Chronology of 500 Year Jesuit Deception and Flat Earth
Jesuits were often highly trained in languages and the sciences and were expected to use their technical knowledge, especially in the realm of astronomy, to win over rulers and elites around the world and convince them, by extension, of the superiority of the Catholic message.
By 1750, 30 of the world’s 130 astronomical observatories were run by Jesuit astronomers and 35 lunar craters have been named to honor Jesuit scientists.
When Flat Round Earth Got Dropped from Scientific Inquiry
Up until the Jesuit Order was created in 1540, the most common school of thought in regards to Cosmology was that the Earth was Flat and Round, as had been the teachings for 5,000 years.
Once the Jesuits gained power around the world, the instilled the global ball Earth theory called Heliocentrism, step by step by step until after just a few generations, everyone on Earth KNEW the Earth was traveling around the Sun at incredible speeds.
It began with changing the conversation from one of a Flat Earth and Geocentered to just a debate as to whether we spun around the Sun or the Sun moved around us, completely eliminating the entire Flat Earth theory.
Flat Earth theory is never brought up in history lessons, or astronomy classes or by any supossed learned institutions. In fact, it wasn’t until one year ago when “Flat Earth Conspiracy” by Eric Dubay was introduced to the public.
Over the past 150 years several courageous Men and Women tried to educate the masses to the great fraud perp’d so expertly, over so long, by the Jesuits, yet know the cat is out of the bag and the truth is available for all to learn.
Here is a chronology of how Jesuits have been involved in every step of the way of deceiving all to believe we are just a small tiny insignificant blip in a massive universe vis-a-vis a Earth centered Universe where we are the Biggest Show in the Universe and of most importance.
Geocentrism vs. Heliocentrism and no longer discussion of Flat Earth Theory
When Jesuit astronomer, Giovanni Battista Riccioli published his Almagestrum Novum or “New Almagest” the title alone suggested the boldness of the project. This was to be a new and updated take on Ptolemy’s Almagest. The book offered new insight into the state of thought about the cosmos in 17th century Europe.
The frontispiece to Riccioli’s Almagestrum Novum tells his perspective on the state of astronomy in 1651. Urania, the winged muse of astronomy, holds up a scale with two competing models, a sun centered Copernican model, and the Tychonic geocentric model. The Ptolemaic model sits discarded in the bottom right corner of the scene. On the right, 100 eyed Argus points at cherubs in the upper right corner of the illustration.
The Cherubs hold recent observational discoveries; the moons of Jupiter, a detailed mountainous moon and the rings of Saturn. Under God’s hand from the top of the image, the scale reports the Tychonic model to be heavier and thus the winner.
Some of the most interesting details in this illustration are tucked away in the corners. In the upper right corner, among the clouds, are small representations of additional solar systems. Beyond the central diagram, the mapmaker shows the concept of the plurality of worlds. Each of these little sets of circles represents its own solar system with a star and planets. This image directly draws on the literary author, de Fontenelle, who building on the ideas of Newton and Descartes’, explored the significance of living in a universe with a plurality of worlds each orbiting their own stars.
Riccioli leans on the authority of a number of contemporary and historical thinkers. He lists 38 different astronomers and thinkers, such as Aristotle, Ptolemy and others who believe the Earth to be the center of the universe. He compares them to the 16 astronomers, including Copernicus, Kepler, and Descartes, who favor a sun centered model.
There were three mathematical models to describe the movements of the heavens in 163
- The Aristotelian / Ptolemaic system, with everything orbiting around a stationary Earth, which had largely fallen out of favour following Galileo’s observations.
- The Tychonic system (developed by Tycho Brahe), in which the Earth was viewed as stationary, the Sun went around the Earth and everything else went around the Sun. After Galileo’s presentations in 1611, this became the favoured model of the Roman Catholic Church. Most Jesuit astronomers (such as Clavius) had adopted this system by 1620.
