Nicolaus Copernicus, whose brief biography will be discussed in this article, is an outstanding scientist. He is not only a great astronomer who created the heliocentric Copernicus, he was a good mechanic, mathematician, canonist, and also the man who laid the foundation for the real first earthly civilization in the entire history. The scientist had at his disposal only primitive instruments, made by him with his own hands. But this did not stop him from making a number of discoveries during his thirty years of observations of the celestial sphere.

Copernicus, whose brief biography demonstrates great power the mind of an ordinary person, was born into a merchant family in 1473 in the city of Torun (Poland). His father died early, so the boy was raised by his uncle, Bishop Lukasz Wachenrode. The future scientist studied in Krakow and Padua and studied astronomy, medicine, and law. After training, he was elected a canon, worked as a doctor and secretary of his uncle at his residence (Lidzbark).

Copernicus, whose short biography is not only white stripes, had an inquisitive mind and knew how to observe. After the death of his tutor, he moved to Frombork, where he settled in a secluded tower, which still stands today. Nikolai set up an observatory in his house, so we can say that he made his discoveries exclusively at home. In addition, he served as a canon, treated the sick for free, developed a coin system, which was later introduced in Poland, and built a hydraulic machine. The great astronomer stayed in this place for the rest of his life. But this did not prevent him from actively participating in the life of his country: more than once he was entrusted with important tasks, which he coped with glory. For example, he negotiated between warring monarchs and corresponded with the best minds of that time.

Nicolaus Copernicus made revolutionary discoveries for his time. At first, he only wanted to improve the heliocentric system developed by Ptolemy, which he outlined in the Almagest. However, his work was significantly different: Nikolai more accurately determined the routes and also added his own comments to it. Thus, the Polish astronomer turned the Earth from, as previously thought, into one of the ordinary planets solar system. His tables were significantly more accurate than Ptolemy’s, which had a positive effect on the development of navigation. He outlined all his observations and calculations in the work “On the Revolutions of the Celestial Spheres”, small in volume, but with very important content.

Copernicus, whose brief biography cannot but delight his contemporaries, published his work only in 1543, almost before his death. This saved him from the persecution to which his followers and disciples were later subjected. He quietly left this world and was buried in the Church of St. John in the city of Torne.

The Catholic Church for a long time considered Nicholas's work to be heresy and did not recognize it. However, the revolutionary teachings were continued and further revealed by Galileo Galilei. Copernicus, whose brief biography is outlined above, was awarded a monument only in the nineteenth century. But now they are available not only in Krakow, Warsaw, Thorn, Regensburg, but all over the world.

(1473-1543) Polish astronomer

Nicolaus Copernicus was born in the Polish city of Toruń into the family of a merchant who came from Germany. He was orphaned at an early age and raised in the house of his uncle, the famous Polish humanist Bishop Lukasz Wachenrode. In 1490, he graduated from the University of Krakow and became a canon of the cathedral in Frombork, a fishing town at the mouth of the Vistula. He remained in this position (with interruptions) until the end of his life.

In 1496, Copernicus went on a long journey to Italy. He first studied at the University of Bologna, where he became a Master of Arts and also studied ecclesiastical law. It was in Bologna that he developed an interest in astronomy, which determined his scientific destiny.

Then he's on a short time returns to Poland, but soon goes back to Italy, where he studies medicine at the University of Padua and receives a doctorate in theology from the University of Ferrara. Nicolaus Copernicus returned to his homeland in 1503 as a comprehensively educated man. He settled first in the city of Lidzbark, where he served as a secretary and doctor for his uncle, and after his death he moved to Frombork, where he lived until the end of his life.

Nicolaus Copernicus was an amazingly versatile scientist. Simultaneously with his studies in astronomy, he was engaged in translations of works of Byzantine authors, as well as medicine, earning a reputation as a wonderful doctor. Copernicus treated the poor for free: day and night he was ready to rush to the aid of the sick. In addition, he participated in the management of the region and was in charge of its financial and economic affairs. But most of all he was interested in astronomy, which he presented somewhat differently than was customary.

