The accuracy of the numerical values he observed and calculated in the theory of celestial movement is amazing. For example, he got the sidereal year in 365 days, 6 hours, 9 minutes and 40 seconds, which is about 30 seconds more than the exact value now, and the error is only one in a million; The average distance from the moon to the earth he got is 60.30 times that of radius of the earth, and the error is only five ten thousandths compared with the current 60.27 times.
During his stay in Italy, Copernicus became familiar with the theory of the Greek philosopher Aristakes (the third century before), and he was convinced that the Heliocentrism of the earth and other planets revolving around the sun was correct. When he was about 40 years old, he began to distribute a short manuscript among his friends, initially expounding his views on Heliocentrism. After years of observation and calculation, Copernicus finally completed his masterpiece "The Theory of the Operation of Celestial Bodies".
1533, 60-year-old Copernicus made a series of speeches in Rome and put forward the main points of his theory, which was not opposed by the Pope. But he was afraid of church opposition, and even after his book was finished, he still dared not publish it. It was not until he was nearly 70 years old that he finally decided to publish it. 1543 On the day of his death on May 24th, I received a book written by him from the publishing house.
In the book, he correctly discusses that the earth moves around the axis; The moon goes around the earth; The fact that the earth and all other planets revolve around the sun. But he also seriously underestimated the size of the solar system like his predecessors. He thinks that the orbit of a star is a series of concentric circles, which is of course wrong. The mathematical operations in his theory are both complicated and inaccurate. However, his book immediately attracted great attention and prompted other astronomers to observe the motion of planets more accurately, the most famous of which was the great Danish astronomer Taishou Brejo. Kepler finally deduced the correct law of star motion according to the observation data accumulated by the satrap.
This is an unheard-of theory that opens a new era, which is undoubtedly a blow to Ptolemy's geocentric theory, which has been regarded as a thousand-year conclusion by academic circles.
Although Aristakes suggested that Heliocentrism was earlier than Copernicus 1700 years ago, actually Copernicus got this reputation. Aristakes just made a guess by inspiration, without discussing it in detail, so his theory is useless in science. After Copernicus solved the mathematical problems in the conjecture one by one, he turned it into a useful scientific theory-a theory that can be used to make predictions. By examining the observation results of celestial bodies and comparing them with the old theory that the earth is the center of the universe, you will find its great significance.
Obviously, Copernicus' theory is a revolution in human understanding of the universe, which has greatly changed people's whole world outlook. But when evaluating Copernicus' influence, we should also note that astronomy is not widely used like physics, chemistry and biology. Theoretically, even if people don't know anything about the knowledge and application of Copernicus, they will make TV sets, cars, modern factories and the like. But it is inconceivable not to apply the theories of Faraday, Maxwell, lavoisier and Newton.
Only considering the influence of Copernicus theory on technology will completely ignore its real significance. Copernicus's book is an indispensable prelude to the work of Galileo and Kepler. They became Newton's main predecessors again. It was the discovery of these two things that enabled Newton to determine the laws of motion and gravity.
Copernicus' scientific achievements are the product of his time, which in turn promoted the development of the times.
15 to the 6th century, Europe was in a critical period of transition from a feudal society to a capitalist society. During these two hundred years, great changes have taken place in society. /kloc-Before 0/4th century, Europe was full of small divided city-states. Later, with the rise of urban industry and commerce, especially the development of mining and metallurgy, many emerging big cities appeared, and small city-states tended to unite to form a country. By the end of 15, many countries are basically centralized monarchies. At that time, there were not only big cities like Krakow and Poznan in Poland, but also many cities with prosperous handicrafts. Warsaw, 1526 merged into Poland and became an important commercial, political, cultural and geographical center. 16 became the capital of Poland.
Consistent with this political and economic change, it has also begun to be reflected in culture and science. At that time, Europe was "the unity of politics and religion", the Vatican controlled many countries, the Bible was declared as the supreme truth, all doctrines that violated the Bible were denounced as "heresies", and all those who opposed theocracy were burned at the stake. For their own survival and development, the emerging bourgeoisie set off a struggle against feudalism and church superstition, and humanism came into being. The fighting weapons they used were ancient Greek philosophy, science, literature and art that were not polluted by theology. This is the Renaissance that shocked Europe. The Renaissance first took place in Italy and soon spread to Poland and other European countries.