- The Copernican system, with a stationary Sun around which everything else revolved.
A statue of Nicolaus Copernicus erected 1973, 500 years after his birthday in front of the Jesuit college and a planetarium in Piotrkow Trybunalski, …
Among Catholics, Christoph Clavius (1537–1612) was the leading astronomer in the sixteenth century. A Jesuit himself, he incorporated astronomy into the Jesuit curriculum and was the principal scholar behind the creation of the Gregorian calendar. Like the Wittenberg astronomers, Clavius adopted Copernican mathematical models when he felt them superior, but he believed that Ptolemy’s cosmology — both his ordering of the planets and his use of the equant — was correct.
Pope Clement VII (r. 1523–1534) had reacted favorably to a talk about Copernicus’s theories, rewarding the speaker with a rare manuscript. There is no indication of how Pope Paul III, to whom On the Revolutions was dedicated reacted; however, a trusted advisor, Bartolomeo Spina of Pisa (1474–1546) intended to condemn it but fell ill and died before his plan was carried out (see Rosen, 1975). Thus, in 1600 there was no official Catholic position on the Copernican system, and it was certainly not a heresy.
After disagreements with the new Danish king Christian IV in 1597, he was invited by the Bohemian king and Holy Roman emperor Rudolph II to Prague, where he became the official imperial astronomer. He built the new observatory at Benátky nad Jizerou. There, from 1600 until his death in 1601, he was assisted by Johannes Kepler who later used Tycho’s astronomical data to develop his three laws of planetary motion.
Some acceptance of the Tychonic system persisted through the 17th century and in places until the early 18th century; it was supported (after a 1633 decree about the Copernican controversy) by “a flood of pro-Tycho literature” of Jesuit origin.
Among pro-Tycho Jesuits, Ignace Pardies declared in 1691 that it was still the commonly accepted system, and Francesco Blanchinus reiterated that as late as 1728. Persistence of the Tychonic system, especially in Catholic countries, has been attributed to its satisfaction of a need (relative to Catholic doctrine) for “a safe synthesis of ancient and modern”.
“The laws of nature are written by the hand of God in the language of mathematics.” – Galileo Galilei (Il Saggiatore, 1623)
Initially a beneficiary of church patronage of astronomy, Galileo rose to prominence with the publication of Sidereus Nuncius, which comprised astronomical observations made possible by the 1608 invention of the telescope. He was feted in Rome, honoured by the Jesuits of the Roman College and received by Pope Paul V and church dignitaries
In 1611 Galileo travelled to Rome to present his findings, and was greeted with great acclaim. He demonstrated his observations of Jupiter to Christopher Clavius, a Jesuit at the Collegio Romano and the most respected astronomer in Europe at the time, who confirmed Galileo’s observations and parts of his theses of planetary motion. He was monumentally arrogant, belligerent and abrasive towards any who opposed him.
Controversial Questions’ (don’t you just love that title?), wrote a letter to Galileo in April 1615 outlining the Church’s official position. He pointed out that Copernican theory was perfectly acceptable as a working hypothesis, and if there were proof that the earth circles around the sun, “then we should have to proceed with great circumspection in explaining passages of Scripture which appear to teach the contrary.”
Galileo had no astronomical proof to offer, partly because his own observations did not align properly with his theory. Instead, Galileo proposed as proof a flawed and unconvincing theory that the tides were evidence of the Earth’s rotation (and, incidentally, specifically denying that lunar attraction was involved). In 1616 the Church ordered him to cease and desist his public advocacy of the unproven theory.
n 1623 his friend and supporter Maffeo Barberini ascended to the papacy, and Galileo confidently re-entered the public fray. In the same year he published Il Saggiatore (‘The Assayer’), in which he launched a vicious assault on a treatise on comets by Orazio Grassi, a Jesuit mathematician at the Collegio Romano. Grassi used observations of parallax to argue that comets are further away than the moon; Galileo ridiculed this idea and claimed instead that comets are an optical illusion. His factual error notwithstanding, the harshness of Galileo’s tone permanently soured his relations with the Jesuit order. Pope Urban VIII thoroughly enjoyed the rhetorical flourishes of Galileo’s prose, however, and composed a poem in his honour.
