Science and Religion: Escape From The Center of (Robert) Sungenis


Geocentrism: adding epicycles.

     TLDR ADVISORY: This article exceeds 1,000 words, and may be lengthy for some readers, including Mr. Robert Sungenis and anyone who missed the memo about the sun being the reason they call this the “solar” system.

     I’d like to tell you a story, my fine, young readers. It’s a story that’s over two thousand years in the making, and one that needs to be told. You see, we as a race are nearing a fork in the road of our development, between enlightenment and ignorance. This fork in the road means that those of us who honestly care where we are going, need to be diligent enough to tell these stories repeatedly, so that others don’t forget all that we’ve learned. I tell you this story, because I love each and every one of you. But, I digress…

Claudius Ptolemy: 90 - 168 AD.

Claudius Ptolemy: 90 – 168 AD.

     In the last years of the third century BC, Greek mathematician Appolonius of Perga posited a geometric model that would explain the movements of the planets as they tracked across the sky. Observed from the Earth, planets such as Mars seemed to move in one direction for a while, then stop, move backwards a bit, then return to their original direction of motion. What Appolonius proposed, was that these objects moved in what came to be known as “epicycles” as they tracked across the night sky. Appolonius’s epicycles were subsequently expanded upon and adopted by Claudius Ptolemy in the 2nd century AD, and became part of the Ptolemaic system of astronomy. (Ptolemy’s model was even turned into an ancient analog computer of sorts, in what is now known as the “Antikythera Mechanism.”) The Ptolemaic system would hold sway as scientific dogma for the next fifteen hundred years.

Nicholaus Copernicus: 1473 - 1543

Nicolaus Copernicus: 1473 – 1543

     Flash forward, to the year 1542. A man lies dying from apoplexy and paralysis. His name, is Nicolaus Copernicus. For the past few decades, Copernicus had been working on the problem of the Ptolemaic model, trying to answer various questions about its inability to make more accurate predictions of the motions of the planets. At the same time, the beginnings of the Protestant Reformation were spreading throughout Europe, challenging the long-held authority of the Roman Catholic church over what exactly the “truths of existence” were.

     Copernicus wasn’t an idiot. He knew that his observations and conclusions about how the heavenly bodies moved across the sky, would contradict church dogma. So, he waited until just before his death in 1543 to publish his observations in a book, “De revolutionibus orbium coelestium.” (“On the Revolutions of the Heavenly Spheres”) In this daring treatise, Copernicus posited that the sun, not the Earth, was at the center of the planetary system, and that the planets orbited the sun in circular paths.

Tycho Brahe: 1546 - 1601

Tycho Brahe: 1546 – 1601

     Three years later, another pioneer in the field of astronomy was born. Tycho Brahe was a headstrong young man, who even lost part of the bridge of his nose in a sword duel (in the dark!) with a fellow Danish nobleman, over a mathematical formula. Tycho was serious. Even more so, he was all about accuracy. Because of this, Tycho began to make meticulous measurements of the planets’ motions, using a device called a “quadrant.”

Johannes Kepler: 1571 - 1630

Johannes Kepler: 1571 – 1630

     By 1600, Brahe had compiled a massive amount of data. It was at this time, that 29-year-old Johannes Kepler met Brahe near Prague, at Benatky nad Jizerou, and became his assistant. Brahe didn’t entirely trust Kepler with his data. For that matter, he didn’t trust anyone with it, and guarded his data closely. He did, however, set his young protege a task; reckon out the motion of the planet Mars. (“Here, kid. Take these measurements and figure it out.”) Kepler already had his own view of the world around him, and since he wasn’t a Catholic, wasn’t as worried about crossing the “powers-that-be” as Copernicus had been.

     Tycho Brahe died in 1601. Immediately following Brahe’s demise, Kepler purloined his vast collection of observational data, and eventually published his conclusions in the “Astronomia nova” (“New Astronomy”) in 1609. “Astronomia nova” made compelling arguments for heliocentrism, and built on the Copernican model of planetary orbits, positing that instead of circular paths, the planets followed elliptical orbits around the sun.

Galileo Galilei: 1564 - 1642

Galileo Galilei: 1564 – 1642

     In the same year that Kepler published “Astronomia nova”, a 45-year-old Italian mathematician and astronomer, by the name of Galileo Galilei, built a device modeled after the “Dutch spyglass.” This device, which could magnify distant objects to about 3x, was the first practical telescope. Galileo turned his telescope skyward…and Galileo saw. Galileo sketched. Galileo discovered.

     He discovered that Saturn had rings. He discovered that Jupiter had moons of its own. He noted that Venus went through phases, much like the moon. Galileo published his findings in “Sidereus Nuncius” (“Starry Messenger”) in 1610, and in “Dialogo sopra i due massimi sistemi del mondo” (“Dialogue Concerning the Two Chief World Systems”) in 1632. It was the latter book, which directly challenged established church dogmas, that would result in Galileo being tried for heresy by the Inquisition, and placed under house arrest until his death in 1642. The damage, however, had been done. The great man, Galileo Galilei, had dealt the death blow to the Ptolemaic system of geocentrism…or so it seemed.

Sir Issac Newton: 1642 - 1727

Sir Issac Newton: 1642 – 1727

     In the centuries after Galileo turned his telescope to the sky, science has made advances that Galileo would have found astounding. Issac Newton refined Galileo’s work, developing a new system of mathematics (Calculus) to explain the motions of the planets, as well as the reasons why they move the way that they do. His “Philosophiæ Naturalis Principia Mathematica” (“Mathematical Principles of Natural Philosophy”) was a virtual watershed in the fields of mathematics, physics and astronomy.

     During the 1800’s, the sky was indeed the “greatest show on Earth.” Before the age of motion pictures, radio and television, people found entertainment and wonder in simply gazing up at the sky, identifying the stars and constellations, and acknowledging their place within the wider realm of existence…but then, that all changed.

     It is the year 2014. A recent poll by the National Science Foundation finds that 1 in 4 people in America don’t know that the sun is at the center of the solar system. America ranks 25th in science and math scoring of high-school students worldwide. (China, Finland and South Korea rank in the top three.) This spring, mail-order Ph.D. documentary producer and Holocaust denier, Robert Sungenis, is releasing a film based upon his book, “Galileo Was Wrong The Church Was Right”, titled “The Principle.” Sungenis is an adherent of the Ptolemaic model of geocentrism; the same model that was proven to be wrong almost 500 years ago.

     I can only hope that someone reads this story, and understands. I ache with the desire for someone to digest these words, and to be imbued with a child-like curiosity about science and the sky. Oh, God. If I had the money, I would gladly buy each and every one of you, my fine young readers, a brand new Celestron telescope, so that we could gaze together on the wonders of the Galilean moons of Jupiter, the rings around Saturn and other “awesomesauce” out there in the night sky, if for no other reason than to honor Copernicus, Brahe, Kepler, Galileo and others for their hard work and sacrifices. Sacrifice, they did, all in the name of making our world a better and smarter place to be.