A brief retelling of the science of creating a scientific picture of the world. Science: creating a scientific picture of the world

THE SCIENCE. CREATING A SCIENTIFIC PICTURE OF THE WORLD

Target:

Determine the trends in the development of scientific thought in Europe in the 19th century;

Consider the achievements of science in the 19th century.

Dictionary:

MICROBIOLOGY is a science that studies microorganisms, their systematics, morphology, physiology, biochemistry, genetics, distribution and role in the cycle of substances in nature, microorganisms that cause diseases in humans, animals and plants. The creator of microbiology is L. Pasteur.

During the classes

Checking homework

Several students are given task cards on the topics covered;

Two or three students are given test options on the topic covered.

The rest of the students work according to the form of frontal questioning.

The material can be explained in the form independent work class with a textbook. As the work progresses, the children make a table in their notebooks. At the end of the lesson, we all draw conclusions about the lesson together.

Scientific area	Opening year	Scientist's last name
		Michael Faraday	Phenomenon electromagnetic induction– creation of an electric motor
		James Michael Maxwell	Electromagnetic theory of light - transmission of electricity in space
		Heinrich Hertz	He confirmed the existence of electromagnetic waves and established that their propagation speed = 300 thousand km/s.
		A.S. Popov	Wireless telegraph
		Henrik Lorenz	Continued to develop the theory of electromagnetism
		John Stoney	Introduced the term "electron" to designate an atom.
		Wilhelm Conrad Roentgen	Discovery of invisible X-rays - creation of the X-ray machine - Nobel Prize
		Pierre Curie and Marie Skłodowska-Curie	They created the doctrine of the complex structure of the atom - the Nobel Prize.
Biology		Charles Darwin	He substantiated the hypothesis of human origin from an ape-like ancestor.
		Louis Pasteur	The discovery of a new science - microbiology, a rabies vaccination was created. Laid the foundations of the doctrine of immunity.
			Discovered smallpox vaccine
		Rene Laennec	Constructed a tube from beech wood - a stethoscope
		Robert Koch	Discovered the causative agent of tuberculosis - Koch's bacillus
		Ilya Ilyich Mechnikov	Founder of evolutionary embryology and domestic microbiology.

The discoveries summarized in the table were of great importance for the development of industrial society.

Homework

Goals: - (ch.2)

Find out what changes have occurred in the development of science; what reasons contributed to the development of science and scientific knowledge;
How did these studies influence the lives of modern people;
Develop the ability to find necessary information from various sources, the ability to compile tabular records.

Equipment: presentation, computer, survey cards.

During the classes.

1. Org. start of the lesson.

2. Checking homework.

1) testing

1. The development of railway transport in cities was facilitated by:

A) the appearance of steam locomotives;

B) the transformation of cities into industrial centers

C) a great desire to make life easier for citizens

2. The first public transport - the omnibus appeared for the first time in:

A) Paris

B) London

In Berlin

3. The appearance of electric trams is associated with the name:

A) Edison

B) S. Rhodes

B) K. Benz

4. In what year was the first subway opened in London?

5. An integral part of the street landscape late XIX- the beginning of the 20th century was the appearance

A) electric vehicles

B) lamp posts

B) boys selling newspapers

6. A machine designed for sewing clothes was invented by:

A) L. Dagger

B) Singer

B) r. Hill

7. The founder of the first method of photography is:

A) L. Dagger

B) L. Sholes

B) Singer

8. Candles and oil lamps were replaced in the 50s by:

A) lanterns

B) kerosene lamps

B) lamps

9. In what year did L. Sholes receive a patent for the invention of the typewriter?

10. During the Napoleonic era, the dominant style was:

A) modern

B) classicism

11. Distinctive feature the beginning of the 20th century in clothing was that:

A) women’s skirts are tapered, and men wear three-piece suits;

B) women's skirts widen, men wear tailcoats

C) women wear low necklines, and men wear tuxedos and tails

Criteria for evaluation:

Less than 5 - “2”

From 5 to 7 - "3"

From 8 to 10 - "4"

Answer key:

1-b, 2-a, 3-a,4-c,5-c,6-b, 7-a, 8-b, 9-a,10-c,11-a

3. Communicate the topic and objectives of the lesson.

(page 3) Lesson plan:

Reasons for the rapid development of science.
"Lord of Lightning."
The sensations continue.
Revolution in natural science.
New science - microbiology.
Advances in medicine.
Development of education.