The Jesuits at the Roman College undoubtedly followed Aristotle in philosophy and Ptolemy in astronomy, at least for didactic purposes.
S.J. (1 May 1583 – 23 July 1654), was an ItalianJesuit priest, who is best noted as a mathematician, astronomer and architect. He was one of the authors in controversy with Galileo Galilei on the nature of comets
In 1614 Grassi was assigned to serve as Jesuit college in Genoa in the capacity of assistant Master of novices. He served in that position for two years, before being named as to the faculty of the Roman College as a professor of mathematics. During that period, his research focused on pure mathematics, as well as on optics and architecture. In 1617 he published a series of lectures he had given on the eye, De iride disputatio optica, under the pseudonym of Galeazzo Mariscotto, as well as the Tractatus tres de sphera, de horologis ac de optica. He pronounced solemn vows in the Society in 1618, at which time he received Holy Orders as a priest, following which he was given the chair in mathematics. He held this position until 1628.
Giovanni Battista Riccioli (17 April 1598 – 25 June 1671) was an Italianastronomer and a Catholicpriest in the Jesuit order. He is known, among other things, for his experiments with pendulums and with falling bodies, for his discussion of 126 arguments concerning the motion of the Earth, and for introducing the current scheme of lunar nomenclature.
Other 17th Century Jesuit Astronomers:
- Matteo Ricci (1552–1610), Italian mathematician, translator, and noted for his importance to the Jesuit China missions.
- Christopher Clavius (1538–1612), German mathematician and astronomer, most noted in connection with the Gregorian calendar, but also his arithmetic books were used by many mathematicians including Leibniz and Descartes.
- François d’Aguilon (1567-1617), Belgian mathematician and physicist who worked on optics.
- Giuseppe Biancani (1566-1624), Italian astronomer and selenographer who wrote Sphaera mundi, seu cosmographia demonstrativa, ac facili methodo tradita.
- Wenceslas Pantaleon Kirwitzer (1588-1626), Czech astronomer and missionary to China.
- Charles Malapert (1581-1630), Belgian astronomer known for observing the stars of the southern sky and being against Copernicus.
- Christoforo Borri (1583–1632), Italian mathematician and astronomy who made observations on the magnetic variation of the compass.
- Christoph Grienberger (1561-1636), Austrian astronomer and mathematician.
- Giovanni Battista Zupi (c.1590-1650), Italian astronomer who discovered that Mercury had orbital phases.
- Alexius Sylvius Polonus (1593-c.1653), Polish astronomer.
- Johann Baptist Cysat (1587-1657), Swiss mathematician and astronomer, who did important research on comets and the Orion nebula.
- Mario Bettinus (1582-1657), Italian mathematician and astronomer..
- André Tacquet (1612-1660), Flemish mathematician whose work prepared the ground for the eventual discovery of calculus.
- Francesco Maria Grimaldi 1618-1663), Italian physicist, who coined the word ‘diffraction’ and used instruments to measure geological features on the Moon.
- Niccolo Zucchi (1586-1670), Italian astronomer known for his study of Jupiter and work on telescope design.
- Giovanni Battista Riccioli (1598-1671), Italian astronomer who was the first to note that Mizar was a “double star.”
- Albert Curtz (1600-1671), German astronomer.
- Jacques de Billy (1602-1679), French mathematician who wrote on number theory and astronomy.
- Athanasius Kircher (1601-1680), German who in his Scrutinium Pestis of 1658 he noted the presence of “little worms” or “animalcules” in the blood, and concluded that the disease was caused by micro-organisms. This is antecedent to germ theory.