At the same time, commercial activities also promote the development of foreign trade. Driven by the "golden" spell, many European adventurers sailed to Africa, India and the whole Far East. Ocean voyage needs rich knowledge of astronomy and geography, and the observation data accumulated in practice makes people think that the popular "static and dynamic" cosmology at that time is doubtful, which requires people to further explore the mysteries of the universe, thus promoting the development of astronomy and geography. 1492, Columbus, a famous Italian navigator, was first called mechanical Jiao Lexun. From 15 19 to 1522, Magellan and his companions circled the earth once, which proved that the earth was round and made people really understand it.
Under the strict control of the church, a vigorous religious revolution also took place in the Middle Ages. Because many Catholic doctrines do not conform to the teaching of the Bible, plus too many popes' personal wishes and the achievements of various theologians, many believers began to question the Catholic doctrines and organizations and launched the action of returning to the Bible.
Jan Huss (1369 ~ 14 15), a Czech patriot and president of Prague University, publicly condemned the oppression and exploitation of the Czech Republic by German feudal lords and the Catholic Church at the religious conference in Constantinople. Although he was burned at the stake by the reactionary church, his revolutionary activities aroused strong repercussions in society. Czech farmers held an uprising under the banner of Hus, and this movement also spread to Poland. 15 17. In Germany, Martin Luther (1483 ~ 1546) opposed the sale of atonement symbols by the church and publicly broke with the Pope. 152 1 year, Luther exposed the sins of the holy see in Vorm's parliament and put forward the idea of establishing Protestantism. Protestantism is supported by many countries, and Poland is also deeply influenced.
In such an era of great change and turmoil, Copernicus was born in Torun City on the Vistula River on February 9, 473. His father is a wealthy businessman and a member of parliament. He has a brother and two sisters. When Copernicus/Kloc-0 was 0/0 years old, his father died, and he was sent to the home of his uncle and archbishop Kasch to raise him. Wukash is a humanitarian. He was closely related to the progressive Polish intelligentsia at that time, and was close friends with the outstanding Italian revolutionary and humanist Filippo BuOnac. When Copernicus was in middle school, Vukash took him to a humanist party. 149 1 year, Copernicus went to Cracow University to study astronomy and mathematics according to his uncle's arrangement.
At that time, Poland had produced some famous astronomers, such as Ma Qing Klohr, who wrote the book 1450 Revised Catalogue of alfons and gave speeches in many countries. Another example is the famous astronomer Wojciech, who compiled an astronomical calendar. He lectured at Krakow University and was a professor of mathematics and astronomy while studying in Copernicus. Copernicus's "Heliocentrism" was conceived when he was studying in Krakow University.
Although the Bible does not cover all kinds of astronomical knowledge such as "the earth is the center of the universe" and "the sky is round and the earth is round". But in the Middle Ages, astronomy also had an official argument, which extended to ancient Greece and was framed by scholastic theologians. In order to consolidate feudal rule, the inquisition of the Catholic Church burned many precious scientific works, sometimes burning 20 cars a day. 1327, Italian astronomer Tseko Dascori was burned alive. His "crime" is against the teaching of the Bible, proving that the earth is spherical and there are people in the other hemisphere.
Great theory
In that era when science became the handmaid of theology, many theories were distorted and castrated to serve feudal rule. In medieval Europe, few people knew the true content of ancient scientific classics. At this time, an important task for scientists is to explore the ancient cultural heritage.
Ptolemy, a great astronomer in ancient Greece, summed up the observation results of predecessors for 400 years in the second century A.D., wrote a book "Selected Astronomies" (that is, "Great Theory") and put forward the theory that "the earth is the center of the universe". This theory has been accepted by people and circulated for 1400 years.
Ptolemy believed that the earth was motionless at the center of the universe, and all celestial bodies, including the sun, revolved around the earth. However, in the observation, people found that the operation of celestial bodies has a phenomenon of good and bad, fast and slow. In order to explain the round-trip phenomenon, Ptolemy said that it is not the celestial body itself that makes a balanced motion around the earth, but the center of the round wheel where the celestial body runs. He called the round wheel around the earth "even wheel" and the smaller round wheel "present wheel". In order to explain the phenomenon of fast and slow, he added some auxiliary "current wheel" besides the main "current wheel" and adopted the word "virtual wheel" to make the unbalanced movement of the center of "current wheel" seem to be "balanced" from the center of "virtual wheel". Ptolemy thus gave a far-fetched explanation to the ancient observation data.
