The Evernomics examines the timeless behavior of consumers in an environment characterized by an abundance of resources and a finite level of demand.


The field of Evernomics focuses on understanding how consumers make decisions in a hypothetical scenario where resources are abundant but demand is limited. This study aims to identify consistent patterns or principles of consumer behavior that persist regardless of changes in the market or external conditions. Additionally, the Evernomics focuses on understanding how consumers allocate resources in a scenario where the available resources are more than the demand for the resources.

Economics posits that resources are limited and human behavior is driven by self-interest and a desire for more. In contrast, Evernomics explores the possibility of human behavior in a hypothetical scenario where resources are abundant, and individuals are not constrained by traditional notions of scarcity and self-interest.

Economics is a discipline that often views human behavior and decision-making through a skeptical lens, while Evernomics is a hypothetical field that explores the potential for human behavior and decision-making in a more optimistic and visionary context.

Humans, as a part of the natural world, are subject to the laws and constraints of nature. However, Humans are distinct from other animals in that they possess the ability to create new rules and systems through the use of reason and technology, thus altering their relationship to the natural world.

As the world becomes increasingly complex, the process of breaking down and understanding this complexity can aid in guiding human existence. This often results in decentralization, where individuals and groups operate independently and create their own rules, rather than adhering to a set of universal principles.

The human capacity to detach ourselves from immediate reality and consider abstract concepts is a strength that enables us to transcend the natural world. This ability allows us to manipulate and shape the world around us, creating new and complex structures and systems.

Humans, as players in this game, are not content with their limited existence and strive to transcend their current state and achieve a sense of permanence and immortality. The desire for eternal existence is considered to be one of the fundamental human instincts.

Fate or destiny is determined by the external factors of the environment. To achieve a sense of immortality, it is necessary to continually alter and shape our surroundings. Evernomics is a hypothetical field that could provide guidance to individuals who aspire to transcend the limitations of the natural world and pursue eternal existence.

Over time, there are shifts and changes that occur within society, which can be understood as cycles. Within these cycles, there are two distinct sub-cycles (SVET Cycles) that occur. Humans are able to extend their existence through the creation of constructs, such as states, organizations, and companies, which have a longer lifespan than individual human lives.

There are sixteen distinct archetypal human behavioral patterns, referred to as "Deeps", that are believed to exist. These patterns are thought to be influenced and shaped by the environment in different ways. Understanding how the environment impacts these behavioral patterns allows for the creation of Intellectual Contracts that have the potential to be eternal.

Evernomics examines the behavior of consumers in an environment characterized by an abundance of resources and a finite level of demand. In such a scenario, the traditional supply and demand formulas may not directly apply, as the fundamental assumptions of scarcity and limited resources are altered. However, we can still provide a conceptual framework for understanding the behavior of consumers in Evernomics. Here's an adaptation of the supply and demand concepts:


Consumer Demand:

In Evernomics, consumer demand might be represented by a formula that considers consumers' preferences, utility, and their willingness to consume different goods or services. This formula could take the following form:

  • Quantity demanded: Qd = f(U, P, I, X, ...), where U represents utility, P represents price, I represents income, X represents other relevant factors, and f() denotes a functional relationship.

  • Resource Availability: Instead of focusing on traditional supply, Evernomics would consider resource availability, which assumes an abundance of resources. The availability of resources might be represented by a parameter that reflects the overall capacity or availability of goods and services in the environment.

    Equilibrium: In Evernomics, equilibrium could be conceptualized as a state where the available resources are efficiently allocated to satisfy consumers' preferences and maximize their utility. The equilibrium condition could be described as:

  • Quantity demanded = Quantity available, which ensures that the resources are utilized to meet consumers' demands without scarcity concerns.
  • In Evernomics, where the environment is characterized by an abundance of resources and a finite level of demand, the traditional elasticity formulas may need to be adjusted to reflect the unique characteristics of the system. Here's a conceptual adaptation of price elasticity of demand and income elasticity of demand in Evernomics:


    Price Elasticity of Demand:

    Price elasticity of demand measures the responsiveness of quantity demanded to changes in price. In Evernomics, since resources are abundant, price changes may not have the same impact as in traditional economics. However, we can still consider a modified concept of price elasticity. The formula could be:

  • Price Elasticity of Demand: Ep = (%ΔQd / %ΔP) * (P / Qd)

  • Here, %ΔQd represents the percentage change in quantity demanded, %ΔP represents the percentage change in price, P represents the price, and Qd represents the quantity demanded. The specific functional relationship and values of elasticity would need to be determined based on the underlying assumptions and modeling in Evernomics.