Rene Descartes laid the foundation for 17th-century continental rationalism, later advocated by Baruch Spinoza and Gottfried Leibniz, and opposed by the empiricist school of thought consisting of Hobbes, Locke, Berkeley, and Hume. Leibniz, Spinoza and Descartes were all well versed in mathematics as well as philosophy, and Descartes and Leibniz contributed greatly to science as well.
Jean-François Foucquet was born in Vézelay in a wealthy family. He studied at Lycée Louis le Grand in Paris. In 1681 he entered the order of the Jesuits. Four years later he taught mathematics. In 1693 he became a priest and in the following year he decided he wanted to volunteer in Asia. In 1699 he arrived in Amoy. Until 1711 he worked in Fujian and Jiangxi, then he was invited to Peking, to teach math and astronomy
Jean-Félix Picard (21 July 1620 – 12 July 1682) was a Frenchastronomer and priest born in La Flèche, where he studied at the JesuitCollège Royal Henry-Le-Grand. . He was the first person to measure the size of the Earth to a reasonable degree of accuracy in a survey conducted in 1669–70, for which he is honored with a pyramid at Juvisy-sur-Orge.
Jesuit Astronomers with Chinese Scholars in the 18th Century
The Jesuit China missions of the 16th and 17th centuries introduced Western science and astronomy, then undergoing its own revolution, to China. One modern historian writes that in late Ming courts, the Jesuits were “regarded as impressive especially for their knowledge of astronomy, calendar-making, mathematics, hydraulics, and geography.”
The Society of Jesus introduced, according to Thomas Woods, “a substantial body of scientific knowledge and a vast array of mental tools for understanding the physical universe, including the Euclidean geometry that made planetary motion comprehensible.” Another expert quoted by Woods said the scientific revolution brought by the Jesuits coincided with a time when science was at a very low level in China.
On 8 June 1723, Fouquet was received by Pope Innocent XIII. Fouquet met another Chinese in Rome, who offered him help with translating. In 1725 he was appointed as bishop of Eleutheropolis in Palestine.
Johannes Kepler December 27, 1571 – November 15, 1630) was a Germanmathematician, astronomer, and astrologer. A key figure in the 17th century scientific revolution, he is best known for his laws of planetary motion, based on his works Astronomia nova, Harmonices Mundi, and Epitome of Copernican Astronomy. These works also provided one of the foundations for Isaac Newton‘s theory of universal gravitation.
Modern refracting telescopes are based on a design proposed by Johannes Kepler in 1611 but first constructed by Father Christopher Scheiner some time between 1613 and 1617 (see Timeline of the Telescope).
Why did Scheiner build an astronomical telescope when other scientists of his day seemed quite content with the Galilean telescope? The answer may require looking past Scheiner to his order, the Jesuits. Scheiner’s unorthodoxy regarding telescope construction, use and theory was not out of place in the Jesuits. Another Jesuit of Scheiner’s and Galileo’s time, Niccolo Zucchi, demonstrated that a telescopic effect could be achieved using a combination of parabolic mirrors and lenses instead of just lenses. This crude reflecting telescope was built more than 50 years before Newton’s famous telescope.
The Jesuits also have a connection with the spread of telescope technology beyond Europe. The first telescope in North America was a gift presented by the Jesuits in 1646 to Jean Bourdon, an engineer in New France (modern day Quebec) [_5_] . The first telescope in China was brought there by Johannes Schreck, another Jesuit, in 1621 (his trip from Europe started in 1618) [_6_] . The Jesuit Jean Richaud is wrongly thought to be the first to use telescopes for astronomical purposes in India.
Related and Relevant Sidebar:
The Vatican’s latest ….The L.U.C.I.F.E.R. Telescope
the dedication plaque of the VATT reads:
This new tower for studying the stars has been erected during the XV year of the reign of John Paul II on this peaceful site so fit for such studies, and it has been equipped with a new large mirror for detecting the faintest glimmers of light from distant objects. May whoever searches here night and day the far reaches of space use it joyfully with the help of God.
