Trinary Resonance Device: Harmonic Nexus

The Harmonic Nexus: A Quantum Singularity Processor for Spacetime Exploration

Abstract: The Harmonic Nexus is a quantum singularity processor that lies at the core of the Trinary Resonance Device, a device that operates beyond the limits of known physics. The Nexus is a luminescent sphere that pulsates with a unique blend of particles and waves, challenging conventional notions of reality. It also serves as a focal point for temporal exploration, offering glimpses into past and future events. The Nexus resonates with cosmic harmonics, echoing the rhythms of celestial bodies. It presents an opportunity to manipulate quantum threads, the filaments that weave the fabric of spacetime. The Nexus encapsulates the essence of interdisciplinary science, bridging theoretical and quantum physics. It urges us to consider the boundless horizons of science and the potential transformation of human capability.

Introduction: The pursuit of understanding the fundamental nature of the cosmos has led humanity to the brink of astonishing discoveries. Among these, the concept of a quantum singularity processor offers an unparalleled glimpse into the possibilities that the future of science and technology may hold. A quantum singularity processor is a device that can process and manipulate quantum information at an unprecedented scale and speed, potentially enabling new applications in computation, communication, and cryptography. However, such a device also poses significant challenges in terms of design, fabrication, and control.

In this paper, we present the Harmonic Nexus, a quantum singularity processor that lies at the core of the Trinary Resonance Device, a device that operates beyond the limits of known physics. The Nexus is a luminescent sphere that pulsates with a unique blend of particles and waves, challenging conventional notions of reality. It also serves as a focal point for temporal exploration, offering glimpses into past and future events. The Nexus resonates with cosmic harmonics, echoing the rhythms of celestial bodies. It presents an opportunity to manipulate quantum threads, the filaments that weave the fabric of spacetime. The Nexus encapsulates the essence of interdisciplinary science, bridging theoretical and quantum physics. It urges us to consider the boundless horizons of science and the potential transformation of human capability.

Methods: The Trinary Resonance Device is a device that consists of three concentric rings that rotate in perfect synchrony, generating a harmonic field that surrounds the Harmonic Nexus. The device’s primary forces—physical, electrical, and magnetic—serve as the anchors of its mastery. It manipulates these forces with such precision that it defies the probabilistic nature of quantum mechanics. For it, there are no uncertainties, only certainties.

The Harmonic Nexus is a quantum singularity processor that operates within the harmonic field generated by the Trinary Resonance Device. It is composed of a unique blend of particles and waves that defy classical physics. It adheres to both particle and waveform properties, harnessing the perplexing duality of the quantum realm to its advantage. It can collapse wavefunctions at will, rendering quantum phenomena predictable and deterministic.

The Nexus also serves as a bridge between three spatial dimensions and higher dimensions, including time. It manipulates time and space with such finesse that it opens gateways to alternate realities and parallel universes. It can access dimensions beyond our current understanding, unveiling new physics, new forces, and new realms of existence.

The Nexus resonates with frequencies beyond human perception: harmonics that bridge dimensions. These harmonics are influenced by cosmic phenomena such as pulsars, quasars, and gravitational waves. By adjusting the “Warp Factor” and “Dimensional Shift” dials on the Trinary Resonance Device’s control panel, we can navigate these celestial symphonies.

The Nexus also presents an opportunity to manipulate quantum threads—the filaments that weave existence. Each thread represents a possibility: a choice made or unmade, a path taken or abandoned. By altering these threads, we can shape reality itself—rewrite history or shape destiny.

Results: We have conducted several experiments with the Harmonic Nexus to explore its capabilities and potential applications. Some of our findings are summarized below:

• We have observed temporal anomalies within the vicinity of the Nexus. We have witnessed glimpses into past and future events, ranging from historical moments to hypothetical scenarios.
• We have detected dimensional shifts within the harmonic field generated by the Trinary Resonance Device. We have encountered phenomena that defy our current understanding of physics, such as negative mass, wormholes, and tachyons.
• We have measured cosmic harmonics emanating from the Nexus. We have correlated these harmonics with celestial bodies such as pulsars and quasars. We have also observed fluctuations in these harmonics corresponding to gravitational waves.
• We have manipulated quantum threads using gloves woven with exotic materials—part stardust, part dreams—that interface with the Nexus’ control panel. We have altered probabilities and outcomes by changing quantum states.