By that time, the system of the world structure proposed by the ancient Greek scientist Claudius Ptolemy had existed for almost one and a half millennia. It consisted in the fact that the Earth rests motionless in the center of the Universe, and the Sun and other planets revolve around it. Ptolemy's theory did not explain many phenomena well known to astronomers, in particular the loop-like movement of planets across the visible sky. Nevertheless, its provisions were considered unshakable, since they were in good agreement with the teachings catholic church.

Long before Copernicus, the ancient Greek scientist Aristarchus argued that the Earth moves around the Sun. But he could not yet experimentally confirm his teaching.

Observing the movement of celestial bodies, Nicolaus Copernicus came to the conclusion that Ptolemy’s theory was incorrect. After thirty years of hard work, long observations and complex mathematical calculations, he convincingly proved that the Earth is only one of the planets and that all planets revolve around the Sun. True, Copernicus still believed that the stars are motionless and are located on the surface of a huge sphere, at a great distance from the Earth. This was due to the fact that at that time there were no such powerful telescopes with which one could observe the sky and stars.

Having discovered that the Earth and the planets are satellites of the Sun, Nicolaus Copernicus was able to explain the apparent movement of the Sun across the sky, the strange entanglement in the movement of some planets, as well as the apparent rotation of the sky. He believed that we perceive the movement of celestial bodies in the same way as the movement of various objects on Earth when we ourselves are in motion. When we are sailing in a boat on the surface of a river, it seems that the boat and we are motionless in it, and the banks are floating in the opposite direction. In the same way, to an observer on Earth, it seems that the Earth is motionless, and the Sun is moving around it. In fact, it is the Earth that moves around the Sun and makes a full revolution in its orbit during the year.

Sometime between 1510 and 1514 Nicolaus Copernicus wrote short message, in which he first informed scientists about his discovery. It created the impression of a bomb exploding and became the cause of misfortune not only for its author, but also for his followers. To accept such a theory meant destroying the authority of the church, since this concept refuted the theory of the divine origin of the Universe.

Copernicus's theory was fully expounded in his work “On the Revolutions of the Celestial Spheres.” The author did not live to see this book spread throughout the world. He was dying when friends brought him the first copy of his book, printed in one of the Nuremberg printing houses. His book aroused interest among progressive-minded scientists.

Church leaders did not immediately understand the blow to religion that Copernicus’ book dealt. For some time his work was freely distributed among scientists. Only when Nicolaus Copernicus had followers was his teaching declared heresy, and the book included in the “Index of Prohibited Books.” Only in 1835 did the Pope exclude the book of Copernicus from this index and thereby, as it were, acknowledge the existence of his teaching in the eyes of the church.

In 1600, the Italian scientist Giordano Bruno was burned at the stake for promoting the views of Copernicus. But this could not stop the development of science.

Soon after the death of Nicolaus Copernicus, the Italian astronomer Galileo Galilei established that the Sun also rotates around its axis, which confirmed the correctness of the Polish scientist’s conclusions.

It is obvious that the patterns discovered by Copernicus contributed to further development astronomy, in which more and more new discoveries are still being made.

Copernicus was the first to prove the inconsistency of the ancient ideas about the universe. His works served as a breakthrough in astronomy. We decided to remember and tell who Nicolaus Copernicus is.

Biography of Copernicus - briefly

February 19, 1473 A fourth child was born into the merchant family of Barbara Watzenrode and Nicolaus Copernicus. The baby was named after his father. Torun, the Prussian city where the family lived, became part of the Kingdom of Poland in 1466. The answer to the question in which country Copernicus was born is obvious - in Poland. Ethnic origin is difficult to determine. It is known that the mother was German, the father had either Polish or German roots.

