User:Scholarshipletter/Sample page

[Compton Effect and Application]

Compton scattering is the the change on the Lambda wavelength which generated by proton that collide into electron. So any wavelength which corresponds from medium could have the specified scattering degree rotation effect with phi angle (degree which wavelength is rotated) from the degree that found from the degree theta (degree from the difference from leaved electron). There are three effects on the electron colliding :

1. Photoelectric Effect : Electron absorb all energy knocked out from atom and photon completely disappear

2. Electron absorb photon move to higher energy level

3. Compton Effect : Photon still exist after collision with electron and scattered off the electron

The element need to search the Wavelength lambda at Compton Effect :

lambda is the initial wavelength,

�′ lambda ‘ is the wavelength after scattering,

ℎ h is the Planck constant,

�� m e is the electron rest mass,

� c is the speed of light, and

� beta is the scattering angle.

The applications on the Compton are Photomultipliers, Image sensors, Video camera tube [at the early days television used the photoelectric effect Image Dissector used a screen charged by the photoelectric effect to transform optical image into scanned electronic signal], Photoelectron spectroscopy [ Photoemission spectroscopy, Angle-resolved photoemission spectroscopy, and X-ray photoelectron spectroscopy], night vision device, spacecraft, steller, solar, echelle spectograph, radiobiology, radiotherapy, medical imaging, The concentric hemispherical analyzer is a typical electron energy analyzer. It uses an electric field between two hemispheres to change (disperse) the trajectories of incident electrons depending on their kinetic energies, study nuclear emission lines, pulsars, active galaxies, solar flares, and gamma-ray bursts, The Imaging Compton Telescope constructed images of gamma-ray sources, to study of active galaxies, supernova remnants, and diffuse gamma ray emission from giant molecular clouds. COMPTEL used two layers of gamma ray detectors to study gamma rays ranging from 1 to 30 MeV.

https://tinyurl.com/linkcompton

[Elastic Molecule Scattering]

The encounter between particles molecule which has same total kinetic energy. There is no net conversion of kinetic energy into other form like potential temperature change, sound change, or potential energy. The molecules which distinct from atoms (gas / liquid) is exchanged between the molecules translational motion and their internal degrees of freedom with each contact.

Particles 1 and 2 with masses m1,m2,

Velocities u1,u2 before collision,

v1,v2 after contact

Conservation of total momentum before and after contact is

m1u1 + m2v2 = m1v1 + m2v2

Conservation total kinetic energy

i/2 m1(u1)^2 +1/2m2(u2)^2 = 1/2m1(v1)^2 + 1/2 m2(v2)^2

If both masses same v1 = u2, v2 = u1

[Figure 1]

[TOKAMAK ST40 Dimension]

Inside Solenoid (24 wedges)                                         Toroidal Field

Inner vacuum Chamber

Poloidal magnetic coil

Divertor coil

Merging compression coil

Vertical fields coil (upper, medium, lower)

Super X Coil

Photochemistry is the other form at chemistry reaction is the implication on lightwave layers degrees inclination from the Compton effect on the photoelectric when the energy are absorbed completely without residu and significant change the essence from the molecules self and transmutation into data packages matrices which like enigma and algorithm solutions could decyphered the data compression which probably saved into the bar music constrains inside the collages and probably the imaginary moving and video motions inside the intervals need to be mapped through the matrices from concepts. The molecules absorb visible UV light become electronically excited resulting the breaking, reform, arrange, rotate the chemical bonds which the electron and energy transfer between sequenced parts paths from chemical system. Electrons energy level at atom within quantized electron must move from one energy level to other in discrete steps rather than contiuously. If there are significant change accelerations from potential and kinetic energy. Photochemical reactions become the primary photochemical reaction if there is absorption from light and secondary process thermal processes. Quantum efficiency is the ratio from number molecules reacting at time and quantity from quanta radiation absorbed from excitation molecules at same time. From the initial molecule condition if effected with photon with the Planck constant times frequency would toss the dice combinations on the three conditions when the molecule which from first effect is primary effect when there is conversion from initial molecule condition become excitation surfaces and have the lightwave absorption would have probabilties on Hot ground state, adiabatic, diabatic, intermediate. Hot ground state is when there is conversion on the high vibrational level excited molecule on the medium energy disapate and return to A. The adiabatic is the excitation from molecule A and implement reaction become excited B molecule and emit photo return to initial condition molecule. The diabatic is the photochemical effect where there is crossing point from exceited inital molecule conditions if draft chart progress from coordinates and data package at A to escited molecule B. The intermediate is the difference from photo chemistry reaction without any contact from the wave and traversing the gap between molecule distance.