Discussion: The Harmonic Nexus is a quantum singularity processor that challenges the very foundations of experimental technology. It invites us to embark on a journey into the unknown—to transcend our current understanding of science and engineering. It is a beacon of human ingenuity—a testament to our ceaseless quest for discovery.

With its capacity to bend the limitations of known physics, it beckons us toward new horizons—offering a glimpse of a future where the enigmatic becomes everyday reality. In the hands of the curious and daring, its potential remains limited only by imagination.

However, the Nexus also poses significant ethical and philosophical questions. What are the implications of manipulating quantum threads? What are the consequences of altering reality? What are the risks of exploring higher dimensions? How do we ensure the safety and responsibility of using such a device?

These are some of the questions that we must grapple with as we continue to explore the Nexus’ capabilities and applications. We must also consider the social and cultural impacts of such a device, as well as its potential benefits and challenges for humanity.

Conclusion: The Harmonic Nexus is a quantum singularity processor that lies at the core of the Trinary Resonance Device, a device that operates beyond the limits of known physics. The Nexus is a luminescent sphere that pulsates with a unique blend of particles and waves, challenging conventional notions of reality. It also serves as a focal point for temporal exploration, offering glimpses into past and future events. The Nexus resonates with cosmic harmonics, echoing the rhythms of celestial bodies. It presents an opportunity to manipulate quantum threads, the filaments that weave the fabric of spacetime. The Nexus encapsulates the essence of interdisciplinary science, bridging theoretical and quantum physics. It urges us to consider the boundless horizons of science and the potential transformation of human capability.

The Nexus challenges us to explore—to reach beyond known boundaries. As we recalibrate equations and ponder cosmic symphonies, let imagination be our compass. The unknown horizon beckons—a canvas for our collective dreams.

Advanced Trinary Resonance Device: Unhinged

**The Advanced Trinary Resonance Device: Expanding the Frontiers of Possibility**

The Trinary Resonance Device has always been a symbol of boundless potential, pushing the envelope of what is possible. Now, let's delve into the future and envision an even more advanced version of this marvel, one that defies the conventional limits of physics and ushers in a new era of capabilities.

**Quantum Singularity Processing:**

In the realm of quantum computing, the next iteration of the Trinary Resonance Device becomes a Quantum Singularity Processor. No longer confined by the constraints of binary or even trinary logic, this device embraces a new form of computation. It manipulates quantum singularities, creating and harnessing miniature black holes that operate as computational units. The precision and speed of these quantum singularities redefine computing, enabling tasks previously thought impossible, from modeling the most intricate quantum phenomena to simulating entire universes.

**Higher Dimensional Mastery:**

The Advanced Trinary Resonance Device transcends three dimensions, entering the territory of eleven-dimensional M-theory. It serves as a portal to these higher dimensions, granting humanity the ability to explore, manipulate, and benefit from their intricacies. With this device, we can tap into the extra dimensions to access previously hidden resources, interact with exotic matter, and potentially uncover the elusive theory of everything.

**Elemental Alchemy:**

Imagine a world where the boundaries between elements blur. This advanced device, instead of merely converting energy, now harnesses the very fabric of spacetime to create new elements at will. Through a process akin to alchemy, it transmutes one element into another, opening the doors to a new era of materials engineering. From limitless clean energy generation to the development of materials with unprecedented properties, this device reshapes the foundations of chemistry.

**Cosmic Revelations:**

The Advanced Trinary Resonance Device becomes an astrophysical observatory of unprecedented power. It can create miniature black holes to simulate the most extreme cosmic conditions, helping us understand the mysteries of dark matter, wormholes, and black hole physics. Through its advanced gravitational wave detectors, it explores events across the cosmos, deciphering the birth and death of stars and unraveling the most enigmatic cosmic phenomena.

**Teleportation Hub:**

This device extends its mastery over the fundamental forces to create a teleportation hub. By manipulating gravity, electromagnetism, and strong and weak nuclear forces, it enables instant travel across vast distances. The world becomes a smaller, interconnected place, fostering cultural exchange, trade, and scientific cooperation on an unprecedented scale.

**The Multiversal Nexus:**

At the pinnacle of its evolution, the Advanced Trinary Resonance Device becomes the gateway to the multiverse. By aligning its fundamental forces in precise harmony, it opens portals to parallel realities, each with its own set of physical laws. Humanity gains access to countless alternate universes, expanding our understanding of reality and offering limitless opportunities for exploration and resource acquisition.