(page 4) - draw a table to be filled out during the lesson.

4. Learning new material:

1) work according to the textbook:

(page 5) Why did they begin to develop so actively in the 19th - early 20th centuries?

various sciences?

You will find the answer to the question by reading point 1 on page 39.

Reasons for the development of science in modern times:

1. Life itself demanded to know the laws and use them in production

2. Radical changes in the consciousness and thinking of people of the New Age.

(page 7) In 1831, Michael Faraday discovered the phenomenon of electromagnetic induction, which made it possible to begin creating an electric motor. He became a Fellow of the Royal Society.

Let's find out more about him.

Michael was born on September 22, 1791 in Newton Butts (now Greater London). His father was a poor blacksmith from the London suburbs. His elder brother Robert was also a blacksmith, who in every possible way encouraged Michael’s thirst for knowledge and at first supported him financially. Faraday's mother, a hardworking and uneducated woman, lived to see her son achieve success and recognition, and was rightfully proud of him. The family's modest income did not allow Michael to even graduate high school, from the age of thirteen he began working as a supplier of books and newspapers, and then at the age of 14 he went to work in a bookstore, where he studied bookbinding. Seven years of work in a workshop on Blandford Street became for the young man years of intense self-education. All this time, Faraday worked hard - he enthusiastically read all the books he intertwined. scientific works in physics and chemistry, as well as articles from the Encyclopedia Britannica, repeated in his home laboratory the experiments described in the books on homemade electrostatic devices. An important stage in Faraday’s life was his studies at the City Philosophical Society, where Michael listened to popular science lectures on physics and astronomy in the evenings and participated in debates. He received money (a shilling to pay for each lecture) from his brother. At the lectures, Faraday made new acquaintances, to whom he wrote many letters in order to develop a clear and concise style of presentation; he also tried to master the techniques of oratory.

Gradually, his experimental research increasingly shifted to the field of physics. After the discovery in 1820 by H. Oersted of the magnetic effect of electric current, Faraday was fascinated by the problem of the connection between electricity and magnetism. In 1822, an entry appeared in his laboratory diary: “Convert magnetism into electricity.” Faraday's reasoning was as follows: if in Oersted's experiment the electric current has a magnetic force, and, according to Faraday, all forces are interconvertible, then magnets should excite the electric current. In the same year, he attempted to find the polarizing effect of current on light. By passing polarized light through water located between the poles of a magnet, he tried to detect the depolarization of light, but the experiment gave a negative result.

In 1823, Faraday became a member of the Royal Society of London and was appointed director of the physical and chemical laboratories Royal Institute, where he conducts his experiments.

(fn. 8) In the 1860s he developed electromagnetic theory light, which summarized the results of experiments and theoretical constructions of many physicists various countries in the field of electromagnetism.

James Clerk Maxwell was a British physicist and mathematician. Scottish by birth. Member of the Royal Society of London (1861). Maxwell laid the foundations of modern classical electrodynamics (Maxwell's equations), introduced the concepts of displacement current and electromagnetic field, received a number of consequences from his theory (prediction of electromagnetic waves, electromagnetic nature of light, light pressure and others). One of the founders of the kinetic theory of gases (established the distribution of gas molecules by speed). He was one of the first to introduce statistical concepts into physics, showed the statistical nature of the second law of thermodynamics (“Maxwell’s demon”), and obtained a number of important results in molecular physics and thermodynamics (Maxwell’s thermodynamic relations, Maxwell’s rule for the liquid-gas phase transition, and others). Pioneer of quantitative color theory; author of the principle of color photography. Among Maxwell's other works are studies on the stability of Saturn's rings, the theory of elasticity and mechanics (photoelasticity, Maxwell's theorem), optics, and mathematics. He prepared manuscripts of Henry Cavendish's works for publication, paid a lot of attention to the popularization of science, and designed a number of scientific instruments.