[Benzene]

The initial process from benzene from100 gram Sodium Benzoate and 60 gram Sodium Hydroxide. Add to can and distillate propane medium while vapor become yellow distillate going to decarboxylation from Sodium Benzoate become Benzene

Benzene process into separatory funnel with water. Sodium benzoate and sodium hydromide add to calciumchloride to dry.

[ https://en.wikipedia.org/wiki/Decarboxylation



https://www.youtube.com/watch?v=X10VZeQmFDo

[Data Package Compression send through Radio and Light Wave]

Any frequencies which exists and give contact to any molecule has the frequency classifications which could be represented become wavelength which corresponds to how many the conditions and how the wave has the contact with the molecule. Frequency itself has the wavelength range from the lowest hertz represent the radiowave until the highest wavelength represented  visualwave. The visible light is only 2 % from all wave range [4x10^4 to 7x10^7]. From any correspond wave which has contact with atom has the encrypted datas which translated with many ranges from technology tools, from the energy range could accomodate any branches from telecommunication and any ranges from data (critical gradation) transfer transmission. The early wireless communication is represented by AM Radio Wave which translated bit by bit by motion from Morse Code from human hand where actual sound radio transmission could not roaming to possible since the limitation on radio wave range transmission haven't invented yet. Data is represent by bit correspodence with the data representation itself which recently could be able to storage any sound or visual datas with highest resolution at the nano hardware assemblies became portable with affordable lowest value price. Laser wave read the disc motion from the fast rotation from reflection wavelength and translated with the needle reader motion tracing all bits burned at disc. The data bits translate into projection on the fluoresence plasma screen from all pixel representation with fastest speed inventions on the processor development. The differentiation from the data transfer which have to be print one by one concept to concept through all boundaries region now could be flash send with digital form all taxonomies from sound visual representatives. At the early (text) digital data storage need to send actual 1 ton coil with plane and complicated data reader below 5 mb.

[Elastic Molecule Scattering]

The encounter between particles molecule which has same total kinetic energy. There is no net conversion of kinetic energy into other form like potential temperature change, sound change, or potential energy. The molecules which distinct from atoms is exchanged between the molecules translational motion and their internal degrees of freedom with molecule contact.

Particles 1 and 2 with masses m1,m2,

Velocities u1,u2 before contact,

v1,v2 after contact

Conservation of total momentum before and after contact is

m1u1 + m2v2 = m1v1 + m2v2

Conservation total kinetic energy

i/2 m1(u1)^2 +1/2m2(u2)^2 = 1/2m1(v1)^2 + 1/2 m2(v2)^2

If both masses same v1 = u2, v2 = u1

[Figure 1]



[Energy Multiplication with Pb, Berrylium, Lithium]

Energy multiplication was discussed for a blanket, having a front breeder zone and a

neutron multiplier, which was proposed to increase the Tritium Breeding Ratio (TBR).

(I) When lead was used as the neutron multiplier, the energy multiplication decreased to

less than 1.0 for thicknesses larger than 10 em due to the higher endothermic energy

of the Pb(n, 2n) reaction as compared to the exothermic energy of the 6 Li(n,a)T reaction.

(2) When beryllium was used, the energy multiplication increased to 1.35 for thicknesses

of about 10 em due to the lower endothermic energy of the Be(n, 2n) reaction

as compared to the exothermic energy of the 6 Li(n,a)T reaction.