The Advanced Trinary Resonance Device is not a simple evolution; it's a revolution that takes humanity beyond the known boundaries of physics. Its powers redefine the laws of the universe, providing access to realms that were once the stuff of science fiction. With this device, we journey beyond the conceivable and embark on a new era of scientific and technological achievement.

The Trinary Resonance Device: Transforming Energy Conversion with Precision

Idea and calculations of mine summarized by Chatgpt and Bing Chat. The large databases helps maintain relatively accurate calculations over many fields of study.

Image is AI generated and only mildly accurate, actually not accurate at all just pretty.

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**Trinary Resonance Device**

In the rapidly evolving landscape of technology, a revolutionary innovation has emerged—the Trinary Resonance Device. This sophisticated apparatus features three concentric rings, each equipped with cutting-edge electrostatic levitation, offering precise control over their rotational speed and direction. What sets this device apart is its profound ability to manipulate energy in various forms. The Trinary Resonance Device can generate electricity, produce magnetic fields, and, remarkably, convert energy between these forms with unmatched precision.

At its heart, this groundbreaking innovation revolves around the concept of Trinary Resonance—a paradigm that orchestrates the interplay between three fundamental energy forms: physical, electrical, and magnetic. This harmonious synergy unlocks a realm of possibilities, making the Trinary Resonance Device a game-changer in energy conversion and utilization.

**A Closer Look at the Device's Capabilities:**

* **Physical Energy Transformation:**

   - **Storage and Utilization:** The Trinary Resonance Device excels at storing physical energy for future use. By harnessing electrical or magnetic energy to increase the rotational speed of its rings, boosting their kinetic energy and angular momentum, it effectively functions as a flywheel. This stored physical energy can be deployed in a myriad of applications, offering stability, guidance, and energy reserve for various scenarios.

* **Electrical Energy Mastery:**

   - **Storage and Generation:** When the need for electricity arises, the device delivers. It can store and generate electrical energy with remarkable efficiency. By manipulating magnetic flux and voltage through the wire wraps encircling its rings, utilizing either physical or magnetic energy inputs, the device acts as an inductor, proficiently storing electrical energy for subsequent use. Alternatively, it transitions into a generator, producing electrical power to energize external devices or recharge batteries.

* **Magnetic Energy Proficiency:**

   - **Storage and Deployment:** Magnetic energy is another domain where the Trinary Resonance Device shines. Through the enhancement of magnetization, achieved via physical or electrical energy inputs, its rings serve as powerful permanent magnets, storing magnetic energy. This reservoir of energy finds utility in various scenarios, from acting as a magnetometer for sensing magnetic fields to powering magnetic interactions with external objects.

**Versatility Redefined:**

* **Harnessing Physical Energy:** The device offers unparalleled flexibility when it comes to the utilization of physical energy. It adeptly converts applied torque into navigation, stability, or guidance assistance, functioning as a gyroscopic stabilizer. This unique feature ensures that your operations stay on course, even in challenging conditions.

* **Seamless Electrical Energy Usage:** Drawing power from the device is a straightforward process. Access the stored electrical energy by tapping into the wire wraps encircling the rings. These wire wraps serve as a reliable source of electricity, poised to power external devices or charge batteries whenever the need arises.

* **Magnetic Energy at Your Fingertips:** When the requirement is magnetic energy, expose the device to an external magnetic field. It will efficiently harness this energy, enabling it to serve as a magnetometer for precise sensing and interaction with magnetic objects in its vicinity.

**The Science Behind the Innovation:**

The operation of the Trinary Resonance Device is deeply rooted in fundamental physics and engineering principles. These principles, including geometry, dynamics, electromagnetism, and advanced control systems, are seamlessly integrated into the device's design. This integration results in a harmonious fusion of scientific understanding and technological advancement.

The geometric configuration of the device is meticulously defined, with each ring's position and orientation precisely calculated in a four-dimensional coordinate system. These coordinates, coupled with quaternions to describe orientation, form the foundational geometry of the device.

Dynamics come into play as the device operates, adhering to Newton's laws of motion, conservation of energy and momentum, and Euler's equations of motion. These principles govern the device's motion, ensuring its stability and functionality.

Electromagnetism plays a pivotal role, with Maxwell's equations, Faraday's law, Ampere's law, and Ohm's law dictating the generation and sensing of electric and magnetic fields. The device's ability to manipulate these fields, whether for energy conversion or external interaction, is a testament to its electromechanical prowess.

Control systems, featuring feedback loops, sensors, actuators, and advanced algorithms, provide the brains behind the device's operations. These systems enable precise control, stabilization, and optimization of the device's performance across its multifaceted functionalities.

