to calibrate the positions of the individual robots.

These animatronics are completely distributed throughout the wreckage, from the surface to the core.

Each robot shuttles between electrons, constantly moving according to the initial program requirements.

"Mr. Du, it takes three minutes for all the robots to arrive at the predetermined position." The observer said to Du Fu.

"Well, there's no hurry." Du Fu replied and said: "The study of the microcosm requires more patience. ”

Indeed, the development of the microcosm does require patience.

Due to technical limitations, the study of the microcosm has only just begun, which is a huge gap with the study of the macrocosm.

At the beginning of civilization, human beings began to study the sun, moon, stars, mountains, rivers, flowers and trees, and everything else that could be seen.

From ancient mural oracle bone inscriptions to modern special writings, there are countless records in it.

In particular, the sun and moon are even worshipped as totems.

The reason for this is that these things are so large that they can be easily observed without any special equipment.

Even though the sun, moon and stars are far away from us, these things are really big and you can see them when you look up.

The microscopic world is different, and research can only be carried out with the help of specialized instruments and equipment.

The smaller the unit of length, the more sophisticated the equipment required, so microscopic research is extremely dependent on the development of related equipment.

In the 17th century, it was discovered that the combination of two convex lenses could significantly increase the magnification power, and this device was the precursor to the microscope, and on this basis, people began to study microorganisms.

In the 90s of the 20th century in the Western calendar, the world has developed an electron microscope with a magnification of 2 million times, and people used it to see the fine structure of the interior of matter, and saw that all matter is composed of some extremely small particles that are invisible to the naked eye, so that the atomic world was discovered.

In 1983, the scanning tunneling microscope was invented.

Since the invention of the scanning tunneling microscope, a new discipline has been born in the world that focuses on scales ranging from 0.1 nanometers to 100 nanometers, which is nanotechnology.

Without the development of observation equipment, it would be impossible to study the microscopic world, after all, the smaller the thing, the less easily it is to be seen.

"All the robots are in place and starting to unite as planned, which is expected to take a minute."

A report interrupted Du Fu's thoughts.

In the universe, a minute is nothing at all, but at this time, a minute seems to be a long time.

It's also interesting to watch a large number of robots move and combine to form a coherent whole.

"It is estimated that it will take five minutes to start the trial scan and calibrate the results simultaneously." After a minute, the robot is assembled and moves on to the next step.

Each of the three groups of robots scans the same area and then compares the results to calibrate the error.

"At the end of the trial scan, all the robots are working normally, and the error of the scan result is 1/36th of 10, and it is determined to be passed, and it is about to enter a full scan."

"The full scan began, and the relevant results were uploaded to the computing center simultaneously, and the full scan is expected to take three days."

The emotionless automatic prompts sounded in turn, sounding like a natural sound in Du Fu's ears, it was so pleasant to hear.

"All units should pay attention to the fact that according to the scan data, the true model of the wreckage is established simultaneously and the structural analysis is carried out." After the scan began, Du Fu gave the order.

After seeing the official scanning begin, Du Fu put down the research work on this wreckage and turned to the study of other fragments.

There were 1,000 warships of the Green Rain Republic, and they fired more than a billion rounds of various types of shells, most of which were completely annihilated in the antimatter reaction, but in the end they still left dozens of fragments.

From the ship's hull to the fragments of the instruments inside, there were remaining, as well as fragments of several shells.

These large ones are only a meter long, and the small ones are only a few millimeters, and they can also provide a lot of information, and according to the analysis results, it is no problem to improve your own attack methods and enhance the effect of attacks.