(page 9) According to his theory, there are invisible waves in nature that transmit electricity in space. Light is a variety electromagnetic vibrations.

(page 10) In 1883, the German engineer Heinrich Hertz confirmed the existence of electromagnetic waves and proved that no material object can prevent their propagation

Heinrich Rudolf Hertz - German physicist.

Graduated from the University of Berlin, from 1885 to 1889. was a professor of physics at the University of Karlsruhe. Since 1889 - professor of physics at the University of Bonn.

The main achievement is the experimental confirmation of James Maxwell's electromagnetic theory of light. Hertz proved the existence of electromagnetic waves. He studied in detail the reflection, interference, diffraction and polarization of electromagnetic waves, proved that the speed of their propagation coincides with the speed of propagation of light, and that light is nothing more than a type of electromagnetic waves. He constructed the electrodynamics of moving bodies based on the hypothesis that the ether is carried away by moving bodies. However, his theory of electrodynamics was not confirmed by experiments and later gave way to the electronic theory of Hendrik Lorentz. The results obtained by Hertz formed the basis for the development of radio.

In 1886-87 Hertz was the first to observe and describe the external photoelectric effect. Hertz developed the theory of a resonant circuit, studied the properties of cathode rays, and investigated the effect of ultraviolet rays on electric discharge. In a number of works on mechanics, he gave the theory of impact of elastic balls, calculated the time of impact, etc. In the book “Principles of Mechanics” (1894), he deduced the general theorems of mechanics and its mathematical apparatus, based on a single principle (Hertz’s principle).

Since 1933, the frequency unit Hertz, which is part of the international standard, has been named after Hertz. metric system SI units.

(page 11) Hertz established that electromagnetic waves propagate at a speed of 300 thousand km/s. These waves came to be called Hertzian waves. It was on the basis of these discoveries that Marconi and Popov created the wireless telegraph. In 1897 A.S. Popov sent the first telegram, consisting of two words: “Heinrich Hertz”

- (page 12) Nevertheless, discoveries continued. Back in 1878, the Dutch physicist Hendrik Anton Lorenz tried to explain Maxwell's electromagnetic theory from the point of view of the atomic structure of matter

Hendrik Anton Lorenz

Lorenz studied physics and mathematics at Leiden University. Big influence He was influenced as a future physicist by his astronomy teacher, Professor Frederick Kaiser. At the University of Leiden from 1878 he then worked as a professor of mathematical physics. In 1880, together with his almost namesake Ludwig Lorentz, he derived the Lorentz-Lorentz formula. He developed the electromagnetic theory of light and the electronic theory of matter, and also formulated a self-consistent theory of electricity, magnetism and light. The name of this scientist is associated with a famous school course physics, the Lorentz force (the concept of which he developed in 1895) is a force acting on electric charge, moving in a magnetic field. In electrodynamics, the method of calculating the local field, first proposed by Lorentz, and known as the “Lorentz sphere”, is widely used.

Developed a theory about transformations of the state of a moving body, describing a decrease in the length of an object when forward movement. The Lorentz transformations obtained within the framework of this theory are a major contribution to the development of the theory of relativity.

For his explanation of the phenomenon known as the Zeeman effect, he was awarded the Nobel Prize in Physics in 1902 together with another Dutch physicist Pieter Zeeman

(v. 13) Thus, a revolution took place in the natural scientific ideas of mankind, a new picture of the world was formed, which still exists today

(page 14) At the end of 1895 in Germany, physicist Wilhelm Conrad Roentgen, based on Maxwell’s theory of electromagnetic waves, discovered invisible rays, which he called X-rays.