Both parents died when Nikolai was 10 years old. The children remained in the care of Uncle Lukash, who served as a canon. Until his death, the future scientist was accompanied by his older brother Andrei. With the encouragement of their teacher, the brothers studied theology, Greek, mathematics, medicine and astronomy at several European universities.

Copernicus, as evidenced by his brief biography, received his diploma only in 1503. At the University of Krakow they did not give him the document. Nikolai abandoned other educational institutions himself. Having received academic degree in Italy, began to practice medicine in the city of Ferrari. In 1506 he returned to Poland. Uncle Lukash was already a bishop and made his nephew his confidant.

The activities of the clergyman in the biography of Nicolaus Copernicus do not prevent him from pursuing science. After the death of his teacher in 1512, he moved to Frombork and took up the duties of a canon.

One of the towers of the fortress is dedicated to the observatory. Here he brings together experience and thoughts. Nikolai is actively discussing the world model with friends and is closely involved in writing a book. He reveals ideas in letters. They served as notes for writing the “Small Commentary on Hypotheses Relating to Celestial Movements.”

Copernicus was burned at the stake

Some people believe that Nikolai Nikolaevich fell victim to the courts of the Inquisition. There is such an opinion, but it has no basis. How did Copernicus really die?

The model proposed by the scientist is not perfect, but it is simpler than that of its predecessor, Ptolemy. It is considered a revolutionary step in science. The theory spread quickly in the 1520s, even before the paper edition was published. Thanks to the student Rheticus, six books with the discoveries of Copernicus were published in 1543.

Whether the author saw these publications remains an open question. In May of the same year, he died of a stroke. Because the theory was propagated and developed by the followers of Copernicus, they were burned at the stake. Nikolai Nikolaevich himself avoided this fate. He simply did not live to see the times when the courts of the Inquisition got close to his works.

The books contradicted established ideas and church canons, but they were only recommended to be edited. Many publishing houses did not respond to the recommendations and released the text in full. Even after it was officially banned in 1616, Copernicus' theory was used to calculate the motion of the planets.

Copernicus' heliocentric system

The new astronomical model of the world is described in the following statements:

• The absence of a common center for orbits and spheres;
• The Sun is the center of the orbits of all planets, therefore the world; The Earth is the center of the Moon's orbit;
• the movement of the Sun is an effect of the movement of the Earth;
• The distance to the Sun is small relative to the distance to the fixed stars.

Nicolaus Copernicus, if we turn to his short biography, there are also other discoveries. In one of the works, the author talks about universal gravity. He represents heaviness as “a certain desire” and assumes that all spherical objects have this property. celestial bodies.

In economics, the Copernican-Gresham law is known. Two scientists, independently of each other, drew attention to the dependence of the circulation of money on the amount of savings. People accumulate more valuable ones (for example, gold), but inferior (copper) funds are in circulation.

The principle served as the basis for the development of a new monetary system in Poland.

Copernicus Museum in Warsaw

The museum was opened in 2005. There are approximately 450 interactive exhibits on display. In particular, there is a planetarium where the heliocentric model of the world is clearly demonstrated. In 2010, the institution received a new title. It all started with the opening of a robotics seminar.

Now this building in Warsaw is called the Copernicus Science Center. It is the largest scientific center in Poland and one of the largest in Europe. In 2011 a technology park, chemical, physical and biological laboratories were opened. Objects have been identified for study by children and youth, and meetings are held aimed at popularizing science.

In Warsaw, the Copernicus Museum was divided into several thematic parts:

• Roots of Civilizations– the gallery will tell about the history of mankind. Technologies allow us to plunge into the depths of centuries, produce archaeological excavations, create models of legendary buildings, stage several experiments;
• man and environment – the robotic collection represents the structure of the human body on an enlarged scale;
• Copernican sky– heliocentric system of the Copernican world;
• light zone– will initiate the observer into the laws of optics;
• world in motion– you can see the origins of some natural phenomena or feel their consequences.