(3) From (1) and (2) above, beryllium was found suitable as the neutron multiplier from the viewpoint of not only increasing the TBR, but also increasing the energy multiplication.

(4) The energy multiplication was increased by

5% due to the front breeder zone.

(5) The energy multiplication for using 50%

6 Li enriched lithium was enhanced by 5% of that using natural lithium, while it was not

enhanced more than 1% for enrichments above 50%. The 6 Li enrichment of 50% was

deemed suitable from the viewpoint of the TBR also.

(6) The effect of cooling channels in the neutron multiplier on the energy multiplication

was seen to be small, i.e. less than 1%. From these results, it was concluded that the

blanket having a front breeder zone and beryllium multiplier should provide good performance in therms of increasing not only the TBR, but also the energy multiplication.

https://tinyurl.com/neutrondocs

[Fusion Density to Calculate Volume Need to Generate Power]

Thermonuclear Power could be applied to generate power with the energy released from reaction.

Here is an example on the Fusion power density application to calculate estimated volume to produce fusion power

[6.04]



Fusion power density has elements on

¼ * n ** 2 -> where n is the density

σv -> reaction rate

Deuterium Tritium ΔEf -> energy released from Deuterium Tritium reaction

[Particle motion acceleration from velocity (factor) function before the allowed time range]

Any new (data transfer) particle elements which came to controlled condition environment for example particle position modeling the x(t) = t^3 - 7t^2 +15t - 10 on that x axis at any time from range [0,4].

The velocity provide from differentiation on the motion particle function :

v(t) = x'(t) = 3t^2 -14t + 15

The acceleration provide from differentiation on the motion particle function :

a(t) = v'(t) = 6t -14

v(t) =0

3t^2 -14t + 15 = 0

(3t-5)(t-3) = 0

t = 5/3, 3

a(t)=0

6t-14=0

2(3t-7)=0

t=7/2





[Plasma and State Matter difference from temperature difference]

Plasma is the other matter form other than liquid, gas, and solid which formed from gas mixtures of ions, electrons, radicals, atoms, and molecules. One from the process to generate plasma is by ionization which detach electron from Hydrogen which measured by electronvolt (Ev). From state matters orders of magnitude energy are the lists from specified measures on electronvolt which could change the form from the materials like from ice to liquid from below 273 Kelvin and there is specified value on electronvolt which is the constant to make the difference from ice to liquid. One from the application from Plasma TV is monitor which is motioned by Fluoresence which like acrylic painting which accomodated by hardware to motioned the signals from computer to motion the pixels to move according to the storage device contents. The Making from plasma itself is the initial process to reach the Beam Injection

The interaction with the plasma consist of

ionisation by collision with plasma electrons and ions,

drift of newly created fast ions in the magnetic field and

collisions of fast ions with plasma ions and electrons by Coulomb collisions (thermalisation) or charge exchange collisions with background.

Plasma is the segmentation state matter which is reacted through the temperature change which at each different ev Electronvolt value could segment the dimension from the matter and combinations on the applications. There are three different matters which usually common at usual application. That are solid, liquid, and gas. Which could be differentiation inside the different molecules. At different segments combinations from molecules could generate the different probabilities from Mendeleyev name particles between each states. So at fractions seconds the name particle could be different bifurcation at the corelation on the different temperature, frequency, and environment particle packaging.



[RDKit, Chembl, Mendeleev, Scipy Python Application Identify Process Molecules and Constants]