“It may be boldly asked where can the man be found, possessing the extraordinary gifts of Newton, who could suffer himself to be deluded by such a hocus-pocus, if he had not in the first instance willfully deceived himself; Only those who know the strength of self-deception, and the extent to which it sometimes trenches on dishonesty, are in a condition to explain the conduct of Newton and of Newton’s school.
To support his unnatural theory Newton heaps fiction upon fiction, seeking to dazzle where he cannot convince. In whatever way or manner may have occurred this business, I must still say that I curse this modern history theory of Cosmology, and hope that perchance there may appear, in due time, some young scientists of genius, who will pick up courage enough to upset this universally disseminated delirium of lunatics.”
Isaac Newton’s Theory of Colors Worked Out With Jesuits of England
Sir Isaac Newton was also engaged in another exchange on his theory of colors with a circle of English Jesuits in Lige, perhaps the most revealing exchange of all. Although their objections were shallow, their contention that his experiments were mistaken lashed him into a fury. The correspondence dragged on until 1678, when a final shriek of rage from Newton, apparently accompanied by a complete nervous breakdown, was followed by silence.
Newton has been identified as a “Grand Master of the Priory of Sion” from 1691-1727 in documents by Pierre Plantard.
Newton was made President of the Royal Society in 1703 and an associate of the French Academie des Sciences. In his position at the Royal Society, Newton made an enemy of John Flamsteed, the Astronomer Royal, by prematurely publishing Flamsteed’s star catalogue.
…The researchers say that a little known school of scholars in southwest India discovered one of the founding principles of modern mathematics hundreds of years before Newton, a University of Manchester statement says.
Newton‘s supposed “law of gravity,” are what’s truly dubious. Heliocentrists cannot show us a single object massive enough that by virtue of its mass alone, causes other smaller masses to stick to or orbit it as they claim happens with the Sun, Moon, Earth, Stars and Planets. If you cannot give me a single practical example of “gravity” smaller than the Earth or the Sun, then it is merely heresay, not science! ~ Eric Dubay Flat Earth Conspiracy
Newton’s Major Body of Work Heavily Edited by Jesuits
“Newton’s Laws have been responsible for the discovery of planets, for the construction of safe bridges, roads and amusement park rides, for an understanding of the ocean’s tides, and for realistic computer animations and video games,” said Erlich, the Class of 2017 Associate Professor of Physics. “It would be difficult to overstate the importance of at least some of these things.”
After the first edition (hereafter referred to as Newton 1), two subsequent editions were published. The second edition (Newton 2) was published in 1713 and the third edition (Newton 3) in 1726. Then, just over a decade later, comes Newton 4, the so-called Jesuit edition, which was edited by two Minim friars. The Jesuit edition contains commentary that extends to roughly the same length as Newton’s text. The text for the Jesuit edition was, in fact, taken from the Newton 3 edition of the Principia—the last edition to be edited by Newton himself.(Source)
Newton Did Not discover Calculus but Passed on by Jesuits
Dr George Gheverghese Joseph from The University of Manchester says the ‘Kerala School’ identified the ‘infinite series’- one of the basic components of calculus – in about 1350.
The discovery is currently – and wrongly – attributed in books to Sir Isaac Newton and Gottfried Leibnitz at the end of the seventeenth centuries.
And there is strong circumstantial evidence that the Indians passed on their discoveries to mathematically knowledgeable Jesuit missionaries who visited India during the fifteenth century. (source)
Newton vs. Castel; Theory of Colors
t was in 1740 that Louis Bertrand Castel published a criticism of Newton’s spectral description of prismatic colour in which he observed that the colours of white light split by a prism depended on the distance from the prism, and that Newton was looking at a special case. It was an argument that Goethe later developed in his Theory of Colours
Roger Joseph Boscovich 18 May 1711 – 13 February 1787) was a Ragusanphysicist, astronomer, mathematician, philosopher, diplomat, poet, theologian, Jesuitpriest, and a polymath from the city of Dubrovnik in the Republic of Ragusa (modern-day Croatia), who studied and lived in Italy and France where he also published many of his works.