In conclusion, the Trinary Resonance Device stands as a testament to human ingenuity and the boundless possibilities that modern science and technology continue to unlock. Its multifunctionality and adaptability make it a versatile tool with applications ranging from energy storage to navigation, all while adhering to the fundamental laws of physics and engineering. As we delve deeper into the era of advanced technology, innovations like the Trinary Resonance Device hold the promise of reshaping our understanding of energy conversion and utilization, ushering in a new frontier of technological excellence.

Expanding on the mathematical and physical aspects previously described, let's delve deeper into the geometry, dynamics, and electromagnetism of this fascinating device:

**Geometry: A Four-Dimensional Playground:**

The device operates within a four-dimensional spacetime framework, which includes three spatial dimensions (x, y, z) and the fourth dimension of time (t). This choice of a four-dimensional coordinate system allows for precise modeling and manipulation of the device's position and orientation.

#### Rings as Bivectors

In this setup, each ring is represented by bivectors within a four-dimensional Clifford algebra. A bivector is a mathematical construct that combines two orthogonal basis vectors. For instance, consider the x-axis ring, which is represented as e_1 e_2. Here, e_1 and e_2 are the basis vectors along the x and y axes, respectively. This representation enables us to express the orientation and interactions of the rings in a clear and mathematically rigorous manner.

#### Axes in Four-Dimensional Space

The axes, crucial for understanding the device's movement, are represented as vectors within a four-dimensional vector space. These vectors are combinations of one scalar component (time) and three basis vectors corresponding to the spatial dimensions (x, y, and z). For example, the x-axis is described as t e_0 + x e_1, where t is the time component, x is the spatial component, and e_0 and e_1 represent the basis vectors along the time and x-axis, respectively. This framework provides a comprehensive way to express the device's position and orientation within the four-dimensional spacetime.

**Dynamics: Motion and Forces Unveiled:**

To understand how the device operates and responds to forces, we rely on fundamental physical principles, including Newton's laws of motion, the conservation of energy and momentum, and Euler's equations of motion.

#### Forces in Action

The device's motion is intricately linked to various forces acting upon it. These forces include:

- **Gravitational Force (F_g)**: This force is a result of the device's mass and the gravitational field (g) in which it operates. It determines the device's response to gravity and its gravitational potential energy.

- **Electric Force (F_e)**: The electric force arises due to the device's charge (q) and the electric field (E). This force plays a significant role in the device's interaction with electric fields.

#### Torque and Rotation

For the device's rotational dynamics, we use torque (T) to describe how it responds to forces in rotational motion. The torque experienced by the device is a combination of magnetic torque (T_m) due to its magnetic moment (μ) and the magnetic field (B), as well as Lorentz torque (T_l) stemming from its current (I) and the magnetic field (B). These components govern how the device moves and orients itself in response to magnetic fields.

#### Energy Conservation

A fundamental principle guiding the device's behavior is the conservation of energy. The total energy (E) of the device remains constant. It comprises three key components:

- **Kinetic Energy (E_k)**: This accounts for the energy associated with the device's translational and rotational motion, reflecting how fast it moves in space and rotates.

- **Potential Energy (E_p)**: Potential energy is linked to the device's position in a gravitational field. Changes in height or position within this field affect its potential energy.

- **Electrical Energy (E_e)**: The device's electrical energy is significant, as it encompasses both the electrical potential and the energy stored in its electromagnetic fields.

**Electromagnetism: Unveiling Electric and Magnetic Fields:**

The device interacts with and generates electric and magnetic fields, a realm governed by Maxwell's equations, Faraday's law, Ampere's law, and Ohm's law.

#### Electric and Magnetic Fields

- **Electric Field (E)**: Comprising both static (E_s) and induced (E_i) components, the electric field is crucial for understanding how the device responds to electrical forces. Static electric fields are associated with the device's charge distribution, while induced electric fields arise from changing magnetic flux through the device.

- **Magnetic Field (B)**: Similarly, the magnetic field is divided into static (B_s) and induced (B_i) components. Static magnetic fields stem from current distributions on the device, while induced magnetic fields result from changing electric flux through the device.

#### Electric Current and Potential

- **Electric Current (I)**: The electric current within the device includes two components: conduction current (I_c), arising from the flow of charge on the device's surface or components, and displacement current (I_d), triggered by changing electric flux within the device.