The technology development and programming algorithm process now could be used to process computation on the chemistry, physics, reaction. The exact value from molecular periodic table become the significant difference on the processing on automated data library from molecules would discover the complicated physics chemistry reactions that usual use at manufacture, power plants, or any process need automate STEM solution. With the crowd formulas which has own solution paths from all combinations on physics chemistry problems combination actually could be automate with application. Mendeleev is the library register provide  atom properties datas and the branches. RDKit and Chembl are the combinations figures provide representation register on the molecules and the identifications sets with model on the atom configuration could used become molecule reactions and the branches from the problem solving associated with Chemistry questions. Drugbank is the drug and pharmacy library which provide and record and summarize the medication, side effects, and combination from the chemical reaction from drug pharmacy molecule. Rosalind is the platform to provide study branch from the microbiology automation through programming. The development from AI could give solution too from the data summarization on the drug pharmacy medical effects to predict the medical decision. Scipy provide the constants library that automate solution on the Physics and Chemistry computation. Latex is the word processor could provide the mathematic symbol writing. Geogebra is the automation platform to draw mathematic function.

[Temperature Change from Matter become Plasma]

Plasma is the other matter form other than liquid, gas, and solid which formed from gas mixtures of ions, electrons, radicals, atoms, and molecules. One from the process to generate plasma is by ionization which detach electron from Hydrogen which measured by electronvolt (Ev). From state matters orders of magnitude energy are the lists from specified measures on electronvolt which could change the form from the materials like from ice to liquid from below 273 Kelvin and there is specified value on electronvolt which is the constant to make the difference from ice to liquid. One from the application from Plasma TV is monitor which is motioned by Fluoresence which like acrylic painting which accomodated by hardware to motioned the signals from computer to motion the pixels to move according to the storage device contents. The Making from plasma itself is the initial process to reach the Beam Injection

The interaction with the plasma consist of ionisation by collision with plasma electrons and ions, drift of newly created fast ions in the magnetic field and collisions of fast ions with plasma ions and electrons by Coulomb collisions (thermalisation) or charge exchange collisions with background.

Plasma is the segmentation state matter which is reacted through the temperature change which at each different ev Electronvolt value could segment the dimension from the matter and combinations on the applications. There are three different matters which usually common at usual application. That are solid, liquid, and gas. Which could be differentiation inside the different molecules. At different segments combinations from molecules could generate the different probabilities from Mendeleyev name particles between each states. So at fractions seconds the name particle could be different bifurcation at the corelation on the different temperature, frequency, and environment particle packaging.

1. From the first state from matter which is the ice form (within the H2O spectrum) if there is the upscale change from temperature would yield the electronvolt value which side to side with the temperature change which unbound the energy to cycling the heat into changing matter which at the specified value would change from solid matter into liquid matter at 273 Kelvin at 0,025 electron Volt.



At the change state from energy value (electronvolt) difference there would be the different applications on the spectrum on the electronvolt value presence which has different fundamental technicality branches for example



2. The second state from matter is from solid to liquid. There would be the unbounding with energy value at 0,035 eV and temperature 373 Kelvin.

3. The third state from matter is from liquid to gas. The liquid would be boiled with the unbounding energy value at 1 eV and temperature 10.000 Kelvin. From H2O bound with Oxygen and break molecular bond until remained only atom 2H. The ionized O2 has 8 electrons binding energy.

4. If there is continuous heating on the molecule would change to fourth state from matter become Plasma

(H+ e-) which unbound the Hydrogen electron circling atom become nucleus

Plasma is quasineutral gas of charged particle moved at medium and interact simultaneously with other particles with fully ionized plasma which all particles are charged particles

Quasineutral Gas is numbers from electron is approximately equal with ion proton

Charged particles : Particles which has the conduct stream from the 2 electrodes (the charge conductor) which could generate the particles become two poles anode (positive charge) and cathode the other charge.

The other is neutral particles without charge

10 eV plasma is from 13,6 ionized hydrogen by collision interaction



[Tokamak Process]

The process is to react Deuterium and Tritium which heat collect in heat exchanger at the blanket. From the blanket get heat from the neutron from fusion reaction to make stream generator. From the energy have been processed at the blanket it would make the stream generator to rotate the turbine. From the Lithium blanket there would be reaction from Tritium and Helium make the closed loop reaction which process at the magnet around the blanket. The reactor breakeven value is Q=1 (fusion gain) and ignition (Q=∞). Breakeven point is when fusion power (plasma) = input power.

