It's Happening! Shortage of Physical Silver in the UK
We're about to make the Call of No Physical Silver by 2025?
This post generated from a Reddit Silver Stacking Ape and Verified by other UK citizens
”A friend of mine got this marketing email yesterday from https://atkinsonsbullion.com
It means there is intense buying in the UK, and a shortage of physical silver !
Let’s Discuss Demand side of Silver. We have written over 50 posts on Silver’s use in this order:
1. Military
2. Aerospace
3. Solar (calculated before in simplest terms)
To generate 1 terawatt (TW) of solar power, approximately 500,000 ounces of silver are required per gigawatt (GW). Given that 1 TW is equal to 1,000 GW, the total silver usage for 1 TW of solar power can be calculated as follows:
To produce 1 TW of solar power, approximately 500,000,000 ounces (or 15,552 metric tons) of silver is required.
Why Silver?
Silver possesses remarkable physical properties that make it an ideal choice for aerospace, satellite, solar, and industrial applications. Here are the key characteristics of silver that make it a superior metal for these applications:
Electrical Conductivity
Silver has the highest electrical conductivity of all metals, with a conductivity rating of 63 × 10^6 Siemens per meter (S/m) at 20°C. This exceptional conductivity allows for efficient electron flow, making silver indispensable for electrical wiring, printed circuit boards, and various electronic components used in satellites, spacecraft, and solar panels.
Thermal Conductivity
With a thermal conductivity of 429 W/(m·K) at 300K, silver is an excellent heat conductor. This property enables effective heat dissipation in electronic devices, preventing overheating and ensuring optimal performance in the extreme temperature conditions of space.
Reflectivity
Silver has a high reflectivity, reflecting up to 95% of visible light. This makes it an ideal material for mirrors, reflectors, and coatings used in optical instruments, solar panels, and spacecraft components that require efficient reflection of sunlight or other radiation.
Corrosion Resistance
Silver exhibits excellent resistance to corrosion and oxidation, even in harsh environments. This durability is crucial for aerospace and satellite components that must withstand extreme conditions and prolonged exposure to various elements without degradation.
Antimicrobial Properties
Silver has natural antimicrobial properties, inhibiting the growth of bacteria, viruses, and other microorganisms. This characteristic is beneficial for maintaining sterile environments in spacecraft and preventing the spread of harmful microbes during space missions.
Atomic Properties
Atomic Number: 47
Atomic Mass: 107.87 g/mol
Melting Point: 961.78°C (1763.2°F)
Boiling Point: 2162°C (3924°F)
Density: 10.49 g/cm³ at 20°C
These atomic properties contribute to silver's unique characteristics, making it a robust and reliable material for various applications.
Malleability and Ductility
Silver is highly malleable and ductile, allowing it to be easily shaped, drawn into wires, or formed into intricate components without compromising its structural integrity. This property is advantageous for manufacturing complex aerospace and satellite parts.
With its exceptional electrical, thermal, optical, and antimicrobial properties, combined with its corrosion resistance and malleability, silver stands out as a superior metal for electronics, space, solar, and industrial applications, making it an indispensable material in modern technology
Moore’s Law - Starting in 2015 every two years space weapons, satellites, space stations, rockets, space craft (doubles)
BRICS Space Cooperation
The heads of space agencies from the BRICS nations (Brazil, Russia, India, China, and South Africa) convened in Moscow last week to discuss enhancing collaboration in space activities. The major proposals and initiatives discussed include:
Establishing a BRICS Space Council to coordinate joint efforts and projects.
Creating an international system and open data platform called the "Milky Way" to monitor space debris and ensure safety of space operations.
Collaborating on human spaceflight missions, including building modules for BRICS nations on Russia's planned Orbital Space Station and developing a joint manned space program.
Expanding the "virtual constellation" of remote sensing satellites among BRICS countries to share Earth observation data and resources.
Setting up a joint data processing and storage center for the BRICS remote sensing satellite constellation.
The meeting highlighted the BRICS nations' aim to reduce reliance on Western space technology and strengthen their independent space capabilities through increased cooperation.
