Silver: Powering the Future of AI, Solar & Defense (One Metal to Rule Them All!)
Solar Subsidies 302x More Federal Subsidies Than Nuclear. Solar Subsidies 136x More Federal Subsidies Than Oil. Silver Leveraged to the Max.
AI - AI consumes mega amounts of energy.
A single training a single model can use more electricity than 100 US homes consume in a year. As Google already starting moving most of their entire search business to AI, it will consume 29.3 terawatt hours per year, equivalent to the electricity consumption of Ireland. The energy consumption of AI models is influenced by factors such as the vast amount of data they are trained on, the complexity of the models, and the volume of requests made by users, leading to substantial energy usage during training and inference processes.Solar - 1 GW = 500,000 ounces of Silver. Look How much subsidy goes into Solar and knowing Solar is powered by Silver (connectivity, reflectivity, other properties that can’t be substituted)
Solar Is Getting 302 Times More In Federal Subsidies Than Nuclear. This is JUST USA
Again, Think about this FACT
Solar Is Getting 302 Times More In Federal Subsidies Than Nuclear. This is JUST USA
Uranium just ripped higher (its *primary industrial use is Nuclear Power, and these plants take forever to be approved and built, whereas Silver has over 25,000 industrial uses. So compare 1 use to 25,000 uses)
The Silver Moonshot will make Uranium's run look like Child's Play.
Just one chart to prove it ( after #9) Once we add up the aerospace and defense to this April 17, it’s our closing argument and signals BIG TROUBLE FOR SILVER INSTITUTE.
So think of Solar getting 302 More Subsidies compared to Nuclear, all while Uranium has gone an amazing bull run (Silver is next and much better)
There is much more Uranium available than Silver, which is forever in massive deficits. There have been no significant new silver deposits recently.
NOTE: Uranium is considered relatively plentiful in the Earth's crust due to its common occurrence in various rock types and geological settings. The ease of recovery, diverse deposit types, and global distribution contribute to the assessment that uranium resources are more than sufficient to meet current and future demands for nuclear energy production.
Also, Solar is getting 135.76 More Subsidies than Oil and Gas (Meanwhile, Oil will Rip Higher as BRICS controls the majority of oil-producing nations)
Talk about Leverage; With Silver the World's Most undervalued commodity (smashed down by bankers and The Silver Institute)
Pile into Silver for AI, Solar, Satellites, Aerospace, and Military Use (How to Profit off War; a better and more morally responsible way to invest than War profiteers like Lockheed because Silver is also the metal of Peace)
We are rapidly approaching the milestone of 1 terawatt (TW) of solar capacity worldwide.
Snapshot of 3 countries two of which don’t crack the World’s Top 7 Solar users.
Solar Energy Developments in India, Dubai, and Saudi Arabia
India
India, the world's fifth-largest economy, is making significant strides in solar energy. The country aims to achieve net-zero emissions by 2070 and meet 50% of its electricity requirements from renewable sources. To reach its ambitious targets, India needs to add 40 gigawatts of wind and solar capacity annually to achieve a 450-gigawatt target by 2030. This requires an annual investment of $35 billion. Solar and wind energy are becoming increasingly competitive in India, with solar and wind technologies expected to constitute 80% of new capacity additions. The country's renewable energy market is attractive due to well-defined policies and outlined targets.
Dubai
Dubai is also embracing solar power as part of its clean energy commitments. The Emirates Water and Electricity Company (Ewec) anticipates needing 16 gigawatts of solar energy by 2035 to meet Abu Dhabi's clean energy goals. The Dubai Electricity and Water Authority has selected Masdar for the sixth phase of a solar project, aiming to reach a total capacity of 5 gigawatts by 2026. Additionally, Saudi Arabia secured financing for the Shuaibah solar farm, a massive 2.6 gigawatt project.
Saudi Arabia
Saudi Arabia has set ambitious goals in solar energy development. The kingdom aims to install 27.5 gigawatts of solar capacity by 2030 as part of its efforts to reduce carbon emissions. By leveraging its unique geographical and climatic characteristics, Saudi Arabia is creating an economically favorable environment for renewable energy sources. The country has been successful in achieving some of the world's lowest prices for renewable energy projects, making its renewable market more competitive. ACWA Power has achieved full commercial operation for the Sudair solar project, a significant step towards enhancing the kingdom's renewable energy capacity
Gigawatt Solar Farms
India is targeting a total of 450 gigawatts of wind and solar capacity by 2030, requiring substantial annual investments.
Dubai plans to reach a total capacity of 5 gigawatts by 2026 through various phases of its solar projects.
Saudi Arabia aims to install 27.5 gigawatts of solar capacity by 2030 as part of its renewable energy development efforts.
Satellites
The future of GPS, Internet of Things (IoT), WiFi, and surveillance is poised for significant advancements driven by top manufacturers like China Mobile, Huawei, SpaceX, NASA, China, Russia, and India. Elon Musk's ambitious plans with SpaceX involve launching 42,000 satellites approved by the FCC to expand global internet coverage.