In 1744 he was ordained to the Roman Catholic priesthood
He produced a precursor of atomic theory and made many contributions to astronomy, including the first geometric procedure for determining the equator of a rotating planet from three observations of a surface feature and for computing the orbit of a planet from three observations of its position. In 1753 he also discovered the absence of atmosphere on the Moon.[4
Other Jesuit Astronomers of the 1700’s
- Valentin Stansel (1621 – 1705), Czech astronomer in Brazil, who discovered a comet, that after accurate positions were made via F. de Gottignies in Goa, became known as Estancel-Gottignies
- Paolo Casati (1617-1707), Italian scientist, notable in meteorology and speculation on Vacuums.
- Franz Reinzer (1661-1708), Austrian writer who wrote about comets, meteors, lightning, winds, fossils, metals, etc.
- Eusebio Kino (1645 – 1711) Trentino missionary, mathematician, cartographer and astronomer who drew maps based on his explorations first showing that California was not an island as then believed and who published an astronomical treatise in Mexico City based on his observations of the Kirsch Comet.
- Giuseppe Asclepi (1706-1776), Italian astronomer.
- Christian Mayer (1719-1783), Czech astronomer known for his pioneering study of binary stars.
- Roger Joseph Boscovich (1711–1787), an Ragusan Polymath famous for his atomic theory in part. Also for devising perhaps the first geometric procedure for determining the equator of a rotating planet from three observations of a surface feature and for computing the orbit of a planet from three observations of its position.
- João de Loureiro (1717–1791), Portuguese mathematician and botanist active in Cochinchina.
- Maximilian Hell (1720-1792), Hungarian director of the Vienna Observatory who wrote astronomy tables and observed the Transit of Venus.
- Ignacije Szentmartony (1718-1793), Croatian who ‘obtained the title of royal mathematician and astronomer’ and used his astronomical knowledge in mapping parts of Brazil.
Someday someone will write a pathology of experimental physics and bring to light all those swindles which subvert our reason, beguile our judgement and, what is worse, stand in the way of any practical progress. The phenomena must be freed once and for all from their grim torture chamber of empiricism, mechanism, and dogmatism; they must be brought before the jury of man’s common sense.— Johann Wolfgang von Goethe
The 1822 Treaty of Verona
(between Austria, France, Prussia and Russia) the Jesuits agreed to smash the US Constitution and suppress the freedom of the US. Their methods included destroying free speech, destroying and suppressing the press, universal censorship, sustaining the cooperation of the Pope and clergy to use religion to help keep nations in passive obedience and financing wars against countries with representative governments.
The monarchs who signed this treaty were ultimately deposed. Most of these families are very wealthy and may be more powerful today than when they sat upon thrones. They are known collectively as the Black Nobility. Privately these families refuse to recognize any right to rule except their own. The fact that this treaty was made long ago does not mean it is void. The treaty was placed in the Congressional Record on April 25, 1916 by Senator Owen.(source)
The threat under the secret treaty of Verona to suppress popular governments in the American Republics is the basis of the Monroe doctrine. This secret treaty sets forth clearly the conflict between monarchial government and popular government and the government of the few as against the government of the many.
The Holy Alliance made its powers felt by the wholesale drastic suppression of the press in Europe, by universal censorship, by killing free speech and all ideas of popular rights, and by the complete suppression of popular government.
The Holy Alliance having destroyed popular government in Spain and in Italy, had well-laid plans also to destroy popular government in the American colonies which had revolted from Spain and Portugal in Central and South America under the influence of the successful example of the United States.