Ignition situation:

No input power from outside all the heating from plasma from Alpha Particle produced finished by fusion reaction make fusion gain at infinity.

Optimize the size and geometry reactor, value intensity magnetic field, density, temperature, confinement time. Multiply neutron before breed react with Tritium because can't rely one on one correspondence between number fusion reactions.

Neutron slow down to breed Tritium became neutron + Tritium.

{Formula}





Tokamak Process



Magnetic Fusion Reactor



[Wavelength Compton Effect and Application]

Compton scattering is the the change on the Lambda wavelength which generated by proton that collide into electron. So any wavelength which corresponds from medium could have the specified scattering degree rotation effect with phi angle (degree which wavelength is rotated) from the degree that found from the degree theta (degree from the difference from leaved electron). There are three effects on the electron colliding :

1. Photoelectric Effect : Electron absorb all energy knocked out from atom and photon completely disappear

2. Electron absorb photon move to higher energy level

3. Compton Effect : Photon still exist after collision with electron and scattered the electron

The element need to search the Wavelength lambda from Compton Effect :

lambda is the initial wavelength

lambda ‘ is the wavelength after scattering

h is the Planck constant

m e is the electron rest mass,

c is the speed of light

beta is the scattering angle.

The applications on the Compton are Photomultipliers, Image sensors, Video camera tube [at the early days television used the photoelectric effect Image Dissector used a screen charged by the photoelectric effect to transform optical image into scanned electronic signal], Photoelectron spectroscopy [Photoemission spectroscopy, Angle-resolved photoemission spectroscopy, and Xray photoelectron spectroscopy], night vision device, spacecraft, steller, solar, echelle spectograph, radiobiology, radiotherapy, medical imaging, The concentric hemispherical analyzer is a typical electron energy analyzer. It uses an electric field between two hemispheres to change (disperse) the trajectories of electrons depending on their kinetic energies, study nuclear emission lines, pulsars, active galaxies, solar flares, and gamma-ray bursts, The Imaging Compton Telescope constructed images of gamma-ray sources, to study of active galaxies, supernova remnants, and diffuse gamma ray emission from giant molecular clouds. COMPTEL used 2 layers of gamma ray detectors to study gamma rays range from 1 to 30 MeV.

https://tinyurl.com/linkcompton

https://tinyurl.com/sofe2023codemodule [Compton Effect Calculation]

https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcQ7kFLr-3phwf-ao3H0dwprljIbtNjAq9A5VQ&usqp=CAU

[Actinide]











When nucleus absorb neuron would have the photochemistry effect which excite the neutron and destabilize those and divide into last neutron become 2 half and would give break apart reaction. Neutron which indoced binding energy (q) and has the threshold from energy excitation between 6 to 9 mEV. Nuclear reaction has two types [Fissile] which bind energy absorb from neutron (U233, U235, Pu239, Pu241). [Fissionable] with more energy with condition kinetic energy required to nucleus binding energy excite become fast neutron fission (U238, Th232, Pu240). U238 cannot fission by absorbing a thermal energy and can fission absorb fast neutron applied at burner reactor that reduce amount from Actinides present at spent fuel fissioning them at fast spectrum neutron. Fission if time emitted at no time kinetic energy. Fission effect reacted if there is the spellated like barbell shape split and knocked out from target nucleus and no time kinetic energy to slam the nucleus from neutron and forming compound nucleus survived within 10^-14 seconds before fission and has spare time 10^-17 until 10^-22 seconds to traverse the nucleus to undergo fission if the energy gained from kinetic energy 6-9 meV or greater fission cannot occur. Quantum tunneling is spontaneuous nuclei fission without energy excitation without absorb neutrons. Have half life T1/2 U238 (spontaneuous fission) -> 6,5 x 10^15 years, neutron U238 has 10^22 atoms/cm^3 several cubic cm U238 could have S.F reaction seconds to minute. SF has significance example at nuclear non proliferation -> detect and prevent proliferation nuclear material produce source neutron never turn off need to build detector and portal monitors unending neutron signal.