These developments will revolutionize GPS accuracy, enabling precise location tracking for various applications. IoT devices will benefit from enhanced connectivity through improved WiFi standards like WiFi 7, offering faster speeds and lower latency. Surveillance systems will leverage satellite technology from these manufacturers to enhance monitoring capabilities globally, ensuring efficient data transmission and communication. This collaborative effort among top players is set to reshape the landscape of connectivity and surveillance in the coming years.
This is just satellites:
Now add rockets, missiles, torpedoes, submarines, fighter jets - Report out in Global Silver Report (Released the Day after the Sinister Scammy World Silver Survey)
Now just think of Civilian Aircraft, United Airlines, Delta, American Airlines, Southwest Airlines, and the Rest of the World
Silver is a highly versatile material known for its unique properties that make it suitable for various applications such as buttons, antimicrobial coatings, electrical connections, and silver-zinc batteries used in aircraft. Here is a detailed explanation of why silver is preferred for these purposes:
Antimicrobial Properties:
Silver has potent antimicrobial properties that inhibit the growth of bacteria, fungi, and viruses. It disrupts the cellular structure of microorganisms, preventing their reproduction and survival.
Silver's antimicrobial efficacy remains intact even after multiple uses or exposure to environmental conditions, making it a reliable choice for long-term antimicrobial protection. Dozens of Companies in US have their entire business model based on silver coatings for aviation purposes.
Unlike some chemical antimicrobials, silver is non-toxic to humans in appropriate concentrations, making it the best option for aviation and aircraft where hygiene is crucial.
Electrical Connections and Connectivity:
Silver possesses the highest electrical conductivity among metals, allowing efficient flow of electricity with minimal resistance. This property makes it ideal for electrical connections where low resistance and high conductivity are essential.
Low Oxidation Rate: Silver has a low tendency to oxidize, ensuring stable electrical connections over time without significant degradation in performance.
Wear Resistance: When alloyed with metals like copper or palladium, silver exhibits improved hardness and wear resistance, enhancing its durability in electrical contacts subjected to frequent use
Silver-Zinc Batteries for Aircraft:
High Energy Density: Silver-zinc batteries offer a high energy-to-weight ratio, providing substantial power output relative to their weight. This characteristic is crucial for aircraft applications where weight efficiency is paramount.
Reliability: These batteries have a relatively constant voltage output throughout their discharge cycle, ensuring consistent power delivery.
Shock and Vibration Resistance: Silver-zinc batteries can withstand mechanical stresses such as shock and vibration commonly experienced in aircraft operations.
Long Shelf Life: They have a long shelf life without significant self-discharge rates, making them reliable backup power sources for critical aircraft systems.
Coating and Plating:
Anticorrosive Properties: Silver coatings provide excellent corrosion resistance, protecting underlying materials from degradation due to environmental factors.
Enhanced Aesthetics: Silver plating enhances the appearance of surfaces by imparting a lustrous finish that is visually appealing.
Conductivity Enhancement: In electronic applications, silver coatings improve electrical conductivity on surfaces like connectors or circuit boards.
Citations:
[1] https://www.forbes.com/sites/sap/2023/12/20/why-does-ai-consume-so-much-energy/?sh=6f65acb02ede
[2] https://www.wsj.com/tech/ai/ai-energy-consumption-fc79d94f
[3] https://www.iea.org/commentaries/why-ai-and-energy-are-the-new-power-couple
[4] https://spectrum.ieee.org/ai-energy-consumption
[5] https://www.newscientist.com/article/2396064-should-we-be-worried-about-ais-growing-energy-use/
Citations:
[1] https://www.pv-magazine.com/2023/03/22/saudi-arabias-solar-market/
[2] https://www.thenationalnews.com/climate/road-to-net-zero/2023/08/28/how-solar-power-is-heralding-the-global-energy-revolution/
[3] https://www.theatlantic.com/magazine/archive/2015/07/saudis-solar-energy/395315/
[4] https://solarquarter.com/2024/01/05/acwa-power-attains-full-commercial-operation-for-1-5-gw-sudair-solar-project-in-saudi-arabia/
[5] https://www.thenationalnews.com/business/energy/2024/01/12/why-the-renewable-energy-agreement-between-uae-and-india-is-a-win-for-all/
Citations:
[1] https://wca.org/the-future-of-telecom-ai-satellite-5g-and-enhanced-wifi-in-2024/
[2] https://www.forbes.com/sites/forbestechcouncil/2024/02/29/unveiling-the-future-of-connectivity-what-you-need-to-know-about-wi-fi-7/?sh=58d578982b05
[3] https://www.rsinc.com/future-of-satellite-internet-a-look-ahead.php
[4] https://explore.quantumfiber.com/wifi-7-top-tech-trends/
[5] https://www.hamilton-barnes.com/resources/blog/what-is-the-future-of-satellite-internet-/
*The main industrial use of uranium is for the production of electricity in nuclear power plants. Uranium is primarily utilized as fuel for nuclear reactors that generate electricity. This process involves converting uranium into a gaseous form known as Uranium dioxide, which is used to produce thermal power through steam generation. The steam then powers turbines that produce electrical energy for residential and commercial use. Additionally, uranium has other industrial applications such as in medicine, agriculture, building materials, nuclear weapons, light bulbs, dyes production, steel manufacturing, and batteries due to its unique properties and versatility