Synthetic Gold Synthesis with Dr Sydney Nicola Bennett using Mercury-178
SYNTHETIC DIAMONDS. SURE. GOLD THOUGH
Synthetic Gold Synthesis with Dr Sydney Nicola Bennett using Mercury-178
GOLD PATENT PROCESSING BY DR SYDNEY N BENNETT
Owned by S.B.G - CIG from the vast professional profile of Dr Sydney Nicola Bennett
Mercury-178 is approach in converting
Not with Fusion or Fission dreams & reading active efforts
Mercury-197 to Decomposition in the Radioactive Waste decay cycle
In Point A - B stages then sealed rooms within & hazmat suit efforts in transferring such
Wind-Tunnel Piston-Punch Stationary Zero Emisison & Silo-Farming efforts to achieve
Synthetic Gold Synthesis with Dr Sydney Nicola Bennett using Mercury-178
BIG DOLLAR YEILDS
Bombarding the isotope mercury-198 with neutrons leads to the creation of the radioactive isotope mercury-197 – which subsequently decays to the only stable isotope of gold
Now sourcing mercury-198 in vast vats after guaranteeing a small scale model in different prototype forms works over a 3-9 month trial then it's mass production for stockpiles of commodity while voiding demand & value
Voiding public access to full process as to retain monopoly agaisnt natural mining finds
A Molar Mass of Mercury 178 Liquid before transformation to Gold Mass Solid
The molar mass of mercury, which is approximately 200.59 g/mol. This means that one mole of mercury has a mass of about 200.59 grams. The isotope mentioned, 178Hg, has a half-life of 269 ms.
Key points:
• Molar mass of mercury: 200.59 g/mol
• Isotope 178Hg: half-life of 269 ms
RADIOACTIVE WASTE MATERIAL DECAY
Protections in sectioned off rooms for the Point A - B process then testing before physical handling to void hazards
Mercury-178 is an isotope of the element mercury. It has 80 protons and 98 neutrons, making its mass number 178. Mercury-178 is an unstable isotope, meaning it is radioactive and decays over time. Specifically, it is an unstable isotope of mercury that decays or disintegrates emitting radiation, according to the National Institutes of Health (NIH).
Here's a more detailed breakdown:
• Atomic Number:
Mercury has an atomic number of 80, meaning each mercury atom has 80 protons.
• Mass Number:
The mass number of an isotope is the total number of protons and neutrons in its nucleus. For mercury-178, this is 178.
• Isotope:
Isotopes are variations of an element that have the same number of protons but different numbers of neutrons. Mercury-178 is one such variation of mercury.
• Radioactivity:
Mercury-178 is not stable. It is radioactive, meaning it will decay into other, more stable, elements by emitting radiation. The specific decay pathway and daughter products of mercury-178 are detailed on periodictable.com.
• Other Mercury Isotopes:
There are many other isotopes of mercury, some of which are also radioactive. For example, mercury isotopes with mass numbers ranging from 185-195, 197, 203, 205, and 206 are also radioactive.
• Cost Factors:
The price of mercury is influenced by factors such as:
• Purity: Higher purity mercury (e.g., lab grade) will be more expensive.
• Quantity: Larger quantities are typically cheaper per unit.
• Form: Red mercury, if it exists, would be significantly more expensive than elemental mercury.
• Mercury's Value:
Despite being a relatively rare element, mercury is not considered a precious metal and its value is not high, according to Specialty Metals.
• Toxicity:
Mercury is a toxic substance, and its handling requires safety precautions.
REFERENCE & DREAMS
Another approach potentially
US Startup Claims It Can Make Gold Using Fusion Technology
The alchemist's dream is to make gold from common metals, but can this be done?
The physics needed to explain how to change one element into another is well understood and has been used for decades in accelerators and colliders, which smash subatomic particles together.
The most notable present-day example is the Large Hadron Collider at Cern, based in Geneva. But the costs of making gold this way are vast, and the quantities generated are minuscule.
For example, Cern's Alice experiment estimated it produced only 29 picogrammes of gold while operating over four years. At that rate, it would take hundreds of times the lifetime of the universe to make a troy ounce of gold.
The Californian startup company Marathon Fusion has proposed a very different approach: to use the radioactivity from neutron particles in a nuclear fusion reactor to transform one form of mercury into another, called mercury-197.
This then decays into a stable form of gold: gold-197. This process of particle decay is where one subatomic particle spontaneously transforms into two or more lighter particles.
The team from Marathon Fusion estimates that a fusion power plant could produce several tonnes of gold per gigawatt of thermal power in a single year of operation.
Bombarding the isotope mercury-198 with neutrons leads to the creation of the radioactive isotope mercury-197 – which subsequently decays to the only stable isotope of gold.
The key is to have energetic enough neutrons to trigger the mercury decay sequence. If this could be made to work, then it is an interesting idea. But whether it could make a tidy profit is another matter.
To do this, a large neutron flux (a measure of the intensity of neutron radiation) is required. This can be generated using a standard fuel mix for fusion reactors, deuterium and tritium (both of which are forms of hydrogen), to create energy in the plasma of a fusion reactor.
Neutrons penetrate material easily and scatter off the nuclei (cores) in atoms, slowing down as they do so. Neutrons with energies above 6 million electron volts are required to transform mercury-198 into gold.