    Income elasticity of demand measures the responsiveness of quantity demanded to changes in income. In Evernomics, where resources are abundant and demand is finite, the concept of income elasticity may need to be redefined. It could be seen as a measure of how consumers' preferences and consumption patterns change with respect to their income. The formula could be:

  • Income Elasticity of Demand: Ei = (%ΔQd / %ΔI) * (I / Qd)

  • Here, %ΔQd represents the percentage change in quantity demanded, %ΔI represents the percentage change in income, I represents the income, and Qd represents the quantity demanded. The specific relationship and values of income elasticity would depend on the assumptions and models used in Evernomics.

    In Evernomics, which explores the timeless behavior of consumers in an environment characterized by abundant resources and finite demand, the traditional production and cost formulas need to be adapted to reflect the unique characteristics of the system. Here's a conceptual adaptation of production and cost formulas in Evernomics:

    Total Production:

    In Evernomics, where resources are abundant, total production may be determined by factors such as consumer demand, resource availability, and efficiency. The formula for total production could be represented as:

  • Total Production: TP = f(Qd, R, E, ...), where TP represents total production, Qd represents consumer demand, R represents resource availability, E represents efficiency, and f() denotes a functional relationship.
  • Total Cost:

    Total cost in Evernomics may involve factors beyond traditional inputs and expenses. It could encompass the utilization of resources, efficiency, and other relevant factors. The formula for total cost could be:

  • Total Cost: TC = g(Qd, R, E, ...), where TC represents total cost, Qd represents consumer demand, R represents resource availability, E represents efficiency, and g() denotes a functional relationship.
  • Average Total Cost:The average total cost in Evernomics could be derived as the total cost divided by the quantity produced. The formula for average total cost could be:

  • Average Total Cost: ATC = TC / TP, where ATC represents average total cost, TC represents total cost, and TP represents total production.
  • Marginal Cost: Marginal cost in Evernomics could be represented as the change in total cost resulting from producing an additional unit of output. The formula for marginal cost could be:

  • Marginal Cost: MC = ΔTC / ΔTP, where MC represents marginal cost, ΔTC represents the change in total cost, and ΔTP represents the change in total production.
  • In Evernomics, which explores the timeless behavior of consumers in an environment characterized by abundant resources and finite demand, utility and consumer behavior concepts need to be adapted to reflect the unique characteristics of the system. Here's a conceptual adaptation of utility and consumer behavior formulas in Evernomics:

    Utility Function: In Evernomics, the utility function represents consumers' preferences and satisfaction derived from consuming different goods or services. Since resources are abundant, the utility function might focus on factors beyond scarcity. The formula for the utility function could be represented as:

  • Utility Function: U = f(G1, G2, ..., Gn), where U represents utility, G1, G2, ..., Gn represent different goods or services, and f() denotes a functional relationship.
  • Marginal Utility: Marginal utility measures the additional utility derived from consuming one more unit of a good or service. In Evernomics, where resources are abundant, marginal utility might be adjusted to reflect the changing preferences and diminishing returns to consumption. The formula for marginal utility could be represented as:

  • Marginal Utility: MU = ΔU / ΔG, where MU represents marginal utility, ΔU represents the change in utility, and ΔG represents the change in the quantity of the consumed good or service.
  • In Evernomics, which examines the timeless behavior of consumers in an environment characterized by abundant resources and finite demand, the traditional growth and interest formulas need to be adjusted to reflect the unique characteristics of the system. Here's a conceptual adaptation of growth and interest formulas in Evernomics:

    Compound Interest: Compound interest is a concept that might need to be redefined in Evernomics due to the altered assumptions of resource abundance and finite demand. Instead of focusing on financial capital growth, compound interest in Evernomics could represent the growth or accumulation of value, satisfaction, or well-being. The formula for compound interest in Evernomics could be conceptualized as:

  • Compound Interest: CI = V0 * (1 + r/n)^(n*t)
  • Here, CI represents the compound interest or accumulated value, V0 represents the initial value or starting point, r represents a growth rate or a factor influencing the increase, n represents the number of compounding periods, and t represents the time.