It was because of this conspiracy against the American Republics by the European monarchies that the great English statesman, Canning, called the attention of our government to it, and our statesmen then, including Thomas Jefferson, took an active part to bring about the declaration by President Monroe in his next annual message to the Congress of the United States that the United States should regard it as an act of hostility to the government of the United States and an unfriendly act if this coalition or if any power of Europe ever undertook to establish upon the American Continent any control of any American Republic or to acquire any territorial rights.
This is the so-called Monroe doctrine.
Fr. Secchi was born in Reggio Emilia, where he studied at the Jesuit gymnasium. At the age of 16, he entered the Jesuit Order in Rome. He continued his studies at the Roman College, and demonstrated great scientific ability. In 1839, he was appointed tutor of mathematics and physics at the College. In 1841, he became Professor of Physics at the Jesuit College in Loreto. In 1844, he began theological studies in Rome, and was ordained a priest on 12 September 1847. In 1848, due to the Roman Revolution, the Jesuits had to leave Rome.
Fr. Secchi spent the next two years in the United Kingdom at Stonyhurst College, and the United States, where he taught for a time at Georgetown University in Washington, DC. He also took his doctoral examination in theology there.
Sidebar: Vastly Changing Distances to the Sun or How Wrong They’ve Been.
Johannes Kepler estimated 12 mill miles away
Isaac Newton, “it matters not if its 24 or 56 mill. miles away, science will find the answer.”
Distance Story 93 million miles away.
Royal Astronomical Society
The Royal Astronomical Society (RAS) is a learned society that began as the Astronomical Society of London in 1820 to support astronomical research (mainly carried on at the time by ‘gentleman astronomers‘ rather than professionals). It became the Royal Astronomical Society in 1831 on receiving its Royal Charter from William IV.
India gets Astronomy with help of Jesuits
G.V.Juggarow Observatory, established in 1840, was the earliest private modern Indian as-tronomical observatory that functioned till the turn of the twentieth century. Jesuit priest-astronomers were the real initiators of telescopic astronomy in India, particularly FatherJ.Richaud who carried out systematic observations of binary stars, comets, zodiacal light,dark clouds etc. at Pondicherry from 1689 (Rao et al 1984) http://arxiv.org/ftp/arxiv/papers/1103/1103.5104.pdf
Other 19th Century Jesuit Astronomers
- Franz de Paula Triesnecker (1745-1817), Austrian astronomer.
- Angelo Secchi (1818-1878), Italian astronomer who discovered the existence of solar spicules and drew an early map of Mars.
- Benito Viñes (1837-1893), Spanish scientist who led the Bethlehem College Observatory in Havana and was known as “Father Hurricane” because of his research on hurricanes.
The “consensus” that Catholic faith is somehow opposed to science, and has stifled and restrained it, is a long-held bias based on prejudice and not evidence. At times in the history of science and faith, the truth has been just the other way around.
Big Bang Creationist: FATHER GEORGES LEMAITRE SCHOOLS EINSTEIN..”
It was about the Belgian Jesuit priest, mathematician and physicist, Father Georges Lemaitre, originator of the Big Bang theory and the man who changed the mind of Albert Einstein on the true origin of the created Universe.
“The term “big bang” was coined by a bitter opponent of the theory: the English astronomer and physicist Fred Hoyle. In 1950, Hoyle gave a series of Saturday night radio talks for the BBC on “The Nature of the Universe.” Detesting the notion that the universe had a beginning, he held a different theory, according to which the universe is eternal. In his concluding talk, Hoyle, striving for a visual image of the theory he opposed, called it “this big bang idea.” The name gradually stuck, without any of the pejorative overtones Hoyle may have intended.” (Source)
At the very end of that post, there is a photograph of Father Lemaitre with Albert Einstein who once told Father Lemaitre in response to his theory about the Big Bang, “Your math is perfect, but your physics is abominable.”
