Overview:
It may be possible to have all chemical elements at our disposal with
no weight or little weight when compared to 1G at 1atm. A quick theoretical
example might be a bouyant element attached with a heavier elemental compound
that balances such as carbon which can be linked in millions of compounds.
In numbers, you could have every concievable element in balance. Unlocking
these cubes may be as simple as electrolysis and distillation seperation.
A balanced compound could be used for structural engineering including
aeroflight. An aircraft with neutral bouyancy and electromagnetic propulsion
would be space age. |
Periodic Cubes:
I have envisioned compact lightweight cubes. The construction of these cubes
is a mystery to me, but I suspect larger cubes could be made of smaller cubes
or layers of some configuration. It would not matter if these 'cubes' are balls
or whatever. The main point here is that it may be possible to have every element
ready to be unlocked and used for any needed purpose.
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Limiting Reactants:
Any reaction has limiting factors. To be certain of controlled reactions,
you will always have an excess in 'waste' or by product either in material
or heat. |
States of Matter:
There are three standard and classical states of matter. These are liquid,
gas, and solid. Liquid can be infused with gases through atmosphere pressure
or any applied pressure. Colloids and particles of any mineral and element
may be present in a liquid solution. Seawater and freshwater is infused
with atmospheric gases and is layered. I discuss oceanography under a
seperate section. The atmosphere contains many known gases if not all
gases to some degree however small or large - nitrogen and oxygen being
the most plentiful. Free hydrogen is combustible with a catalyst, but
is the most plentiful element in our known universe. All elements are
combustible depending on circumstances. Solids are the most stable forms
of matter until either unlocked or decayed. |
Extraordinary Matter:
Matter can be forced into extraordinary states. Plasma and ionic gases
may be one form. Super atoms in resonance is another state. Super atoms
are technically polar resonant matter of the same element. This may require
super cooling. Atoms can be stabilized with lasers as well. Depending
on the circumstances and simulation or study, matter may be considered
as fluid dynamics. A solid with a mohrs hardness of a diamond can be molecularly
deformed given heat and pressure. Carbon has a four phase diagram including
the diamond phase. The phase diagrams of matter illustrate the equilibrium
points based on heat, time, and pressure. |
Temperature:
Temperature can be controlled through exchange mechanisms with an understanding
of the laws of entropy. The laws of entropy are more stable in solids
and more evident and often easier to study. Laws of entropy in gases or
fluids are often expedited depending on the gases, liquids, solids, and
containers or systems. |
Electronegativity:
The periodic table can be represented by an electronegativity chart or
diagram. It can be represented by radii of each element. Carbon 12.01
is the standard of measure for mass. Why the .01? The trailing numbers
are because of averages when considering isotopes. |
Electrolysis:
It may be possible to unlock the chemical cubes using electrolysis which
means every element could possibly be unleashed in a systematic way. The
capture and containment of these elements could be accomplished several
ways. |
Carbon:
Not only is carbon 12.01 a standard along with hydrogen, it can be linked
in millions of compounds. Carbon's most natural form of 12.01 is the standard
benchmark mass and hydrogen is a benchmark mass of a bare proton. I do
elaborate on the other elements throughout this website, but here I will
focus on carbon. Configurations called fullerenes hava been achieved in
c60, c70, and other forms. We have also achieved electrically conductive
tubes and strands with properties that exceed most steel on many fronts
including strength, shear, tear, elasticity, weight, etc. The ability
to achieve so many variations is why I discuss nanotechnology and material
sciences throughout this website. Following the chemical cubes idea that
I previously propose, I furthermore propose configurations that include
lighter than air elements in strong bonds and materials that could possibly
be neutral in buoyancy. You could literally have personal JEDI levitation
aircraft, general aircraft, and "airships". Add a toroidal effect
energy generator to your personal craft and you could have high speed
propulsion as well. |
Summary:
I summarize this page with neutral bouyancy materials and chemical cubes.
The chemical cubes can be constructed to contain nearly all elements that
would be ready and available to be unlocked through fractional distillation
and/or electrolysis. At the least, you could have some fundamental raw
elements that could be synthesized into the rest of the elements. The
construction materials could be formed like a foam, but instead, have
a neutral bouyancy and be more durable. This foam could be rigid and machinable
or initially formed. The above cubes are neodimium polar magnets. If you
understand the forces of the magnets (discretized quanta), you could use
these to model the various constructs and arrangements at the atomic and
molecular levels. The above are color coded which can represent various
elements or molecules. Magnetizing your own magnets may be as simple as
applying heat and then subjecting the neodimium balls to an electomagnetic
field. You could then have translational magnets. |
Pic Group:FOLDER: chemistry
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