    Present Value: Present value represents the current worth of future streams of value or income. In Evernomics, where resource abundance and finite demand are assumed, present value might involve assessing the value or satisfaction derived from future consumption opportunities. The formula for present value in Evernomics could be conceptualized as:

  • Present Value: PV = C / (1 + r)^t
  • Here, PV represents the present value, C represents the future value or stream of value, r represents a discount rate reflecting the opportunity cost or preference for immediate consumption, and t represents the time.

    In Evernomics, which examines the timeless behavior of consumers in an environment characterized by abundant resources and finite demand, the traditional national income accounting formulas can be adapted to reflect the unique characteristics of the system. Here's a conceptual adaptation of national income accounting formulas in Evernomics:

    GDP (Expenditure Approach):Gross Domestic Product (GDP) represents the total value of goods and services produced within a country's borders. In Evernomics, where resources are abundant and demand is finite, the expenditure approach to calculating GDP could be adjusted. It might reflect the value of goods and services consumed or utilized by consumers in maximizing their well-being. The formula for GDP using the expenditure approach in Evernomics could be conceptualized as:

  • GDP (Expenditure Approach): GDP = C + I + G + (X - M)
  • Here, GDP represents the total value of goods and services produced, C represents consumption, I represents investment, G represents government spending, and (X - M) represents net exports (exports minus imports).

    GDP (Income Approach): The income approach to calculating GDP focuses on the income earned in the production process. In Evernomics, where resource abundance and finite demand are assumed, the income approach could be adjusted to reflect the income generated from providing goods and services to fulfill consumers' preferences. The formula for GDP using the income approach in Evernomics could be conceptualized as:

  • GDP (Income Approach): GDP = Wages + Rents + Interest + Profits
  • Here, GDP represents the total value of goods and services produced, and Wages, Rents, Interest, and Profits represent the respective components of income earned in the production process.

    In Evernomics, which examines the timeless behavior of consumers in an environment characterized by abundant resources and finite demand, the traditional game theory formulas can be adapted to reflect the unique characteristics of the system. Here's a conceptual adaptation of game theory formulas in Evernomics:

    Nash Equilibrium: Nash equilibrium represents a state in a game where no player has an incentive to unilaterally deviate from their chosen strategy. In Evernomics, where resource abundance and finite demand are assumed, Nash equilibrium could be redefined in terms of maximizing individual well-being or satisfaction. The formula for Nash equilibrium in Evernomics could be conceptualized as a state where consumers maximize their well-being given the abundance of resources and the finite level of demand.

    Prisoner's Dilemma: The Prisoner's Dilemma is a classic game theory scenario that illustrates the tension between individual and collective interests. In Evernomics, where resource abundance and finite demand are assumed, the Prisoner's Dilemma could be adjusted to reflect the decision-making process of consumers in maximizing their own well-being while considering the overall well-being of the community. The specific formulas would depend on the assumptions and modeling of Evernomics, incorporating factors such as consumers' preferences, resource utilization, and the interplay between individual and collective well-being.


    No Limits

    Advances in technology and exploration, such as interplanetary travel, asteroid mining, colonization of inner planets, alternative energy sources, automation, and digitization of assets, have the potential to liberate humans from traditional economic constraints related to resources and time.

    Be Eternal

    The use of unchangeable Intellectual Contracts stored on immutable ledgers, which are protected at various locations throughout the solar system, enables the management of capital in a flexible and adaptable manner, taking into account future events and desired outcomes.


    Change the History

    Evernomics is a hypothetical field that examines the potential for human civilization to transcend traditional economic constraints of time. It posits that by understanding and shaping the trajectory of human civilization on a limitless time-scale, history can become a valuable asset and be integrated into the cosmic economy.

    Start From Yourself

    Evernomics posits that the human desire for eternal existence is the dominant historical force. It identifies four eternal human values: Space, Vitality, Existence and Time.

    <

    Space is Life

    It departs from Earth.

    Vitality is Sole

    Its Breath is Good and Evil.

    Existence is Us

    It Flows fast and ends as Ice.

    Time is Future

    It Burns us into Entropy.


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