Yonghan said: "When I saw you young people, I realized that I might be older."
Guan Lirong said: "Don't be so sentimental. How old are you?"
Yonghan said: "Mr. Qi once told me that he has a few strange stones there. But I don't know how to control them. Maybe you can help me take a look."
Guan Lirong said: "It was found in the mining city?"
Yonghan said: "Yes, there are stones in other places too."
Guan Lirong said: "Okay. If you are free to find him tomorrow, I can go with him."
The next day, they went to Qi Yanliang’s office building.
Yonghan said: "Mr. Qi, this is Li Rong."
When Qi Yanliang saw Yonghan coming, he welcomed him and said to Lirong, "Hello, what can I do?"
Yonghan said: "I was thinking that maybe Lirong could be involved in research on how to control water distribution and other stones."
Qi Yanliang thought for a while and said, "Do you have any preliminary thoughts?"
Guan Lirong said: "Try to find out various signals that the stone may emit. Then emit the signal to observe its reaction."
"We tried many kinds of signals," Qi Yanliang said.
Guan Lirong said: "Maybe those new elements can be used."
Qi Yanliang said: "The stone is in the laboratory. If you want to try it, do it in the laboratory here." Qi Yanliang was afraid that the stone would be lost.
Guan Lirong said: "Okay. No problem."
There are some devices in the laboratory that prevent the stone from radiation, which are stuck on the outside of the stone.
He arrived at the laboratory and was looking for ways to connect the stone's information with the controller's information.
The simplest way is by controlling the placement of stones.
For example, when water is distributed among stones, if the stones are placed horizontally, the water will flow sideways; if the stones are placed diagonally, the water will flow upward; if the stones rotate, the water will also rotate.
For thermal distribution stones, the direction of rotation is that the temperature in the west is the highest, the temperature in the east, north, and south is the lowest, and the temperature in the middle is medium. After the direction of rotation, the temperature in the middle is cooler, the temperature in the east is cooler, and the temperature in the north and south becomes higher. Turning the direction again, the temperature is cooler in the middle, warmer to the east, moderate to the north, and south.
In the case of a power distribution stone, the direction of rotation causes the electrons in the wire to jump. The more you turn, the more distance you jump. The distance of the jump can be determined based on the angular displacement of the rotation. The size of the stone determines the distance of the controlled electrons.
The simple method is to place the stone on the stand, and you can control the rotation of the stand around the x-axis, y-axis, and z-axis.
But this seems difficult to control accurately.
Then you still have to analyze the signal sources near it.
The type of signal needs to be determined, such as a radio signal, a sound wave signal, or another type of signal. This is done through signal analysis instruments.
Determine the source, frequency, and other characteristics of the signal.
Some professional communication equipment is required. Includes radio transmitters, laser communications equipment, or other types of equipment. It is necessary to determine whether the meteorite has the ability to receive signals and to select appropriate communication frequencies and protocols.
The first is to detect whether there are radio wave signals or electromagnetic signals.
According to different propagation characteristics and different applications, the entire radio spectrum is divided into frequency bands: low frequency, extremely low frequency (ELF), super low frequency (SLF), ultra low frequency (ULF), very low frequency (VLF), Low Frequency (LF), Medium Frequency (MF), High Frequency (HF), Very High Frequency (VHF), Ultra High Frequency (UHF), Super High Frequency (SHF), Extremely High Frequency (EHF) and UHF, plus Jimmy waves and hummi waves, the corresponding wave bands range from Jimmy waves, to long waves (waves of 100 megameters), extremely long waves (waves of 10 megameters), ultra-long waves (waves of 100 megameters), extra long waves (waves of 100,000 meters), and even Long wave (ten thousand meter wave), long wave (kilometre wave), medium wave (hundred meter wave), short wave (ten meter wave), very short wave (meter wave), extra short wave (decimeter wave), ultrashort wave (centimeter wave), Very short waves (millimeter waves), to short waves (silk meters waves) and kilometre waves.
Then detect whether there are sound waves. There is a difference between sound waves and electromagnetic waves. Sound waves are generated by the vibration of objects and are macroscopic mechanical vibrations; electromagnetic waves are generated by high-frequency alternating magnetic fields and are microscopic. Sound waves cannot propagate without a medium, and they propagate faster in denser materials; electromagnetic waves do not need a medium to propagate, they can propagate in a vacuum, and the propagation speed is fastest in a vacuum. It is the speed of light. The propagation speed in the medium is different and is affected by the medium.
Then check whether there is a quantum communication device.
The quantum communication system consists of two parts: the transmitter and the receiver, and communication needs to be achieved by controlling the quantum communication device. Before sending information, it needs to be encoded into qubits, that is, quantum state preparation. Quantum states need to be transmitted to the other end through optical channels or other media. Since quantum states are very fragile and susceptible to noise and interference, some quantum protection protocols need to be used to ensure the security of transmission. At the receiving end, the receiver needs to measure the received quantum state and restore the original information based on the measurement results.
Guan Lilong said: "There is something similar to quantum communication, but we cannot control it using quantum communication devices."
Yonghan said: "That's because it uses quantum communication to communicate with other objects. It is not communication between the controller and the stone."
Guan Lirong said: "This should be very difficult. It cannot be controlled casually."
Yonghan said: "There are also some new elements that you can try."
The flow element is used for transporting other substances, the solid element is used for fixation, the elimination element is used for medical treatment, the column element is used for construction, the solution element is used for degradable materials, the energy element is used for energy, the filter element is used for filtration, and the ash element is toxic.
Place the stone near the flow element and the stone will move along the prescribed path.
If placed near a solid element, the stone will not move.
When placed near the elimination element, there is no response.
Placed near the column element, there is no reaction.
When placed near the solution element, it becomes brittle.
If placed near the energy element, there will be no reaction for the time being.
Place it near the filter element and move it slightly.
Place it near the elemental element to corrode the stone.
Placed near flow elements and filter elements, they can then be controlled by programming molecules and flow elements.
But after a long time, I couldn't control it.
Guan Lirong said: "Is the power out of power?"
Yonghan said: "How can we provide it with energy?"
It turns out that only by placing it near an energy element or providing high thermal energy can it provide energy.
Then put a box next to it and fill it with energy elements, and then use the controller to control the programmed molecules and stones, and then use them to control the electrons, water, and temperature fields.