Six years later, in 1933, Einstein declared that his own “Cosmological Constant” – his theory that the Universe always existed – was his greatest error, and he called Father Lemaitre’s work “the most beautiful and satisfactory explanation of creation I have ever heard.” For Einstein to use the “C” word – Creation – was a pivotal moment in modern science.
In 1941, he was elected member of the Royal Academy of Sciences and Arts of Belgium, and he received the very first Eddington Medal awarded by the Royal Astronomical Society in 1953.
The story of Fr. Lemaitre’s role in modern cosmology was often stifled by science because he was a Catholic priest.
In January 1933, Lemaître and Einstein, who had met on several occasions—in 1927 in Brussels, at the time of a Solvay Conference, in 1932 in Belgium, at the time of a cycle of conferences in Brussels and lastly in 1935 at Princeton—traveled together to the U.S. state of California for a series of seminars.
Newspapers around the world called him a famous Belgian scientist and described him as the leader of the new cosmological physics.
Origins of Man as Told by Jesuits
Pierre Teilhard de Chardin (1881–1955), French palaeontologist and philosopher involved in the discovery of the so-called Peking Man. Teilhard was praised by Pope Benedict XVI, and he was also noted for his contributions to theology in Pope Francis‘ 2015 encyclical Laudato si’.
Lyman Spitzer — Class of 1935
Skull and Bones Yale Member
A noted astrophysicist, Spitzer dreamed up the idea behind the Hubble Space Telescope — the first method to observe space uninhibited by the Earth’s atmosphere. He also lobbied NASA and Congress for the funds and oversaw production of the actual machine.
After 44 years, NASA launched the Hubble into space. The Hubble remains there today, providing stunning images of the universe and making new discoveries.
NASA named the Spitzer Space Telescope in his honor.
Beginning in 1887, U.S. scientist Albert Abraham Michelson began to do experiments to try and detect the motion of the earth around the sun by using the speed of light as a barometer. This experiment was called the Michelson-Morley experiment and was famous for one thing: ALL THE RESULTS WERE NEGATIVE.
Dr. Albert Michelson
Professors Michelson and Morley were the 2 halves of the famous team who conducted experiments on the speed of light.
Dr. Albert Michelson used an interferometer for measuring the speed of light.
At that time, all scientists believed in the existance of an invisible ether which carried light waves.
They supposed that the ether would cause a drag on the speed of light as the earth raced around the sun at 30 km/s or over 108,000 km per hour.
To their astonishment, no variation in the speed of light was found.
An interferometer for measuring the motion of the earth around the sun used by Dr. Michelson in 1887.
Stellar interferometer mounted on top of the 100-inch telescope on Mount Wilson Observatory.
After serving as professor at Clark University at Worcester, Massachusetts, from 1889 until 1892, Michelson was appointed professor and the first head of the department of physics at the newly organized University of Chicago. With his big salary from Rockefeller, and the Nobel Prize money, Michelson was content not to make WAVES about the non-motion of the earth.
In 1924, Michelson received a huge grant from the university in order to determine the ROTATION of the earth by using the speed of light. This test consisted of a mile long 12 inch tunnel with all the air removed. As expected, all the results were NEGATIVE.
By 1900, the proof of the non-motion of the earth did not cause Michelson to get on his knees and acknowledge that the Bible was correct after all. Had he and the “scientific” community done so, the whole evolutionary house of sand would have come crashing down. That is the last thing that the Jesuits wanted. Their answer was to use Albert Einstein to invent a completely new theory of the universe called RELATIVITY. So now the scene shifts from the U.S. to Switzerland and an obscure clerk in the Swiss Patent Office named Albert Einstein.
Einstein and Michelson at the Mount Wilson Observatory in 1931.
“Today’s scientists have substituted mathematics for experiments, and they wander off through equation after equation, and eventually build a structure which has no relation to reality.”