There are many shortcomings in the scientific and philosophical ideas of N. Copernicus. However, they pushed subsequent scientists to create a more advanced model of the world. It is not without reason that Nikolai Nikolaevich’s achievements are considered a revolutionary step in scientific circles.

By the way, why do you think the intermediate stage between speculation and knowledge is so important in our development? Write in the comments.

(1473 —1543 )

Nicolaus Copernicus was born on February 19, 1473 in the Polish city of Toruń into the family of a merchant who came from Germany. He was the fourth child in the family. He most likely received his primary education at a school located near his home at the Church of St. John the Great. Until the age of ten, he grew up in an atmosphere of prosperity and contentment. Carefree childhood ended suddenly and quite early. Nicholas was barely ten years old when the “pestilence” - a plague epidemic, a frequent guest and a formidable scourge of humanity at that time, visited Toruń, and one of its first victims was Nicolaus Copernicus the father. Lukas Wachenrode, his mother's brother, took care of his nephew's education and future fate.

In the second half of October 1491, Nicolaus Copernicus, together with his brother Andrzej, arrived in Krakow and enrolled in the Faculty of Arts at the local university. After its completion in 1496, Copernicus went on a long journey to Italy.

In the fall, Nikolai, together with his brother Andrzej, ended up in Bologna, which was then part of the Papal States and famous for its university. At that time, it was especially popular here Faculty of Law with the departments of civil and canonical, that is, church law, and Nikolai enrolled in this department. It was in Bologna that Copernicus developed an interest in astronomy, which determined his scientific interests. On the evening of March 9, 1497, together with the astronomer Domenico Maria Novara, Nicholas made his first scientific observation. After him, it became clear that the distance to the Moon when it is in quadrature is approximately the same as during a new or full moon. The discrepancy between Ptolemy's theory and the discovered facts amused me to think...

In the first months of 1498, Nicolaus Copernicus was confirmed in absentia as a canon of the Frombork chapter, a year later Andrzej Copernicus also became a canon of the same chapter. However, the very fact of receiving these positions did not reduce the financial difficulties of the brothers; life in Bologna, which attracted many wealthy foreigners, was no different cheapness, and in October 1499 the Copernicians found themselves completely without a livelihood. Canon Bernard Skulteti, who later met them several times in their life, came to their rescue from Poland.

Then Nicholas returns to Poland for a short time, but just a year later he goes back to Italy, where he studies medicine at the University of Padua and receives a doctorate in theology from the University of Ferrara. Copernicus returned to his homeland at the end of 1503 as a comprehensively educated man. He first settled in the city of Lidzbark, and then took the position of canon in Frombork, a fishing town at the mouth of the Vistula. Astronomical observations begun by Copernicus in Italy were continued, however, in limited sizes, in Lidzbark But with particular intensity he deployed them in Frombork, despite the inconvenience due to the high latitude of this place, which made it difficult to observe the planets, and due to frequent fogs from the Vistula Lagoon, significant cloudiness and cloudy skies over this northern area.

The invention of the telescope was still far away, and Tycho Brahe’s best instruments for pre-telescopic astronomy did not exist, with the help of which the accuracy of astronomical observations was brought to within one or two minutes. The most famous instrument used by Copernicus was the triquetrum, a parallactic instrument. The second instrument used by Copernicus to determine the angle of inclination of the ecliptic, “horoscopes”, sundials, a type of quadrant.

Despite the obvious difficulties, in the “Small Commentary”, written around 1516, Copernicus had already given a preliminary statement of his teaching, or rather, his hypotheses at that time. He did not consider it necessary to provide mathematical proofs in it, since they were intended for a more extensive work on November 3 In 1516, Nicholas Copernicus was elected to the position of manager of the chapter's estates in the Olsztyn and Pieniżny districts. In the fall of 1519, Copernicus's powers in Olsztyn expired, and he returned to Frombork, but this time he was really unable to devote himself to astronomical observations to test his hypotheses. There was a war going on. with the crusaders.