Discovery of the rays

Despite the fact that Wilhelm Roentgen was a hardworking man and, as the head of the physics institute at the University of Würzburg, he used to stay late in the laboratory, he made the main discovery in his life - X-rays - when he was already 50 years old. November 8, 1895, Roentgen's experiments showed the basic properties of previously unknown radiation, which was called X-rays. As it turns out, X-rays can penetrate many opaque materials; however, it is not reflected or refracted. X-ray radiation ionizes the surrounding air and illuminates the photo plates. ((page 15) Also, Roentgen made the first photographs using X-rays.

The discovery of the German scientist greatly influenced the development of science. Experiments and studies using X-rays helped to obtain new information about the structure of matter, which, together with other discoveries of that time, forced a reconsideration whole line provisions of classical physics. After a short period of time, X-ray tubes found application in medicine and various fields of technology.

Representatives of industrial companies approached Roentgen more than once with offers to profitably purchase the rights to use the invention. But Wilhelm refused to patent the discovery, since he did not consider his research a source of income.

By 1919, X-ray tubes had become widespread and were used in many countries. Thanks to them, new areas of science and technology emerged - radiology, x-ray diagnostics, x-ray measurements, x-ray diffraction analysis, etc.

(page 16) - A whole group of scientists - Henri Becquerel, Pieri Maria Sklodowska - Curie, Ernest Rutherford, Niels Bohr - studied radioactivity and created the doctrine of the complex structure of the atom.

(fn. 17) In 1903, Marie and Pierre Curie, together with Henri Becquerel, received Nobel Prize in physics “for outstanding services in joint research into radiation phenomena.”

(page 18) A revolution in natural science was made by the book of the great scientist and naturalist Charles Darwin “The Origin of Species”

Charles Robert Darwin, an English naturalist and traveler, was one of the first to realize and clearly demonstrate that all species of living organisms evolve over time from common ancestors. In his theory, the first detailed presentation of which was published in 1859 in the book “The Origin of Species”, the main driving force Darwin called evolution natural selection and uncertain variability. The existence of evolution was recognized by most scientists during Darwin's lifetime, while his theory of natural selection as the main explanation of evolution became generally accepted only in the 30s of the 20th century with the advent of the synthetic theory of evolution. Darwin's ideas and discoveries, as revised, form the foundation of the modern synthetic theory of evolution and form the basis of biology as providing a logical explanation for biodiversity. Orthodox followers of Darwin's teachings develop the direction of evolutionary thought that bears his name (Darwinism).

(pp. 42 - 43 - textbook statement by Darwin)

(page 19) In 1885, the scientist saved the life of a young man who was bitten 14 times by a rabid dog. He was working on obtaining a rabies serum. Gave to the world new science- microbiology

Louis Pasteur - French microbiologist and chemist, member of the French Academy (1881). Pasteur, having shown the microbiological essence of fermentation and many human diseases, became one of the founders of microbiology and immunology. His work in the field of crystal structure and polarization phenomena formed the basis of stereochemistry. Pasteur also put an end to the centuries-old dispute about the spontaneous generation of some forms of life at the present time, experimentally proving the impossibility of this (see The Origin of Life on Earth). His name is widely known in non-scientific circles thanks to the pasteurization technology he created and later named after him.

Pasteur began studying fermentation in 1857. By 1861, Pasteur showed that the formation of alcohol, glycerol and succinic acid during fermentation can only occur in the presence of microorganisms, often specific ones.

Louis Pasteur proved that fermentation is a process closely related to the vital activity of yeast fungi, which feed and multiply at the expense of fermenting liquid. In clarifying this issue, Pasteur had to refute Liebig's view of fermentation as a chemical process, which was dominant at that time. Particularly convincing were Pasteur's experiments with a liquid containing pure sugar, various mineral salts that served as food for the fermenting fungus, and ammonium salt, which supplied the fungus with the necessary nitrogen. The fungus developed, increasing in weight; ammonium salt was wasted. Pasteur showed that lactic fermentation also requires the presence of a special “organized enzyme” (as living microbial cells were called at that time), which multiplies in the fermenting liquid, also increasing in weight, and with the help of which fermentation can be caused in new portions of the liquid.