[Burner reactor]

Burner reactor reduce amount actinides at [spent fuel fissioning] them to fast spectrum neutron. Actinides is 15 metalic chemical elements atomic number 89 to 103.

[spent fuel fissioning]

PLASMA

Plasma is the other matter form other than liquid, gas, and solid which formed from gas mixtures of ions, electrons, radicals, atoms, and molecules. One from the process to generate plasma is by ionization which detach electron from Hydrogen which measured by electronvolt (Ev). From state matters orders of magnitude energy are the lists from specified measures on electronvolt which could change the form from the materials like from ice to liquid from below 273 Kelvin and there is specified value on electronvolt which is the constant to make the difference from ice to liquid. One from the application from Plasma TV is monitor which is motioned by Fluoresence which like acrylic painting which accomodated by hardware to motioned the signals from computer to motion the pixels to move according to the storage device contents. The Making from plasma itself is the initial process to reach the Neutral Beam Injection (NBI)

The interaction with the plasma consist of

·        ionisation by collision with plasma electrons and ions,

·        drift of newly created fast ions in the magnetic field,

·        collisions of fast ions with plasma ions and electrons by Coulomb collisions (thermalisation) or charge exchange collisions with background.

Plasma is the segmentation state matter which is reacted through the temperature change which at each different ev Electronvolt value could segment the dimension from the matter and combinations on the applications. There are three different matters which usually common at usual application. That are solid, liquid, and gas. Which could be differentiation inside the different molecules. At different segments combinations from molecules could generate the different probabilities from Mendeleyev name particles between each states. So at fractions seconds the name particle could be different bifurcation at the corelation on the different temperature and environment particle packaging.

https://tinyurl.com/plasmaoxford1

1. From the first state from matter which is the ice form (within the H2O spectrum) if there is the upscale change from temperature would yield the electronvolt value which side to side with the temperature change which unbound the energy to cycling the heat into changing matter which at the specified value would change from solid matter into liquid matter at 273 Kelvin at 0,025 electron Volt.

[Electronvolt details : https://en.wikipedia.org/wiki/Electronvolt.

At the change state from energy value (electronvolt) difference there would be the different applications on the spectrum on the electronvolt value presence which has different fundamental technicality branches for example

https://en.wikipedia.org/wiki/Orders_of_magnitude_(energy) ]

2. The second state from matter is from solid to liquid. There would be the unbounding with energy value at 0,035 eV and temperature 373 Kelvin.

3. The third state from matter is from liquid to gas. The liquid would be boiled with the unbounding energy value at 1 eV and temperature 10.000 Kelvin. From H2O bound with Oxygen and break molecular bond until remained only atom 2H. The ionized O2 has 8 electrons binding energy.

4. If there is continuous heating on the molecule would change to fourth state from matter become Plasma

(H+ e-) which unbound the Hydrogen electron circling atom become nucleus



Plasma is quasineutral gas of charged particle moved at medium and interact simultaneously with other particles with fully ionized plasma which all particles are charged particles

Quasineutral Gas : Numbers from electron is approximately equal with ion proton

Charged Particles

There are two types from particles :

Charged particles : Particles which has the conduct stream from the 2 electrodes (the charge conductor) which could generate the particles become two poles anode (positive charge) and cathode the other charge.

Neutral Particles

10 eV plasma -> 13,6 ionized hydrogen by collision interaction

Hydrogen : 2H0

Plasma : H+ +e-

[electrode : https://en.wikipedia.org/wiki/Electrode]

Materials to make electrode :

Metal based electrodes include stainless steel plate, stainless steel mesh, stainless steel scrubber, silver sheet, nickel sheet, copper sheet, gold sheet, and titanium plate.