At the height of the war, at the beginning of November 1520, Copernicus was again elected administrator of the chapter's estates in Olsztyn and Pienienzno. By that time, Copernicus turned out to be the eldest not only in Olsztyn, but in the whole of Warmia - the bishop and almost all members of the chapter, having left Warmia, were holed up in safe places Having taken command of the small garrison of Olsztyn, Copernicus took measures to strengthen the defense of the castle-fortress, taking care of installing guns, creating a supply of ammunition, provisions and water. Copernicus, unexpectedly showing determination and remarkable military talent, managed to defend himself from the enemy.

Personal courage and determination did not go unnoticed - soon after the truce in April 1521, Copernicus was appointed Commissioner of Warmia. In February 1523, before the election of a new bishop, Copernicus was elected general administrator of Warmia - this is the highest position he had to hold. In the autumn of the same year, after choosing a bishop, he is appointed chancellor of the chapter. Only after 1530 did Copernicus's administrative activities narrow somewhat.

Nevertheless, it was in the twenties that a significant part of the astronomical results of Copernicus accounted for. It was possible to carry out many observations. So, around 1523, observing the planets at the moment of opposition, that is, when the planet is opposite the Sun
point of the celestial sphere, Copernicus made an important discovery; he refuted the opinion that the position of planetary orbits in space remains fixed. The line of apses - a straight line connecting the points of the orbit at which the planet is closest to the Sun and most distant from it, changes its position compared to what was observed 1300 years earlier and recorded in Ptolemy’s Almagest. But most importantly, by the beginning of the thirties, work on the creation of a new theory and its presentation in his work “On the Revolutions of the Celestial Spheres” was basically completed. By that time, the system of the world structure proposed by the ancient Greek scientist Claudius Ptolemy had existed for almost one and a half millennia. It consisted in the fact that The Earth rests motionless in the center of the Universe, and the Sun and other planets revolve around it. Ptolemy’s theory did not explain many phenomena well known to astronomers, in particular the loop-like movement of planets across the visible sky. But its provisions were considered unshakable, since they were in good agreement with the teachings of the Catholic Church Long before Copernicus, the ancient Greek scientist Aristarchus, argued that the Earth moves around the Sun. But he could not yet experimentally confirm his teaching.

Observing the movement of celestial bodies, Copernicus came to the conclusion that Ptolemy’s theory was incorrect. After thirty years of hard work, long observations and complex mathematical calculations, he convincingly proved that the Earth is only one of the planets and that all planets revolve around the Sun. It is true that Copernicus is still believed that the stars are motionless and are located on the surface of a huge sphere, at a great distance from the Earth. This was due to the fact that at that time there were no such powerful telescopes with which one could observe the sky and stars. Having discovered that the Earth and the planets are satellites of the Sun, Copernicus was able to explain the apparent movement of the Sun across the sky, the strange entanglement in the movement of some planets, as well as the apparent rotation of the sky. Copernicus believed that we perceive the movement of celestial bodies in the same way as the movement of various objects on Earth when we ourselves are in motion. When we are sailing in a boat on the surface of a river, it seems that the boat and we are motionless in it, and the banks are floating in the opposite direction. In the same way, to an observer on Earth, it seems that the Earth is motionless, and the Sun is moving around it. In fact, it is the Earth that moves around the Sun and makes a full revolution in its orbit during the year.

In the twenties, Copernicus gained fame as a skilled physician. He expanded the knowledge he acquired in Padua throughout his life, regularly getting acquainted with new products medical literature The fame of an outstanding physician was well-deserved - Copernicus managed to save many patients from serious and intractable ailments. And among his patients were all the contemporary bishops of Warmia, high-ranking officials of Royal and Ducal Prussia, Tiedemann Giese, Alexander Skulteti, many canons of the Warmia Chapter. He often provided assistance and ordinary people. There is no doubt that the recommendations of his predecessors
Copernicus used it creatively, carefully monitoring the condition of patients and trying to understand the mechanism of action of the drugs he prescribed.