At the same time, Louis Pasteur made another important discovery. He found that there are organisms that can live without oxygen. For some of them, oxygen is not only unnecessary, but also poisonous. Such organisms are called strict anaerobes. Their representatives are microbes that cause butyric acid fermentation. At the same time, organisms capable of both fermentation and respiration grew more actively in the presence of oxygen, but consumed less organic matter from the environment. Thus, it has been shown that anaerobic life is less efficient. It has now been shown that from the same amount of organic substrate, aerobic organisms are able to extract almost 20 times more energy than anaerobic organisms.

Study of infectious diseases

In 1864, French winemakers turned to Pasteur with a request to help them develop means and methods of combating wine diseases. The result of his research was a monograph in which Pasteur showed that wine diseases are caused by various microorganisms, and each disease has a specific pathogen. To destroy harmful “organized enzymes,” he proposed heating the wine at a temperature of 50-60 degrees. This method, called pasteurization, is widely used in laboratories and in the food industry.

In 1865, Pasteur was invited by his former teacher to the south of France to find the cause of silkworm disease. After the publication of Robert Koch's work "Etiology" in 1876 anthrax“Pasteur devoted himself entirely to immunology, finally establishing the specificity of the causative agents of anthrax, puerperal fever, cholera, rabies, chicken cholera and other diseases, developed ideas about artificial immunity, and proposed a method of protective vaccinations, in particular against anthrax (1881), rabies ( together with Emile Roux 1885), involving specialists from other medical specialties (for example, surgeon O. Lannelong).

The first vaccination against rabies was given on July 6, 1885 to 9-year-old Joseph Meister at the request of his mother. The treatment was successful, and the boy did not develop symptoms of rabies.

Interesting Facts

Pasteur spent his entire life studying biology and treating people, without receiving either a medical or biological education.

Pasteur also painted as a child. When J.-L. Jerome saw his work years later, he said how good it was that Louis chose science, since he would have been a great competitor to us.

In 1868 (at the age of 46), Pasteur suffered a cerebral hemorrhage. He remained disabled: left hand I was inactive, my left leg was dragging along the ground. He almost died, but eventually recovered. Moreover, after this he made the most significant discoveries: he created a vaccine against anthrax and vaccinations against rabies. When the scientist died, it turned out that a huge part of his brain was destroyed. Pasteur died of uremia.

According to I. I. Mechnikov, Pasteur was a passionate patriot and a hater of the Germans. When they brought him a German book or pamphlet from the post office, he took it with two fingers and threw it away with a feeling of great disgust.

Later, a genus of bacteria, pasteurs, causing septic diseases, to the discovery of which he apparently had nothing to do, was named after him.

Pasteur was awarded orders from almost all countries of the world. In total he had about 200 awards.

(f. 21) At the end of the 18th century, an English doctor noticed that milkmaids did not suffer from smallpox, which at that time claimed the lives of thousands of people. Jenner quite correctly explained this by saying that milkmaids in a weak form become infected with smallpox from cows and this creates immunity in them. Therefore, he developed the first vaccine - against smallpox. Jenner came up with the idea of ​​injecting the seemingly harmless cowpox virus into the human body.

(f. 22) At the beginning of the 19th century, Jean Corvisart “listened” to his patients using a special stick and determined the condition of the lungs and heart by sound. Rene Laenne, a student of Jean Corvisart, found that solids produce sounds differently. He constructed a tube made of beech wood - a stethoscope. One end was applied to the patient's chest, and the other to the doctor's ear.

(page 23) German microbiologist, discovered the anthrax bacillus, Vibrio cholera and tuberculosis bacillus. For his research on tuberculosis he was awarded the Nobel Prize in Physiology or Medicine in 1905.

Koch later made attempts to find the causative agent of tuberculosis, a widespread disease at that time and a leading cause of death. The proximity of the Charité clinic, filled with tuberculosis patients, makes his task easier - every day, early in the morning, he comes to the hospital, where he receives material for research: a small amount of sputum or a few drops of blood from patients with consumption.

