Science and Technology Series 21 nuclear fusion formula, 3H+23H—→4He+10n+1.76€×10^7eV, the plasma temperature reaches 600 million degrees, and the power exceeds 20 megawatts. If the above formula and data are followed, the research will prove The Carmack magnetic ring device is leading the way. The principle of plasma formula for controllable nuclear fusion. Plasma is very important in the research of controllable nuclear fusion.
The reason is simple. As long as the temperature is high enough, electrons will break away from the atoms, and the fourth state of matter will appear. The basic equations that govern various behaviors of plasma (Vlasov and Maxwell equations [6])... are like the three constraints. Newton's law of body motion, the Navier-Stokes equation that governs fluid motion, and the Boltzmann equation that governs the motion of a large number of molecules are the same... Nano-measurement technology, there is another relatively advanced technology, which is optical interferometry technology, which uses interference fringes of light To improve the measurement resolution, the measurement methods include: dual-frequency laser interferometry, optical heterodyne interferometry, X-ray interferometry, and F-P standard tool measurement method.
Today's conventional fuel for aircraft carriers is oil. To propel a huge aircraft carrier, a huge amount of oil is consumed, and the kinetic energy converted is also limited.
But it's different with controllable nuclear fusion. Its output power is very powerful and can instantly increase the speed of a 70,000-ton aircraft carrier.
This is just one aspect of the application of controllable nuclear fusion. When controllable nuclear fusion technology matures, it can be applied to all aspects of humankind.
The reason why nuclear fusion can be turned into energy for people to use is that the fusion of atomic nuclei of deuterium and tritium needs to be stable at a critical point and continuously output energy.
For example, the plasma temperature reaches 440 million degrees, and the output power of pulse fusion exceeds 16 megawatts. The technology of controllable nuclear fusion is to control this temperature and power unchanged.
If there is a slight temperature change in the middle, this balance will be broken and nuclear fusion will fail.
All components must be accurate. For example, if the arc is 121.789 degrees, a deviation of 0.02 degrees will cause the device to be unstable and will fail.
The fighter jet is equipped with a small controllable nuclear fusion device, which can be used as a weapon at the critical moment of chasing enemy aircraft.
There are a total of 1,898,726 parts and 5,289 subsystems in controllable nuclear fusion. These subsystems form 276 subsystems, and further subsystems form 8 major systems, which finally form the Tokmak device, a device for controllable nuclear fusion.
The core part of the Tokmak device is the magnetic ring constraint material system. If this core part is successfully developed, Tokmak will be 30% successful. Although the subsequent branch devices are also very complicated, it is only a matter of time.
ITER magnet is an important material for the magnetic ring device. The small nuclear fusion device of the mecha's energy system is the core system of the entire mecha.
All functions are driven by the energy system. The design of other systems of the mecha must also be developed in conjunction with the data of the energy system. Otherwise, if the mecha arm is designed to be able to grab a 1,000kg weight, the power of the source may not be reached and it will be in vain.
There are existing lithium cobalt oxide 18650 batteries, nickel metal hydride batteries, lithium iron phosphate batteries, ternary lithium batteries, etc., lead-acid batteries.
Mecha energy generally has several requirements, one is battery life, the other is output power, and the third is battery life... But when used as mecha energy, the cycle life of lead-acid batteries is about 300 times, with a maximum of 500 times, and the battery life is poor. , lack of power, and its weight... Lead-acid batteries are mainly made of lead and its oxides, and the electrolyte is a battery with sulfuric acid solution... Chemical reaction PbO2+2H2SO4+Pb--->PbSO4+2H2O+PbSO4 ( Discharge reaction) (lead dioxide) (sulfuric acid) (spongy lead) The valence of Pb in PbO2 decreases... The structural performance of this battery is destined to be very low, and there is no need to delve into it in depth.
The performance of lithium iron phosphate power battery is more than 3 times that of lead-acid battery, the cycle life reaches more than 2000 times, the thermal peak can be 350℃-500℃, the operating temperature range is wide (-20C--+75C), and it can be directly connected to 220v power supply , voltage: 3.65V, current: 0.5C, temperature: 45°, power storage speed: 86mA/S, after half an hour, the power storage is 100%.
Lithium iron phosphate power batteries have commercial value in many fields such as energy storage equipment, power tools, electric vehicles, new energy vehicles, equipment, mobile power supplies, etc.
Lithium iron phosphate power batteries are divided into four core materials, positive electrode materials, negative electrode materials, electrolytes, and separators.
The separator of lithium iron phosphate power battery, if it is a porous polymer membrane, refers to a lithium iron phosphate battery separator with uniform pore distribution prepared by mechanical methods, thermally induced phase separation methods, immersion precipitation methods, etc. This is not very good. There is another material for the battery separator, which is an inorganic composite film.
It is a lithium iron phosphate battery separator composed of inorganic nanoparticles and high polymer. Turing machine, Turing machine is somewhat abstract. Imagine that you only have paper tape and an automatic writing device similar to a typewriter that can write 0 or 1 along the paper tape. There is a machine that can execute any algorithm that can be identified with a Turing machine.
NP-complete, any problem in NP form can be converted into 3SAT (a certain NP problem). 3SAT means that there are n variables and m clauses... The coating of nanographite particles is uneven because the structure of graphite has certain Adsorption.
When its molecular structure is not arranged neatly, its electrical conductivity and heating will occur... The basic concept of nanomaterials. Nanomaterials refer to particles with a particle size of 0.11nm-100nm in the nanometer range. The structure and characteristics of nanoparticles , small size effect, surface interface effect, macroscopic quantum tunneling effect...nano-metal materials, nano-semiconductor materials, nano-composite materials...self-driven liquid metal, point-manipulated nano-sensors, artificial nano-retina... chokes, saturable reactors... …graphite nanocoating.
Will the complexity of O(2n2)O(2*n^2)O(2n2) affect the growth of the entire program time?
Is the efficiency of a program O(0.01n3)O(0.01*n^3)O(0.01n3) lower than that of O(100n2)O(100*n^2)O(100n2)?
The complexity of O(n3)O(n^3)O(n3) will be far more than O(n2)O(n^2)O(n2).
But will the latter time increase with the size of the data? Mathematical problems, in fact, to be more precise, are not simply mathematical problems. When solving them, a lot of scientific knowledge in physics, biology, and chemistry will be used. In recent years, the reason why no mathematician has solved it is because of the lack of knowledge on other basics. It is caused by low academic attainments in the subject.
IERT magnet materials are widely used. Such high-tech materials are used in magnetic levitation high-speed rail, anti-gravity research, controllable nuclear fusion, etc.
Photovoltaic materials can generate electric current because of the voltaic effect of light, i.e. if light shines on a solar cell and the light is absorbed at the interface layer... Photons with sufficient energy are able to pull electrons from covalent bonds in P-type silicon and N-type silicon Excitation in the medium leads to the generation of electron-hole pairs...