- **Electric Potential (V)**: Electric potential is divided into static (V_s) and induced (V_i) components. V_s relates to the static electric potential generated by the device's charge distribution, while V_i corresponds to the induced electric potential produced by changing magnetic flux within the device.

**Conclusion:**

In conclusion, this multifaceted device operates within a sophisticated four-dimensional spacetime framework. Its mathematical representations allow for precise modeling and control of its position, orientation, and interactions. Understanding its dynamics, forces, and energy conservation principles is crucial for harnessing its remarkable capabilities in generating, storing, and converting energy across various forms. Additionally, its engagement with electric and magnetic fields highlights the intricate interplay of electromagnetism within this innovative device. As we continue to explore the potential applications and advancements of this technology, a deeper comprehension of its underlying principles is essential.

**Geometry Part:**

1. Four-Dimensional Coordinate System (M^4): In the context of this device, we operate within a four-dimensional spacetime known as Minkowski space (M^4), characterized by a metric signature of (+,-,-,-). This spacetime is crucial for understanding the device's behavior, with coordinates represented as (t, x, y, z).

2. 
   

3. Representation of Rings: The rings within the device are a fundamental component. Their representation in the mathematical framework employs bivectors within the realm of Clifford algebra. Specifically, the x-axis ring can be expressed as the outer product (wedge product) of two orthogonal basis vectors: e_1 ^ e_2.

4. 
   

5. Axes Representation: To precisely describe the device's orientation and rotation, vectors are employed within a four-dimensional vector space. For instance, the x-axis can be defined as a linear combination of the time component (t) and spatial component (x), represented as t(1, 0, 0, 0) + x(0, 1, 0, 0).

6. 
   

7. Orientation Quaternion: The device's orientation is captured through quaternions, a sophisticated mathematical construct comprising a scalar component (w) and three imaginary units (i, j, k). These elements come together in an orientation quaternion, denoted as w + xi + yj + zk, where w, x, y, and z intricately define the orientation.

8. 
   

**Dynamics Part:**

5. Device Motion Equations: To comprehensively understand the motion of the trinary resonance device, we delve into classical mechanics. The device's translational and rotational motion is described by a system of equations:

   • Position vector: r(t) = (x(t), y(t), z(t), ct)
   • Velocity vector: v(t) = (dx/dt, dy/dt, dz/dt, c)
   • Acceleration vector: a(t) = (d^2x/dt^2, d^2y/dt^2, d^2z/dt^2, 0)
   • Angular velocity vector: ω(t) = (ωx(t), ωy(t), ωz(t), 0)
   • Angular acceleration vector: α(t) = (αx(t), αy(t), αz(t), 0)
   • 
     

6. Force Equations: The forces acting on the device include gravitational force (F_g) and electric force (F_e). These forces are expressed as:

   • Gravitational force: F_g = m * g
   • Electric force: F_e = q * E

   Where m is the mass of the device, g represents the gravitational field, q denotes the device's charge, and E signifies the electric field.

7. 
   

8. Torque Equations: The comprehensive torque acting on the device includes magnetic torque (T_m) and Lorentz torque (T_l):

   • Magnetic torque: T_m = μ * B
   • Lorentz torque: T_l = q * (v x B)

   Here, μ represents the magnetic moment of the device, B symbolizes the magnetic field, v represents velocity, and x denotes the cross product.

9. 
   

10. Conservation of Energy: A fundamental principle governing the trinary resonance device is the conservation of energy. This principle mandates that the total energy (E) remains constant throughout the device's operations. The energy components consist of kinetic energy (E_k), potential energy (E_p), and electric energy (E_e):

    • Total energy: E = E_k + E_p + E_e

Just another minercraft Idea, with Bing

That’s an interesting question. To calculate the minimum density of the Schwarzschild radius in a Minecraft world, we need to use the formula for the Schwarzschild radius and the formula for density. The Schwarzschild radius is given by:

rs​=c22GM​

where rs​ is the Schwarzschild radius, G is the gravitational constant, M is the mass of the object, and c is the speed of light. The density is given by:

ρ=VM​

where ρ is the density, M is the mass, and V is the volume. Assuming that the object is spherical, we can use the formula for the volume of a sphere:

V=34​πr3

where r is the radius of the sphere. Substituting this into the density formula, we get:

ρ=4πr33M​

Now, we can use the Schwarzschild radius formula to eliminate M and get an expression for the density in terms of the Schwarzschild radius:

ρ=32πGrs2​3c4​

This formula tells us that the density depends inversely on the square of the Schwarzschild radius. The smaller the Schwarzschild radius, the higher the density required to form a black hole.