However, despite the abundance of material, he still fails to detect the causative agent of the disease. Koch soon realizes that the only way to achieve his goal is with the help of dyes. Unfortunately, ordinary dyes turn out to be too weak, but after several months of unsuccessful work, he still manages to find the necessary substances.

Institute of Microbiology on Dorotheestrasse in Berlin - here Robert Koch discovered the causative agent of tuberculosis

Koch stains the crushed tuberculosis tissue of the 271st drug in methyl blue, and then in the caustic red-brown dye used in finishing leather, and discovers tiny, slightly curved, bright blue colored sticks - Koch sticks.

On March 24, 1882, when he announced that he had isolated the bacterium that causes tuberculosis, Koch achieved the greatest triumph of his entire life. At that time, this disease was one of the main causes of death. In his publications, Koch developed the principles of “obtaining evidence that a particular microorganism causes certain diseases.” These principles still form the basis of medical microbiology.

Koch's study of tuberculosis was interrupted when, on instructions from the German government, he went to Egypt and India as part of a scientific expedition to try to determine the cause of cholera. While working in India, Koch announced that he had isolated the microbe that causes this disease - Vibrio cholerae.

(page 24) Russian and French biologist (zoologist, embryologist, immunologist, physiologist and pathologist).

One of the founders of evolutionary embryology, phagocytosis and intracellular digestion, creator of the comparative pathology of inflammation.

Winner of the Nobel Prize in Physiology or Medicine (1908). He created the original doctrine of protecting organisms from microbes.

(page 25) Read the paragraph “Development of Education” on pp. 44-45 yourself and answer the question “How to different countries Has education developed?

5. Summing up the lesson:

(page 26) Task on cards

Match the scientist and his invention

6. Homework (page 27)

Paragraph 5, questions, notes in notebooks.

