Energy - Ten Commandments

Preface

It is advisable to approach politicians with skepticism, as many exploit the "Green Agenda" for personal gains. Similarly, be wary of “Green” activists who, despite their intentions, often seek attention and recognition, put in spotlight by their “Admirers”. While their “Admirers” are contributing to environmental harm through their extravagant lifestyles, such as traveling to events like Davos in private jets.

Instead, focus on the fundamental principles of physics regarding energy and matter, using these as a foundation to discern what is genuine, what is true, and what is misleading in the discourse surrounding “Green Agenda” environmental issues.

You Shall - You Shall Not

Boiling Energy 13.8 billion years ago cooling and condensing into Quark Fluid

1. Energy utilized by humanity originated, came to existence, approximately 13.8 billion years ago, coinciding with the formation of the universe. Energy is Renewable in eyes of human beholders measuring it by extent of their lives.

   
   

2. Energy cannot be created or destroyed, Energy can only undergo change in its concentration dispersal in space, same amount but dispersed disordered in Universe

   
   

3. Energy is a measure of the capacity of a process to perform Useful Work

   
   
   
   

4. Only concentrated forms of energy are capable of executing Useful Work

   
   

   

5. Energy cannot be created; it can only be transformed from one form to another.

   Electrons return to the generator with diminished potential energy compared to their initial state, much like water that loses potential energy as it falls down. The generator plays a crucial role by supplying the mechanical energy necessary to pump-elevate these low-energy as rotating mechanically coil caring electrons crosses magnetic fields bringing them back to a higher energy state, enabling them to circulate through the circuit once more. Although the electrons themselves are responsible for carrying the electric charge, it is the electric field that facilitates the transfer of energy from the generator throughout the circuit. However, this electric energy is not entirely conserved; a portion is dissipated as heat due to resistive components within the circuit, highlighting the inherent inefficiencies present in electrical systems. These losses are manifestations of resistance on atomic level electrons bumping into atoms producing Heat (energy conversion), so, the total ballade preserve the entire amount of energy. Michael Faraday invented electric motor in 1821 and electric generator in 1831. Leaving aside external circuitry the internal respace losses in modern Motors and Electric Generators are fairly low. Efficiency coefficients are in range of 90% to 95%

   
   

   

   
   

   An electric generator, commonly referred to as a device that produces electric current, functions as a converter that transforms mechanical energy into electrical energy. In a similar vein, a fuel cell serves as a converter that enables the transformation of chemical energy into electrical energy. Some energy conversion processes are more complex and involve multiple stages. For instance, a nuclear power station initiates the process by converting nuclear fission energy into thermal energy. This thermal energy is then transformed into mechanical energy, which ultimately leads to the generation of electrical energy. Each stage of this conversion process is crucial for the efficient production of electricity, highlighting the intricate relationships between different forms of energy.

6. A converter can be conceptualized as a Black Box, where energy enters from the front and exits from the rear. The relationship between the energy input and the energy output is quantified by an Efficiency Coefficient, which serves as an indicator of the effectiveness of the conversion process occurring within the confines of the Black Box

   
   

   

   
   

   This coefficient is inherently limited to a maximum value of 1, signifying that the output energy cannot exceed the input energy under normal circumstances. However, if the Black Box is capable of harnessing additional energy from its surrounding environment, it may exhibit a ratio greater than 1, indicating the presence of a hidden energy input that supplements the conversion process.

   In a closed system, often referred to as a Black Box, the ratio of output to input cannot exceed one, or unity. This principle is rooted in the laws of thermodynamics, particularly the conservation of energy, which dictates that energy cannot be created or destroyed, only transformed from one form to another. Consequently, in such a system, the energy or resources that are inputted can only be converted into an equivalent amount of output, ensuring that the efficiency of the system remains at or below 100%. This limitation underscores the importance of understanding system dynamics and energy flows, as it highlights the inherent constraints that govern the performance and functionality of closed systems.

   
   

7. Energy, which drives various processes, is subject to the principle of conservation, meaning it cannot be created or destroyed, paragraph (2) above. After energy is utilized, the total amount remains constant.

   
   

   

   However, its form and distribution can change significantly. During a process, energy often becomes dispersed, resulting in a dilution effect where the same quantity of energy is spread over a larger area within the universe. This phenomenon is known as Entropy, which serves as a measure of energy dispersal and the degree of disorder within a system. Essentially, while the total energy remains unchanged, its availability for doing work diminishes as it becomes more widely distributed, leading to an increase in Entropy.

   
   

8. Energy can be stored in many peculiar ways for Future Use

   
   
   
   

9. Energy and Matter are the interrelated Entities Mater can be partially or fully converted into Energy, which is a direct demonstration of Einstein's famous equation E=mc², where mass (m) is partially or entirely converted into Energy (E).

   
   

   

   Examples; Nuclear Fission, Nuclear Rectors, Atomic Bomb, Nuclear Fusion, Nuclear Fusion Reactors tested experimentally today, Thermo-Nuclear Hydrogen Bomb . Physicists inn Europe USA and Russia understood Epical consequences of Albert Einstein's simple equation fully understood till 1935. Theoretical research begun in USA and Germany which in 1940 transformed into full scale race for development of Nuclear Weapons in Germany and USA,

   
   
   
   

   

   
   

10. Full conversion of matter into Energy requires Antimatter for full matter conversion into Energy. Total Annihilation. Largest Hadron collider in CERN can produce ~5.97 0^15 atoms of Antihydrogen over two decades (20 years). One gram of Antihydrogen contains ~ 6.022 10^23 atoms to produce 1 gram of antimatter it will take million of years. Energy invested in producing a minuscular amount of antimatter requires thousand times more energy than annihilation of antimatter tiny amount produces. So, don't expect antimatter reactors or antimatter warheads emerging soon.

    
    

11. Energy can be converted into mater which has been proved experimentally on a linear collider in USA. In 1997, at the SLAC National Accelerator Laboratory (also known as the Stanford Linear Accelerator Center), a team of physicists created particles of matter from photons (light).

    
    
    
    

    

    
    

The prospect of producing matter from energy on a large scale is unlikely to materialize even in the very distant future, as the same fundamental limitations that hinder the mass production of antimatter also apply to this process. The conversion of energy into matter, as described by Einstein's famous equation E=mc², is theoretically possible and experimentally confirmed but remains fraught with significant technical and practical challenges. Current scientific understanding indicates that the energy required to create even a small amount of matter is immense, and the efficiency of such processes is far from optimal. Additionally, the containment and stabilization of the produced matter present further obstacles, as any attempt to harness this energy-matter conversion would need to address issues related to safety, cost, and scalability. Consequently, while the idea of energy-based matter production is intriguing and holds potential for future exploration, it is essential to recognize that we are still in the early stages of understanding and developing the necessary technologies to make this a reality.

The ten commandments serve as a foundational framework for exploring various topics and ideas within the dynamic field of energy, which is a crucial element of human advancement. These principles are considered axiomatic because many are supported by experimental evidence, while others reflect a consensus among the scientific community.

The significance of having an axiomatic structure lies in its capacity to facilitate the development of a coherent framework that allows for top-down analysis, enabling the validation and exploration of concepts and ideas. This structured approach not only enhances understanding but also fosters innovation in the study of energy and its implications for progress.