After 1531, his activity in the affairs of the chapter and its social activity, although back in 1541 he served as chairman of the chapter’s construction fund. Affected long years life. 60 years is an age that in the 16th century was considered quite advanced. But Copernicus' scientific activity did not stop. He did not stop practicing medicine, and his fame as a skilled physician grew steadily. In mid-July 1528, being present as a representative of the Frombork Chapter at the sejmik in Torun, Copernicus met the then famous medalist and metal carver Matz Schilling, who had recently moved to Toruń from Krakow. There is an assumption that Copernicus knew Schilling from Krakow, more Moreover, on his mother’s side he was distantly related to him.

In Schilling's house, Copernicus met his daughter, the young and beautiful Anna, and soon, when compiling one of his astronomical tables, in the title of the column devoted to the planet Venus, Copernicus outlined the sign of this planet with an outline of ivy leaves - the Schilling family mark, which was placed on all coins and medals minted by Anna's father... Being a canon, Copernicus had to observe celibacy - a vow of celibacy. But over the years, Copernicus felt more and more lonely, more and more clearly felt the need for a close and devoted being, and then he met Anna...

Years passed. They seemed to have become accustomed to Anna's presence in Copernicus's house. However, a denunciation followed to the newly elected bishop. During his illness, Dantiscus calls Doctor Nicholas and in a conversation with him, as if by chance, remarks that it would not be appropriate for Copernicus to have such a young and such a distant relative with him - he should find someone less young and more closely related.

And Copernicus is forced to “take action.” Anna will soon move into her own house. And then she had to leave Frombork. This has undoubtedly clouded last years life of Nicolaus Copernicus In May 1542, Copernicus’s book “On the sides and angles of triangles, both plane and spherical,” with detailed tables of sines and cosines, was published in Wittenberg.

But the scientist did not live to see the time when the book “On the Rotations of the Celestial Spheres” spread throughout the world. He was dying when friends brought him the first copy of his book, printed in one of the Nuremberg printing houses. Copernicus died on May 24, 1543.

Church leaders did not immediately understand the blow to religion that Copernicus’ book dealt. For some time his work was freely distributed among scientists. Only when Copernicus had followers, his teaching was declared heresy, and the book was included in the “Index” of prohibited books. Only in 1835 did the Pope exclude the book of Copernicus from it and thereby, as it were, acknowledge the existence of his teaching in the eyes of the church.

Nicolaus Copernicus, a famous astronomer from Poland, was born on February 19, 1473. Being the fourth child in a merchant family, he received his primary education at school. During the plague epidemic, he lost his father and was subsequently under the protection of his uncle Lukasz.

Since 1491, Copernicus studied at the University of Krakow at the Faculty of Arts. Then he entered the Faculty of Law at the University of Bologna. There he studied civil and ecclesiastical law. Nikolai also studied medicine at the University of Padua. And at the University of Ferrara he received a doctorate in theology.

He made his first scientific and astronomical observation in 1497. And in the early thirties of the sixteenth century he completed work on the creation of the work “On the Revolutions of the Celestial Spheres.” Nicolaus Copernicus pushed aside the generally accepted ideas about the geocentric system of the world. He put forward the theory that the Earth is not the fixed center of the world. The sun and other celestial bodies do not revolve around it. It's just the opposite. The Earth and other planets move around the Sun. And the movement of the Sun throughout the day across the sky is due to the fact that our planet rotates around its own axis. Thus, the heliocentric system of the world structure was born. Copernicus saw the first typographical version of his work while dying.

He died on May 24, 1543. In 1616, his book was included in the list of prohibited books. But this did not prevent the development of his idea, and science began to move in a new direction.

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