The Age of Enlightenment prepared a boom scientific discoveries which occurred in the 19th century. The scientific worldview of the Enlightenment was based on the idea of ​​rationalism - the predominance of reason in the thoughts and actions of people. Theology and the explanation of phenomena by divine providence is gradually giving way to the sciences of nature and man. The scientific revolution began in Europe even earlier, in the 17th century, with the beginning of the triumph of reason and experiment, the search for causes and patterns. The foundation for the future development of science was the astronomical discoveries of Galileo Galilei and the publication of basic concepts and axioms by Isaac Newton in 1687 classical mechanics and opening. Francis Bacon and Rene Descartes are considered the founders of modern science, who laid down the methods for the experimental study of nature. The 18th century brought new discoveries in mathematics, physics, and chemistry. The phenomenon of photosynthesis, the law, ultrasound, were discovered. Medicine also developed: Edward Jenner developed the world's first vaccine - against smallpox. Events and participants Physics and chemistry 1831- English physicist and chemist Michael Faraday discovered the phenomenon. Thanks to this discovery, the creation became possible. 1865- English physicist James Clark Maxwell developed, according to which light is an electromagnetic wave. 1869- Russian chemist DI. Mendeleev discovered chemical elements. 1888- German engineer Heinrich Hertz proved the existence of the theoretically described by Maxwell. 1895- German physicist Wilhelm Conrad Roentgen discovered the rays that were later named after him, which made it possible to illuminate and record internal structure objects, as well as the human body. Wilhelm Roentgen is the first winner of the Nobel Prize in Physics. 1896- French physicist Antoine Becquerel discovered a phenomenon that explained the mechanism of action of x-rays. 1898- French scientists Pierre And Marie Curie discovered the radioactive metal radium. The discoveries of Becquerel, Curie, and Ernest Rutherford And Niels Bohr became the prologue to the physics of the atomic nucleus that triumphed in the 20th century. Biology and medicine 1859- English naturalist Charles Darwin published a work that became revolutionary in natural science. Darwin scientifically substantiated and expounded the theory of natural selection. The scientist came to the conclusion that living nature and man were not created by God, but were formed as a result of a long process of evolution. Darwin also proved that humans and monkeys have common ancestors. 1864- French biologist and chemist Louis Pasteur discovered that they are causative agents of infectious diseases. This discovery was the beginning of a new science - microbiology. Thanks to Pasteur's discoveries, sterilization and pasteurization technologies were developed to preserve food from spoilage longer. 1882- German microbiologist Robert Koch discovered the causative agent of tuberculosis, Koch's bacillus, and developed preventive measures against epidemics. Social Sciences 1848- German economist and philosopher Karl Marx published a "Manifesto" communist party”, in which he proclaimed the imminent death of capitalism. In his works, Marx developed the theory of class struggle and the theory of change in socio-economic formations; showed that the way people live is determined by the way they organize material production. Conclusion The 19th century became the century of the triumph of science and technology. Scientific research served as accelerators of the industrial revolution, practical use science began to bring commercial benefits. Fundamental discoveries were also made that served as the foundation for scientific and technological breakthroughs of the 20th century, such as space exploration. Parallels Darwin's doctrine of the origin of species and natural selection in terms of its impact on the minds of contemporaries, it can be compared with the discovery of the heliocentric system of the world by the great 16th century scientist Nicolaus Copernicus. While Copernicus showed that the Earth is not the center of the universe at all, but itself revolves around the Sun, Darwin substantiated not the divine, but earthly origin man, and even mentioned the common ancestor of man and monkey. Both of these discoveries dealt a serious blow to human pride and violated the idea of ​​the dominant position of man in the system of the universe. Both discoveries - Darwin's and Copernicus's - were not recognized by the church for a long time as contradicting the Holy Scriptures. Michael Faraday In 1837 he discovered the phenomenon of electromagnetic induction, the phenomenon of generation electric field variables magnetic field. 3 James Clark Maxwell in 1873 complete theory of electromagnetism, equations of the electromagnetic field. According to his theory, there are invisible electromagnetic waves in nature that transmit electricity in space. 4 Heinrich Rudolf Hertz In December 1888, he discovered electromagnetic waves, experimentally confirming Maxwell's theory. 5 Hendrik Anton Lorenz developed the electronic theory of matter, and also formulated a self-consistent theory of electricity, magnetism and light. 6 Wilhelm Conrad Roentgen Discovered X-rays, later called X-rays, in 1895, Nobel Prize winner in 1901 in physics Group of scientists Antoine Henri Becquerel Pierre and Marie-Sklodowska Curie Ernest Rutherford Niels Henrik David Bohr 8 Charles Robert Darwin, in his book The Descent of Man (1871), substantiated the hypothesis of the origin of man from an ape-like ancestor. 9 Louis Pasteur Studied the etiology of many infectious diseases. He developed a method of preventive vaccination against chicken cholera (1879), anthrax (1881), and rabies (1885). Introduced methods of asepsis and antiseptics, pasteurization. 10 Jenner Edward –1823 Cowpox vaccine Jean Nicolas Corvisart introduced a new technology into practical medicine diagnostic method percussion, discovered in 1761 by L. Auenbrugger. The main works are devoted to diseases of the heart and large vessels. One of the founders of semiotics. 12 Laennec Rene Théophile Hyacinthe Invented the stethoscope in 1816, developed (1819) and introduced into practice the method of auscultation, with the help of which he accurately described many important signs diseases. He was the first to give a pathological description of tuberculosis, establish its specificity, linking the development of the disease with the formation of tubercles. For the first time he proved the possibility of curing tuberculosis. 