However, in the following centuries, a large number of observation data accumulated, Ptolemy's "current round" was not enough to explain the operation of celestial bodies, and more and more "current rounds" were needed. Later scholars devoted themselves to this "mending" work, which made Ptolemy's system more and more complicated, and the research on astronomy also stayed at this level.
The statement that "the earth is the center of the universe" is the basis of "the sky of theologians". Medieval theologians praised Ptolemy's conclusion, but concealed Ptolemy's methodology: Ptolemy established a set of gifted mathematical theories, trying to discover the causes and laws of celestial bodies by means of observation, calculus and reasoning with human wisdom, which is a crucial part of Ptolemy's theory. Therefore, Ptolemy's geocentric theory coincides with theologians' view of the universe, but they are essentially different. One is a wrong conclusion in science, and the other is a big lie that fools human beings and tries to make feudal rule eternal. Copernicus made a correct evaluation of this. He said, "You should shoot your arrow in the same direction as Ptolemy, but the material of the bow and arrow should be completely different from his."
Copernicus studied Ptolemy's works very diligently. He saw the contradiction between Ptolemy's wrong conclusion and scientific method. It was Copernicus who discovered the root of Ptolemy's mistake and the truth.
Copernicus realized that the development of astronomy should not continue to "repair" Ptolemy's old theory, but should discover a new theory of the structure of the universe. He made an analogy: those scholars who stood in Ptolemy's position made individual and isolated observations and pieced together some overlapping "wheels" to explain the phenomenon of the universe, just like someone looking around for limbs and heads and describing them, and the result was not like a person, but like a monster.
Copernicus began to think about the operation of the earth when he was studying at Krakow University. In the preface of "Celestial Movement", he said that predecessors had the right to fabricate round wheels to explain the starry sky phenomenon, and he also had the right to try to find a more appropriate way to explain celestial movement than round wheels.
The purpose of Copernicus's observation of celestial bodies is contrary to that of scholars in the past. He didn't force the phenomena of the universe to obey Copernicus's famous saying, "Phenomena guide astronomers." The question he wants to answer is precisely the phenomenon of the universe, and the observed phenomenon confirms a newly founded theory-"the sun center" theory. His targeted observation eventually led to a radical change in astronomy.
Copernicus' observation made a good start at Krakow University. He used the famous astrologer Ma Qing Blitcha (about 1433 ~ 1493) to observe the eclipse and study the boundless starry sky.
Copernicus stopped studying in Cracow University for three years and went to Italy to study "Church Law". It was his uncle Wukash's idea. Because at that time, the Cross Knights based in northern Poland often violated the border and did bad things. To fight against them, someone must be proficient in the "church law." Copernicus believed that it was an unshirkable responsibility to fight against the Knights Cross. He said: "There is no more solemn obligation than the obligation of the motherland. It is not hesitant to give one's life for the motherland." So he agreed to Wukash's suggestion. In order to get the travelling expenses abroad and the living expenses for studying abroad for a long time, he once again accepted the arrangement of his uncle and decided to hold the post of the church for life. /kloc-in the autumn of 0/496, Copernicus put on his robe and set off for Italy.
He studied "canon law" at the University of Bologna in northern Italy, and studied astronomy hard at the same time. Here, he met Dominique Maria, a famous astronomer at that time, and studied the theory of the moon with him. He began to expose the contradiction between Ptolemy's theory and objective phenomena with practical observation. He found that Ptolemy's explanation of the moon's motion, as Reggie Monte pointed out, would surely lead to an absurd conclusion: the volume of the moon sometimes expands and sometimes contracts, the full moon is the result of expansion, and the new moon is the result of contraction. 1497 On March 9th, Copernicus and Maria made a famous observation together. That night, the night was clear, the stars were shining and a crescent moon was floating in space. Standing on the tower of St Joseph's Church, they observed the bright star "Bi Su Wu" of Taurus to see how it was covered by the waning moon approaching. When "Su Biwu" met the moon, there was still some gap, and "Su Biwu" soon disappeared. They accurately measured the time when Bi Su Wu disappeared, and calculated irrefutable data, proving that those gaps were all part of the moon's lack of food. "Bi Su Wu" was covered by the shadow of the moon itself, and the volume of the moon did not shrink. Thus Copernicus opened a gap in Ptolemy's geocentric theory.