To come up with its estimates, Marathon Fusion has been using a fusion reactor's "digital twin" – a computer model that simulates the physics of the fusion reaction and the resulting radioactive processes. A limitation of this type of work is that the digital twin needs to be validated against a real commercial fusion reactor – but none currently exist.
There are many challenges to overcome before scientists can realise a commercial fusion reactor. These include the creation of new materials for its construction, and understanding the science required both to operate the system to continuously extract power, and to develop AI systems that can help keep the plasma fusion reaction running.
Even some of the most advanced fusion experiments, such as the UK-based JET (Joint European Torus) project, could only generate relatively small amounts of energy.
However, researchers in the UK have devised a new way to shrink the size of fusion reactors by changing the way the exhaust plasma is controlled. A prototype of this novel fusion reactor concept, called Spherical Tokomak for Energy Production (Step), aims to be ready by 2040.
Radioactive waste
On paper, it is possible to make gold from mercury in a fusion reactor. However, until commercial fusion reactors are realised, the assumptions used by Marathon Fusion in its digital twin studies will remain untested.
Furthermore, any gold produced at a fusion reactor would initially be radioactive, meaning it would be classified as radioactive waste – and thus need to be managed for quite some time after production.
As nuclear and particle physicists know well, it is very easy to forget to include important physical effects and critical details when creating a digital twin of an experiment.
But while the processing of that waste into usable forms of pure gold would be a further challenge to address, it will not necessarily deter long-term investors.
For now, this remains an attractive proposition on paper – but we're still some way off from kickstarting a new kind of Californian gold rush.
Adrian Bevan, Professor of Physics, School of Physical and Chemical Sciences, Queen Mary University of London
Reference
https://www.sciencealert.com/us-startup-claims-it-can-make-gold-using-fusion-technology
LOW COST ENERGY DESIGNS
Testing Dr Sydney Nicola Bennett's Wind-Tunnel Piston-Punch concepts in different forms for Stationary & Motion Energy
Digital + Physical Tests
All Part - Components then Wear - Tear
The average 5-10 & 10-100+ year replacement on parts then lower cost models like eith the majority of Dr Sydney Nicola Bennett's concepts or inventions
& innovations
Not a smartest thinker in the tool shed. Light bulb not the brightest or at least at times lacking shine (understand) if you can understand versus older or more advanced brighter bulbs. A shrink would understand
1.295 Tn S.B.G - Retirement Fund K.3 Investment
310 Bn - Personal Wealth of Dr Sydney N Bennett
We not only have on hand we manufacture commodities as a background then background low risk managed investments separate from front end managed fluctuating private + punlic market
Sydney Bennett Group
https://2026sydpersonal.blogspot.com/2025/07/sydney-bennett-group.html
You can read the 4-5 Month Trial descriptions of the H.I.3 Case. NB-OT Labs VS P.K-K.T Labs
You can review connected evidence
Do not talk to Dr Sydney Nicola Bennett about anything unless it pertains to S.B.G or CIG. No time in schedule & only with appointment
UNDERSTAND BACK VERSUS FRONT & MANAGED
Quarterly commodity & public + private market gains include managed efforts with fast-grown or transitional processed material including Mercury to Gold adding to stockpiles
S.B.G & CIG will be selling low cost Zero-Emissions Energy with growing efforts between 2026-2030 & on-going as a compliment to international investments portfolios to stimulate other areas of a fair economic effort
200 Quadtrillion BTU or less in 2 weeks or less if not constant 24/7
https://citybennettprivate.blogspot.com/2025/07/cm-stationary-shipping-container.html
GOLD VALUE - US TRADE STANDARD
Supply + saturation with commodities does not void value in trade in some areas while some trade values fluctuate with commodities like gold, which often fluctuate in smaller efforts creating a standard backing low risk effort to keep money where you can liquidate or turn back into with an inflationary plan separate from dividends & a list of loerr to higher risk opportunities including "value based" returns
The price of gold is currently fluctuating around $3,362.51 USD per ounce, according to Trading Economics. JM Bullion indicates a slightly different price of $3,293.14 per ounce, with a $10.40 increase. These prices can vary based on the source and the specific type of gold (e.g., bullion, futures).
S.B.G of CIG retains in portfolio just over 148 million ounces of gold connected other other investments at poerr to higher risk managed efforts between a growing advsnced international portfolio with taxation strategy
To determine how many ounces of gold are in 500 billion, we need to know the value of gold per ounce. Based on the current spot price, one ounce of gold is worth approximately $3,362.94 according to BullionVault. Therefore, 500 billion dollars worth of gold would be roughly 148,682,779 ounces (500,000,000,000 / 3,362.94).
Here's the breakdown:
• Gold price per ounce: $3,362.94 according to BullionVault
• Total value: $500,000,000,000
• Ounces of gold: $500,000,000,000 / $3,362.94 = 148,682,779 ounces (approximately)
Gold is one of other commodities. Separate from lower to higher risk managed efforts then the in-house projects of Shield - C/M of M.D.E & Sad Planet with speciifc brands & sub-brnads separate from other dcternal investments as planned for the 2026-2030 Onward growth plan internationally
THE 50 - 1273 RENDEZVOUS RISK
Suspected connected Widows U underworld dollars filtered through Retail in cash should mot be but if then we did not agree to in investigations if it occurs. 50 - 1273 & supply at over $18 Million per quarter filtered & taxation strategies as we are focused on legitimate efforts yet people do things
CIG
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