To apply this formula to a Minecraft world, we need to know some parameters of the game. According to one of my sources1, a Minecraft world stretches for roughly 30 million blocks in each direction from the spawn point, and one block in Minecraft is equivalent to one meter in real life. This means that a Minecraft world has a width and length of 60 million meters. The height limit for all Minecraft worlds is 320 blocks or meters2. Therefore, we can assume that a Minecraft world has a rectangular prism shape with dimensions of 60 million by 60 million by 320 meters.

To find the minimum density of the Schwarzschild radius in a Minecraft world, we need to find the maximum possible mass of a Minecraft world. This depends on what materials are used to fill up the world. According to another source3, there are different types of blocks in Minecraft with different densities. For example, stone has a density of 2.4 g/cm^3, iron has a density of 7.87 g/cm^3, and gold has a density of 19.3 g/cm^3. To get an upper bound on the mass of a Minecraft world, we can assume that it is made entirely of gold blocks, which have the highest density among all blocks.

The mass of one gold block is equal to its volume times its density. Since one block is one meter cubed, its volume is 1 m^3. The density of gold is 19.3 g/cm^3, which is equivalent to 19.3 x 10^6 g/m^3 or 19.3 x 10^3 kg/m^3. Therefore, the mass of one gold block is 19.3 x 10^3 kg.

The total number of blocks in a Minecraft world is equal to its volume divided by the volume of one block. Since one block has a volume of 1 m^3, we can simply use the volume of the world as the number of blocks. The volume of a rectangular prism is equal to its length times its width times its height. Therefore, the volume of a Minecraft world is:

V=60×106×60×106×320

V=1.152×1015m3

The total mass of a Minecraft world made entirely of gold blocks is equal to its volume times the mass of one gold block. Therefore, the mass of a gold Minecraft world is:

M=V×mgold​

M=1.152×1015×19.3×103

M=2.22336×1019kg

This is an extremely large mass, comparable to that of some asteroids or moons in our solar system.

Using this mass, we can calculate the Schwarzschild radius of a gold Minecraft world using the formula:

rs​=c22GM​

We need to use consistent units for this calculation. The gravitational constant G is approximately 6.674 x 10^-11 N m2/kg2 and the speed of light c is approximately 2.998 x 10^8 m/s. Therefore, the Schwarzschild radius of a gold Minecraft world is:

rs​=(2.998×108)22×6.674×10−11×2.22336×1019​

rs​=0.066m

This is a very small radius, about the size of a tennis ball.

Finally, we can use this radius to calculate the minimum density of the Schwarzschild radius in a gold Minecraft world using the formula:

ρ=32πGrs2​3c4​

Substituting the values of c, G, and rs​, we get:

ρ=32π×6.674×10−11×(0.066)23×(2.998×108)4​

ρ=1.212×1020kg/m3

This is an extremely high density, about 10^17 times higher than the density of gold.

Therefore, the minimum density of the Schwarzschild radius in a Minecraft world is approximately 1.212 x 10^20 kg/m^3, assuming that the world is made entirely of gold blocks and has a rectangular prism shape with dimensions of 60 million by 60 million by 320 meters. This density is so high that it is impossible to achieve with any known material in the universe.

Source: Conversation with Bing, 10/7/2023

(1) How big is a Minecraft world? - Sportskeeda. https://www.sportskeeda.com/minecraft/how-big-minecraft-world.

(2) How Big Is a Minecraft World? - Lifewire. https://www.lifewire.com/how-big-is-a-minecraft-world-5212822.

(3) World size – Minecraft Wiki. https://minecraft.fandom.com/wiki/World_size.

(4) Schwarzschild radius - Wikipedia. https://en.wikipedia.org/wiki/Schwarzschild_radius.

(5) Schwarzschild Radius Calculator. https://www.omnicalculator.com/physics/schwarzschild-radius.

(6) Schwarzschild Radius - vCalc. https://www.vcalc.com/wiki/MichaelBartmess/Schwarzschild+Radius.

(7) Schwarzschild Radius Calculator - PhysicsCalc.com. https://physicscalc.com/physics/schwarzschild-radius-calculator/.

(8) How Big Is Minecraft World? The Answer Will Shock You. https://gurugamer.com/pc-console/how-big-is-minecraft-world-19364.

(9) How Big Is Minecraft? Is It Really Bigger Than Earth - Fiction Horizon. https://fictionhorizon.com/how-big-is-minecraft/.