/kloc-in 0/500, Copernicus went to Rome as a math teacher due to financial difficulties. The following summer, Copernicus returned to China, and later went to Padua to study medicine because of the funding of the church. 1503, Copernicus received a doctorate in church law from Farallo University.
At this time, Copernicus also made great efforts to study ancient books, with the aim of seeking reference materials for Heliocentrism. He read almost all the literature he could find. Later, he wrote: "The more I seek help in my own work, the more I am with the people who founded this subject. I am willing to combine my findings with their findings. " When he was studying ancient books, he wrote some bold ideas like this:
"The sky, the sun, the moon, the stars and everything in the sky are still. There is nothing moving in the universe except the earth. The earth rotates around its axis at a great speed, creating a feeling that the earth is still and the sky is turning. "
"Most scholars think that the earth is stationary, but Philovos and Pythagoras told it to revolve around the fire."
"In the center of the planet stands a huge and majestic sun, which is not only the master of time, but also the master of the earth, and the master of the stars and the sky."
The outstanding opinions of these ancient scholars were considered to be "deviant" at that time, but for Copernicus, they were like lighthouses flying in the night, illuminating his direction.
1506, Copernicus ended his ten-year study abroad career in Italy and set off for home.
The birth of "surgery"
Copernicus left Italy on a rainy day. At that time, there was a scene of a comet breaking the sky, and the plague was widespread. Just then, Pope Alexander accidentally drank the poisoned wine of murder and died. The Italian church took the opportunity to put forward various "warnings", swindling and fooling people. When Copernicus returned to Poland, there was another rare astrology in the sky, and the church was in full swing, making the capital Krakow smoky.
It turned out that the church announced that there would be four consecutive visions of Saturn and Jupiter "meeting" in the sky, saying that this was a serious warning from heaven to the world. There will be false prophets in the world, and floods and plagues will follow, causing social unrest and national collapse. These rumors are disturbing, and rich people are desperately looking for fun, hoping to get rid of their fear of the future; In order to buy the "atonement symbol" from the church, the poor have nothing and it is difficult to survive. The sky has always been a cash cow for the church to extort money. They put "the place in heaven" in their wallets and sell a lot of "atonement symbols" to collect people's wealth. At that time, the famous Polish inquisitor Tiezheer said that those who honor his money can eliminate disasters, and even the dead can make amends. His mantra is: "Money goes to the holy cabinet, and the soul goes to heaven!" "
At this time, Copernicus and his friends were still studying the "rendezvous" of two stars in Krakow. Copernicus found that there were data errors in the church's statement, which was obviously a myth that confused people. Therefore, he and his friends decided to observe in different areas in order to expose the evil tricks of the church together.
When the fourth "rendezvous" happened, Copernicus was in the bishop's residence of his uncle Vukash in Fort hoels, presiding over the struggle with the Knights Cross. Despite his busy government affairs, Copernicus insisted on observing the stars.
The observation results confirmed Copernicus' foresight. The date of the "rendezvous" is inconsistent with what the church said, but it is consistent with Copernicus' calculation-it is more than a month ahead of schedule. Copernicus's friends also observed the same astrology.
In Holsburg, due to the constant urging of friends, Copernicus wrote down the outline of his "Heliocentrism", took a simple name, called "Hypothesis on the Operation of Celestial Bodies", and copied it to several of his confidants. It announced: "All celestial bodies revolve around the sun, and near the sun is the center of the universe. The earth moves in a circle like other planets. It rotates around the earth's axis day and night and once a year around the sun ... "
What Copernicus announced was the outline of a huge theoretical system, which caused many controversies among friends attending the party. Copernicus answered many questions. At the end of the debate, he quoted Cicero, a great Roman poet: "Nothing can compare with the integrity of the universe and the purity of virtue." He used this sentence to express a belief that the universe is complete, symmetrical and harmonious, with understandable laws and order.
On the Hypothesis of the Movement of Celestial Bodies is the first cornerstone of Copernicus's theory, but a great deal of preparatory work is needed to build a magnificent theoretical building on this cornerstone.
15 12 years, Ukash died of illness, and Copernicus left Fort hoels and moved to Furong Fort, the temple where the parish cathedral is located. Furong Fort is a small fishing port near the Baltic Sea. After Copernicus settled in Fort Furong, he bought a watchtower in the castle. The watchtower was originally used for fighting, and the triangular roof tilted forward, almost sticking out of the fence. There are three windows on the top floor of the building, which is Copernicus' studio. The two floors below are bedrooms, each with a gun hole for shooting. From the window on the top floor, you can observe the sky in all directions. When the roof interferes with observation, the terrace outside becomes his observation platform. He lived here until his death.
