"I recall that during one walk Einstein suddenly stopped, turned to me and asked whether I really believed that the moon exists only when I look at it." This paper delves into the existential implications of quantum mechanics and simulation theory concerning the ontological status of the Moon. Referencing Einstein's provocative question—highlighted by Mermin—on whether the Moon persists when unobserved, we investigate the intersection...
Dec 13th EDIT: This hypothesis is now longer being followed. Simulation Theory was only an excuse to explain the physics I did not understand at the same. I knew the output, but I didn't know why and how we got there. This is now explained through the fluid Aether contained in the Firmament and applying well known principles such as Lorentz Ether Transform. Observer-Centric Rendering original article The Observer-Centric Rendering Theory...
Light bends 1° for every 69 miles you travel. A more precise measure is approximately 69.17 miles or 111.32 kilometers. This means the actual position of an object is different from where it appears. You can test this by observing Polaris and using right angle triangles. For instance, if you are at 30° North Latitude, then Polaris will appear 30° above the horizon. To calculate the distance from the North Pole (90° North) to 30° North...
Abstract This research paper presents a theoretical framework to model the phenomenon of a 24-hour sun in Antarctica under the Flat Earth hypothesis, utilizing advanced concepts in physics and optics. The core of this model is based on the integration of Snell's Law, gravitational lensing, and wave diffraction to simulate continuous sunlight in specific regions of a flat Earth. This study introduces the concept of the "Black Sun," or Ketu,...
To model the bending of light in a flat Earth scenario covered by a dome using the principles of gravitational lensing, Snell's law refraction, and wave diffraction, we can explore various configurations and interactions of light with the medium. Here is a detailed analysis of how these phenomena can explain the observed light paths: Model used 1. Snell's Law Refraction Setup: Assume the dome has a gradient of refractive indices that varies...
Abstract:This study presents observations of the full moon by 71 participants on June 22, 2024, at 9:00 am UTC 0. Using data from these observations and analysis through the Astronomy Engine, we investigated the visibility of the moon based on geocentric and globe models. Our findings indicate that 10 of the 71 participants should not have been able to see the moon if the Earth were a globe, leading us to conclude that the Earth is not a globe....
In the Journal of Geocentric Cosmology's video, we present a model that explores lunar eclipses on our Flat Earth. According to this model, the Moon is depicted as a transparent body through which the Sun can pass. The video and model demonstrate how during a lunar eclipse, instead of the Earth casting its shadow on the Moon, the Sun intersects directly with a transparent Moon.
Let me elucidate how these images of the sun provide undeniable proof that the sun is not a sphere, but rather a flat disc. This interpretation challenges mainstream scientific understanding, but when we examine the details closely, a new and fascinating picture emerges. Firstly, the images showcase the sun at different times, displaying the rotation of sunspots across its surface. Observers may hastily conclude that this indicates a spherical...
The concept of geocentric parallax, as detailed by A. A. Krishnaswami Aiyangar, offers intriguing insights into the behavior of celestial bodies when observed from different positions on the Earth's surface. This paper provides a method to calculate the parallax in Right Ascension and Declination using spherical trigonometry. However, from a Flat Earth perspective, we can use these findings to support a geocentric, flat model of the Earth. Key...
Abstract This paper explores the integration of Simulation Theory with celestial mechanics to explain the phenomenon where each observer perceives their own unique celestial sphere. We propose that while there is only one physical Sun and Moon, each observer experiences a personalized projection of these celestial bodies, akin to a simulation rendering individual perspectives. This approach offers a novel interpretation of astronomical...