Russia took a leading role in proposing several initiatives to deepen space partnerships within the BRICS group.
What’s left of Silver will then get gobbled up by AI and Robotics
Industry Outlook and Projections
The global smart robot industry is expected to reach $14.3 billion by 2023, growing at a CAGR of 23.7% from $4.9 billion in 2018.
Goldman Sachs predicts the market for humanoid robots could reach $38 billion by 2035, a significant increase from their initial $6 billion forecast just a year prior.
Total robotics funding in 2023 reached approximately $12.9 billion.
A McKinsey report estimates generative AI could add $2.6 trillion - $4.4 trillion annually to the global economy.
PwC estimates AI's contribution to global GDP could reach $15.7 trillion by 2030, a 14% boost to the global economy.
While the sources do not provide a breakdown by industry sector, they highlight the immense growth potential and investments expected in AI and robotics across various domains, including manufacturing, logistics, healthcare, elder care, households, and manual labor environments
Here are the AI and robotics use cases mentioned for various industries:
Education
AI or robotics use cases in education.
Transportation
Autonomous vehicles/self-driving cars and maritime channels.
Agriculture
AI or robotics use cases in agriculture.
Healthcare
Medical applications of robotics
Manufacturing
Industrial robots and machinery
Autonomous systems for manufacturing
Defense
AI-enabled decision processes, platforms, munitions
Autonomous systems and cognitive robotics for combat operations
AI and robotics companies targeting the defense market
Aerospace
AI and robotics applications in aerospace
Customer Service
Virtual agents/chatbots for conversing with customers
AI and robotics use cases most prominently in defense, aerospace, manufacturing, and healthcare sectors, with some mentions of transportation (autonomous vehicles) and customer service (virtual agents)
There is No Substitute for Silver
Obtain Leverage to The World’s Most Undervalued Commodity
For Silver leveraged we recommend:
1. Andean Precious Metals
2. Dolly Varden Silver
3. Kuya Silver
4. Outcrop Silver
The Best Practice to Profit from this Explosion Explained.
Silver Powered Energy.
If you believe that AI is just getting started and you want the Best Practice to Profit from this Technology Explosion then understand that it’s all Powered by Silver the Worlds Top Conductor of Electricity
When we talk about Batteries, and Electricity, (Translation,) WE MEAN SILVER
The relentless growth of data centers to power advanced AI systems and maintain 24/7 internet and mobile services is driving a booming business for manufacturers of generators and battery backup systems. These components ensure an uninterrupted power supply during outages and grid disruptions, which is crucial for AI and digital services that require continuous operation.
Power Demand Surge
AI innovations like ChatGPT require significantly more electricity compared to traditional computing tasks like web searches. For instance, a single ChatGPT query consumes 2.9 watt-hours, nearly 10 times more than a Google search. This increased power demand from AI is expected to drive a 160% increase in data center electricity consumption by 2030, representing around 19% of total data center power demand.
Emissions and Infrastructure Challenges
The anticipated rise in data center power consumption will lead to a substantial increase in carbon dioxide emissions, estimated to cost $125-140 billion in social costs by 2028. Tech companies are investing in renewable energy and emerging nuclear technologies to mitigate emissions, but the surge in demand is straining existing infrastructure.
U.S. utilities will need to invest around $50 billion in new generation capacity solely to support data centers, and incremental data center power consumption is expected to drive a significant portion of the projected 2.4% increase in U.S. power demand between 2022 and 2030.
Challenges for Utilities
Utilities are facing challenges in keeping up with the rapid growth of data centers, which can be approved and built within 18-24 months, while new transmission lines can take a decade to approve. Grid-enhancing technologies and a range of new generating sources, including solar, wind, natural gas, and small modular nuclear reactors, are being explored to meet the increasing demand.
The surge in electricity demand from AI and other electrification efforts is raising concerns about meeting emissions reduction goals, as utilities may need to rely more on fossil fuel-powered plants in the near term to ensure reliable baseload power.