13 Robert Koch announced on March 24, 1882 that he had managed to isolate the bacterium that causes tuberculosis, winner of the Nobel Prize in 1905 in physiology or medicine Homework 15 1) Find definitions in the dictionary literary trends: Romanticism Romanticism Critical realism Critical realism Naturalism Naturalism 2) Prepare a report about ONE representative foreign literature 19th century: George Byron George Byron Victor Hugo Victor Hugo Heinrich Heine Heinrich Heine Honore de Balzac Honore de Balzac Charles Dickens Charles Dickens Emile Zola Emile Zola Joseph Rudyard Kipling Joseph Rudyard Kipling Slide 1 Lesson topic: “Science: creating a scientific picture of the world” New story 8th grade Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 2 What changes have occurred in the development of science? What reasons contributed to the development of science and scientific knowledge; How did these studies influence the lives of modern people; Today you will learn: Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 3 Working according to plan: Reasons for the rapid development of science. "Lord of Lightning." The sensations continue. Revolution in natural science. New science – microbiology. Advances in medicine. Development of education. Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 4 Slide 5 Reasons for the rapid development of sciences Why did various sciences begin to develop so actively in the 19th – early 20th centuries? You will find the answer to the question by reading paragraph 1 on page 39. Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 6 Reasons for the rapid development of sciences Life itself demanded to know the laws and use them in production 2. Radical changes in the consciousness and thinking of people of the New Age Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 7 “The Lightning Lord” In 1831, Michael Faraday discovered the phenomenon of electromagnetic induction, which made it possible to begin creating an electric motor. He became a Fellow of the Royal Society. Michael Faraday Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 8 “The sensations continue” In the 1860s, he developed the electromagnetic theory of light, which summarized the results of experiments and theoretical constructions of many physicists from different countries in the field of electromagnetism. James Karl Maxwell Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 9 “The sensations continue” According to his theory, there are invisible waves in nature that transmit electricity in space. Light is a type of electromagnetic vibration. Maxwell with a color top in his hand Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 10 “The sensations continue” In 1883, the German engineer Heinrich Hertz confirmed the existence of electromagnetic waves and proved that no material object could prevent their propagation Heinrich Rudolf Hertz Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 11 “The sensations continue” Hertz found that electromagnetic waves propagate at a speed of 300 thousand km/s. These waves came to be called Hertzian waves. Hertz's experimental apparatus from 1887. Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 12 “The sensations continue” The Dutch physicist tried to explain Maxwell’s electromagnetic theory from the point of view of the atomic structure of matter Hendrik Anton Lorentz Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 13 “The sensations continue” A revolution was taking place in the natural scientific ideas of mankind, a new picture of the world was being formed, which still exists today Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 14 “The sensations continue” At the end of 1895 in Germany, physicist Wilhelm Conrad Roentgen, based on Maxwell’s theory of electromagnetic waves, discovered invisible rays, which he called X-rays. Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 15 "The sensations continue" Remaining invisible, the rays penetrate various objects in varying degrees. The resulting image can be captured on film. This discovery has found wide application in medicine. X-ray images of Antonenkov A.V. Municipal educational institution Budinskaya secondary school Slide 16 “The sensations continue” Antoine Henri Becquerel Pierre Curie Maria Sklodovskaya-Curie Ernest Rutherford Niels Bohr Scientists studying the phenomenon of radioactivity Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 17 “The sensations continue” In 1903, Marie and Pierre Curie, together with Henri Becquerel, received the Nobel Prize in Physics “for distinguished services in joint research into the phenomena of radiation.” Pierre and Marie Curie In the laboratory of Antonenkov A.V. Municipal educational institution Budinskaya secondary school Slide 18 “Revolution in Natural Science” A revolution in natural science was made by the book of the great scientist and naturalist Charles Darwin “The Origin of Species” Charles Darwin Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 19 “Revolution in Medicine” In 1885, a scientist saved the life of a young man who was bitten 14 times by a rabid dog. He was working on obtaining a rabies serum. He gave the world a new science - microbiology Louis Pasteur Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 20 “Revolution in Medicine” Worked with the fermentation process, created a method for sterilization and pasteurization of various products. Developed several vaccinations against infectious diseases. Explained to surgeons the need to disinfect hands and instruments before work. Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 21 "Revolution in Medicine" English doctor, developed the first vaccine - against smallpox. Jenner came up with the idea of ​​injecting the seemingly harmless cowpox virus into the human body. Edward Jenner Antonenkova A.V. Municipal educational institution Budinskaya secondary school Slide 22 "Revolution in Medicine" Rene Laennec discovered that solids produce sounds differently. He constructed a tube made of beech wood - a stethoscope. One end was applied to the patient’s chest, and the other to the doctor’s ear. The first stethoscopes by Antonenkova A.V. Municipal educational institution Budinskaya secondary school