The Great Crash and Burn That Did Not Happen

English
This drawing is vague, because knowing specifically what size blade and what the energy will be used for is very important, because transformers have resistance they eat power so we should know, do we want motion, heat, or to charge a battery? If this design is applied to a large enough blade it could crash and burn. Uncollected energy is dangerous, we need to acount for many forces, but Calculus is here to help. Spreadsheets are our friends, they can do calculations for us.

French
Ce dessin est vague, car il est très important de savoir quelle taille de pale et quelle énergie sera utilisée, car les transformateurs sont résistants et consomment de l'énergie. Si cette conception est appliquée à une lame suffisamment grande, elle risque de se briser et de brûler. L'énergie non collectée est dangereuse, nous devons compter pour beaucoup de forces, mais le calcul est là pour vous aider. Les tableurs sont nos amis, ils peuvent faire des calculs pour nous.

Spanish
Este dibujo es impreciso, porque es muy importante saber específicamente qué tamaño de cuchilla y para qué se utilizará la energía, porque los transformadores tienen una resistencia que consumen energía, así que debemos saber si queremos calor de movimiento o para cargar una batería. Si este diseño se aplica a una hoja lo suficientemente grande, podría caerse y quemarse. La energía no recolectada es peligrosa, necesitamos dar cuenta de muchas fuerzas, pero Cálculo está aquí para

Advice For Idaho National Laboratory

!) Sky Neutrons and ground Electrons, beware of energy build up.

2) Learn from Plutonium use of the past, that more energy is created in situations where fuel converts to Noble gas. Plutonium is dangerous to handle. Thorium or Praseodymium would produce more power because they can break up more easily into Nobel gas, thus the entire mass of the atom could be dissipated instead of just some of the neutrons. Praseodymium would be safer than Thorium because, it is non-radioactive and could produce, Neon a lighter than air gas, when struck by Hydrogen atoms. Praseodymium is not the only element that could break up into equal parts of Neon, any element with an atomic number ending in 9 could break up into Neon if hit just right. Indium, Copper, Potassium, or Fluoride might convert to Neon. When it comes to popularity of nuclear reactions in our time tested world, I note the merging of Helium and Oxygen to form Neon which in time produces more Oxygen and Helium, seems to be pretty much be the cycle of atomic life with useful atoms like Oxygen and Neon, being far more common than expected by chance alone. Let Chernobyl remind us that even the carnival with rides and flashing lights, was not enough to use the surprise energy created when Thorium apparently converted to Argon, leaving the plant like a bat out of heck.

3) It was never just bang bang Maxwell's silver hammer, now we have a complex Plutonium mess. Because open containers tend to leak and closed containers tend to crack, we have no choice but to harvest the energy coming from this. A whole new periodic table of Radioactive products remain from these reactions, because abused Neutrons can hide in any element and have spread around the world. We must think of novel ways to make use of this energy and not let energy go to waste. Wasted energy is dangerous.

4) Copy life, sky Neutrons into the Electron shell of the Earth. Note: shells from around the word are displayed above to help you understand the electron shell around Earth. Try to identify the North and Mouth sides of the shells. Note: the Mouth at the South of Earth's Electron shell causes the spin measured by the shells, that must measure this accurately over time, for best protection and food access, inside a larger life form that takes in water and matter, creating helix structures like those that make up our DNA. The Earth is growing because it takes in matter faster than it releases it.

5) When working e equals mC squared type equations, good measurement matters. A spreadsheet worked well for producing values, but in real life we can't power cities off margins of error...





















https://www.youtube.com/watch?v=x-ARTzPj6os

The Equations For the Neon Snail

The Neon Snail has been tested since before human existence, but I want to apply the patterns in a slightly different way. I want to direct neutrons into a hydrogen cloud but I must figure out, what ratios of neutrons vs. hydrogen atoms and how much energy will be produced.
So the I start with recipes based on the periodic table. The atomic number tells me how many hydrogen atoms to use in the recipes and the atomic mass tells me the total weight. Knowing the weight I can subtract the protons to find out how many neutrons I will need.

For example if I wanted to make gold I could use 79 Hydrogen Atoms and have a total mass 197, like the most stable isotope of gold. So 197-79 = 118 so using experiments the hole size can be adjusted to be just right.

How much energy will be produced by the reaction? This can be calculated using the famous e=mC squared equation. I capitalized C because it's a constant this improves the readability of problems, but be warned grammar in mathematics is subjective and teachers have their own way of wanting things written.

according to google
the speed of light =
299 792 458 m / s

Gold

Mass of original hydrogen atoms = 79*the mass of a hydrogen atom or 1.00794 u ± 0.00001 u according to google or 79.62726.

The mass of the neutrons is 1 u So the total is 79.62726 u+118 u or 197.62726 u so we subtract the mass of the final product 196.96654 u and get .66072 u

e=.66072 u*299 792 458 m / s

1.9807887e+13 or 1.9807887*(10 to the 13th power) atomic mass unit/m/s. Chemists use moles to make conversions easier so instead of using atomic mass units we can make a whole mole of gold and have 1.9807887e+13 g/m/s is system international units even...

That looks like a lot of energy, maybe we should make a batch of Osmium (the 76er) because it is very dense. 192 looks like a stable form. So we have 76 hydrogen atoms to 116 neutrons.

Osmium
Mass of original hydrogen atoms = 76*the mass of a hydrogen atom or 1.00794 u ± 0.00001 u according to google or 76.60344.

The mass of the neutrons is 1 u So the total is 76.60344 u+116 u or 192.60344 u so we subtract the mass of the final product 191.9614807 u and get 0.6419593 u

e=0.6419593 u*299 792 458 m / s

192454556.483 u/m/s or 1.924556.483*(10 to the 8th power.)

Neon
Maybe we want some Neon 20 that is 10 Hydrogen Atoms to 10 neutrons
Mass of original hydrogen atoms = 10*the mass of a hydrogen atom or 1.00794 u ± 0.00001 u according to google or 10.0794

The mass of the neutrons is 1 u So the total is 10.0794 u+10 u or 20.0794 u so we subtract the mass of the final product 19.9924401754 u and get .0869598246 u

e=.0869598246 u*299 792 458 m / s

26069899.5641 u/m/s or 2.660698995641*(10 to the 7th power.)

Isotopes of the Element Gold
https://education.jlab.org/itselemental/iso079.html

Isotopes of the Element Osmium
https://education.jlab.org/itselemental/iso076.html

The atomic mass of gold-197 is 196.96654 u
http://www.chegg.com/homework-help/questions-and-answers/1-atomic-mass-gold-197-19696654-u--much-energy-required-completely-separate-thenucleons-go-q852246

Osmium
https://en.wikipedia.org/wiki/Isotopes_of_osmium

Neon
https://en.wikipedia.org/wiki/Isotopes_of_neon