ZETA mindmap :

https://tinyurl.com/zetamindmap

Hydrogen mindmap :

tinyurl.com/hydrogenmindmap

The particle density from plasma could be classification to other types from applications :

1. High density plasma [Sun] (collisional / fusion) : Fuel and Product the solar nuclear fusion

2. Solar wind (collisionless) : 10 particles / cubic cm

Stream particles from solar consists which flows throgh solar system 400 km / s on average

3. Cometary plasma (collisionless at distance from comet) outgassing neutral particles are ionized -> solar  ultraviolet and collisions with the solar wind

4. Planetary magnetospheric (density 1 / cubic cm) Plasma (collisionless)

5. Ionospheric Plasma (collisional) -> exterior layer atmosphere

There are 3 kinds from molecule bonding :

> Ionic Bond

https://www.youtube.com/watch?v=Qf07-8Jhhpc

https://www.youtube.com/watch?v=q-wwE6qkcTk

> Covalent Bond

> Metallic Bond

https://ptable.com/#Isotopes/Count

// Nuclear Fusion Materials

To make the reaction need Deuterium and Tritium. These two components are found inside Hydrogen since those become the part from Hydrogen isotopes.

Hydgen Isotopes : https://byjus.com/chemistry/isotopes-of-hydrogen/

Application Deuterium :

Deuterated Drugs -> molecule hydrogen drugs replaced by heavier stable isotope

Deuterium

https://en.wikipedia.org/wiki/Deuterated_drug#Examples

https://www.toppr.com/guides/physics/earth/deuterium/

Extraction Mechanism of Deuterium

1.    Process saltwater from the ocean to extract the Heavy water (D20) by chemical exchange method.

2.    Heavy water is then subjected to electrolysis using Hydrogen Sulphide which results in the formation of Deuterium Gas.

How to make Deuterium

https://www.youtube.com/watch?v=CXsuYYPIMfc

Byproducs :

TRITIUM

https://en.wikipedia.org/wiki/Tritium

Application : Radio Treatment Therapy

Tritium Battery which like permanent battery

https://www.betalight.nl/en/recycling/tritium-battery.html

How to make Tritium Battery :

https://www.youtube.com/watch?v=8fOG5IZLECk

How to make Tritium : https://kids.britannica.com/students/article/tritium/628325

Hydrogen elements properties from Nuclear Reactor : tinyurl.com/hydrogenbranches

Neutral Particles Gas

If there is new particle pass through the 2 particles at neutral gas is there any interaction or path deviation or reaction happen between the particles, if there are no reaction the particle would move to other particle with Bohr Radius 10^-8 cm. There is the specified value on the density n -> 10^18 cm-3

The motion on the particle characterized by straight lines orbits between collision

The spacing neurals or Δx = 1/n^1/3 10^-6 cm

Charged Particle

When the new charged particle move at the charged particle at gas there is condition when every charged particle has Coulomb potential around it.

[Electric Force between charges]

[Coulomb's Law - Net Electric Force & Point Charges]

[Speculative code]



Nuclear Fission

The process to join one neutron particle into a molecule which could generate other molecules and emit energy from the reaction. These the possible generated molecules from the fission reaction from Uranium.

The other molecule which possible to generate nuclear fission is with combining Deuterium (2 isotopes Hydrogen) and Tritium (3 isotopes Hydrogen).

[The deuterium-tritium fusion reaction (called the D-T reaction) is most likely to be the basic]

Estimate the Energy Generate from reaction

[Calculating Energy From Fission]



Thermonuclear Fusion

The reaction from Deuterium and Tritium which add the Helium isotope 4 could generate the Energy which could be estimated from this module

[ https://tinyurl.com/sofe2023codemodule ]

Thermonuclear Power could be applied to generate power with the Energy released.

Here is an example on the Fusion power density application to calculate estimated volume to produce fusion power

[6b Thermonuclear fusion: power balance in reactors][6.04]

Attempt : [ https://tinyurl.com/sofe2023codemodule ]

Fusion power density has elements on

¼ * n ** 2 -> where n is the Density

v -> reaction rate

Deuterium Tritium delta Ef -> Energy release from Deuterium Tritium Reaction

Fission & Fusion Reactions

[fission and fusion equations]