At this time, Copernicus has named his future work "Operation". In his view, sports is the true meaning of life-sports exist in everything, from the sky to the deep sea. Nothing is static, everything is growing, changing and disappearing, and it will continue from generation to generation. The book Operation is to reveal the most essential secrets of nature. This view of Copernicus affirms the existence and regularity of the objective world and shines with the brilliance of simple materialist philosophy.
Copernicus made many indirect observations on the shape of the earth. As early as 1500,165438+10.6, he observed the eclipse on a high mountain in the suburb of Rome and studied the arc shadow cast by the earth on the surface of the moon, thus confirming Aristotle's assertion that the earth is spherical. When he settled in Fort Furong, he stood on the shore of the Baltic Sea many times to observe sailboats. On one occasion, Copernicus let a sailboat tie a luminous object to the masthead. He stood on the shore and watched the sailboat sail slowly. Describing this observation, he said, "As the sailboat goes away, the glowing objects gradually land and finally disappear completely, just like the sun is setting." This observation led him to a conclusion: "Even the sea surface is round."
On the wet and foggy shores of the Baltic Sea, there is not a cloud in the sky on a cold winter night, and the stars are shining with dazzling cold light in the blue sky. Copernicus always took advantage of this rare opportunity to put on a fur coat, tighten the hood, and move the instrument to the terrace of the arrow tower for overnight observation. All the instruments he uses are made by himself, and there are three kinds. The "three-arc instrument" for measuring the distance between planets is made of Chinese fir poles, marked with ink and engraved with collimators. The "star catcher" for measuring the position of the moon and planets is a circle formed by six tree strips. The quadrant for measuring the height of transit is a large square plate with a graduated wooden ring in the upper right corner. There is a "level" on the shelf, which is actually just a glass tube filled with water. Observing the solar eclipse was originally to observe the reflection in the water. In order to reduce the trouble of carrying water to the arch tower, he broke the routine and reflected the shadow to the wall with a perforated window guard. Copernicus made more than 50 recorded observations before and after Furong Bao, including the positions of solar eclipse, lunar eclipse, Mars, Venus, Jupiter and Earth star. It was not easy for these observations to be so accurate before the invention of the telescope. No wonder many outstanding astronomers later admired them.
15 16 autumn, the Knights Cross, based in northern Poland, invaded the border many times. Relying on Copernicus' reputation and talent, the church appointed him as the religious production director of Alstin to deal with the terrible enemy of the army.
It was in those fiery years that Copernicus began to write his immortal work Operation. He built a simple observation platform on the sentry tower of Alstin Castle, and took some necessary information with him. At that time, the whole book had an outline, and it was planned to be written in eight volumes (six volumes at the time of publication). The first volume has been written, but the progress is slow, because Copernicus must go all out to deal with the enemy's provocation and harassment.
15 19 autumn, Copernicus resigned as the director of education and production, returned to furongbao, and devoted all his energy to writing Operation. However, the storm of war soon swept here, and Furong Bao fell into the encirclement of the Knights Cross. The enemy burned and looted, cut off food and grass, and tried to force the defenders to surrender. At this time, the church priests all fled, and some even defected to the enemy. But Copernicus stayed in the city and supported the defenders with the residents. They also built canals and water conservancy projects. The sluice and water mill designed and built by Copernicus were of great significance to supporting the war and prospering the economy at that time.
The following autumn, Copernicus once again served as the production manager of Alstin. At this point, the cross knight has invaded many castles nearby, and it is almost to Alstin. Copernicus took out all the money he kept to support the battle, personally deployed the defense and bid for the city. The cross knight attacked the city with incendiary bombs, and Copernicus asked people to cover the enemy's incendiary bombs with soaked leather. After five days and nights of fierce fighting, the city still stands. The Grand Duke of the Cross, Huo Henglun, became angry from embarrassment and sent someone to burn his books, manuscripts and documents at Fort Furong. But Copernicus always stuck to the castle, and Huo Henglun had no choice but to quit and agreed to a truce. After the war, Polish King Zygmont rewarded his achievements and appointed Copernicus as the CEO of Alstin.
1In the autumn of 525, Copernicus' work on "operation" was fully launched in Furong Fort. At this moment, a housekeeper named Anna came from the watchtower of Copernicus. Anna comes from a noble family and has a refined temperament. She sincerely admired Copernicus, resolutely abandoned secular prejudice and lived with Copernicus, who was deprived of the right to marry by the church. With Anna's help and concern, Copernicus soon piled the manuscripts on his desk.
The first volume of Operation gives a bird's eye view of the structure of the universe. At the beginning of the argument, Copernicus cited many observation data to prove that the earth is round. Then he pointed out the reason why the earth is round. He said: "all objects tend to condense themselves into this sphere, just like the same drop of water or a drop of other fluids, they always try their best to form an independent whole." "The reason why an object is spherical lies in its weight, that is, the particles or atoms of the object themselves condense into a whole and shrink into a sphere." His answer to this question opened the way for Newton to discover gravity more than a hundred years later.
He also wrote a passage about atoms: "The so-called atom is the smallest particle that can't be divided. They overlap or multiply together, but because they are invisible, they will not immediately form visible objects; However, their number can be increased to such an extent that it can be accumulated to a visible scale. " This passage is aimed at the argument of idealists, who deny the existence of atoms on the pretext of invisibility. Encouraged by idealists, this passage was deleted when Running was published. For the next 300 years, there was not a word in the third edition.
The second volume of Operation introduces the relevant mathematical principles, in which the calculation method of plane triangle and spherical triangle was initiated by Copernicus. What we are talking about here is the rule of triangle, that is, the rule of calculating other sides and angles from some known sides and angles of a triangle. This includes a plane triangle with three straight lines on the sphere and a spherical triangle with three arcs.
The third volume is the catalogue. The fourth volume introduces the earth's orbit around the axis and its annual operation.
The fifth volume discusses the moon, the satellite of the earth. Copernicus attached great importance to the study of the moon, especially the solar eclipse. He believes that during the eclipse, people can get hints about the real structure of the universe from the relative positions of the moon, the earth and the sun. "Because, when the rest of the universe is clear and full of sunshine, the so-called night is just the shadow of the earth itself. This shadow forms a cone with a sharp end. When the moon touches this shadow, it will lose its luster. When it appears in the center of the shadow, its position is just opposite to the sun. "
His last volume will write a theory about planetary motion.
The immortal contribution of operational research is that it explains the apparent motion of planets according to the principle of relative motion. Before Copernicus, this principle has never been elaborated in such detail, and no one has drawn such an important conclusion from this principle.
Copernicus put it this way: "The position changes of all objects we observe are not caused by the movement of the observed object, nor by the movement of the observer, nor by the inconsistent changes between objects and people." Because the earth is the base for us to observe its movement, the movement we observe in the sky, such as the movement of the sun, may be the surface movement and the illusion caused by the movement of the earth itself, while the movement of other celestial bodies may be the result of the inconsistency between that celestial body and the movement of the earth. Therefore, if we admit that the earth rotates from west to east, it will obviously feel as if the sun, moon and stars are rising and setting. "
Copernicus wrote: "This is just as Virgil clarified." "He asked Inis.
We are driving out of the port, while the land and the city are retreating. Because when the ship passes through the calm sea, everyone on board seems to be moving with the ship's movement, but in the opposite direction-they feel that they and everything around them have been left in the original place. There is no doubt that this same situation may appear in the phenomenon of earth movement and create the impression that the whole universe is rotating. "
Copernicus also argued: "Although the earth is a huge sphere, it is insignificant compared with the universe." He noticed that the horizon divided the celestial sphere into two equal halves, and used this phenomenon to confirm the assertion that the universe is infinite. "According to this conclusion, we can see that the universe is immeasurable compared with the earth and is an endless behemoth." Copernicus also believed that the sun was the relatively stationary center of the earth.
Copernicus's achievement lies in that he overthrew the geocentric theory that ruled astronomy for thousands of years with the scientific theory of the sun center. This is a major revolution in astronomy, which has caused the innovation of human cosmology.
Difficult publication
From 1506 to 15 15, Copernicus had written the outline of "Heliocentrism"-the hypothesis about the motion of celestial bodies, but the book "Motion" was not published until 1543 after his death. He's here.
In the preface of the book Operation, he mentioned this situation. He said, "Have I hesitated in the long years?" ? /ca & gt;