Synopsis presentation art 9 artist and scientist. Artist and scientist (grade 9). 19th century French physicist Pierre Curie

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The presentation on the topic "Artist and Scientist" (Grade 9) can be downloaded absolutely free of charge on our website. Subject of the project: Social science. Colorful slides and illustrations will help you keep your classmates or audience interested. To view the content, use the player, or if you want to download the report, click on the appropriate text under the player. The presentation contains 12 slide(s).

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Artist and scientist

Art Lesson Grade 9, Teacher Somko E.V.

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Many eminent scientists valued art and admitted that without music, painting, literary creativity they would not have made their discoveries in science. Perhaps it was the emotional upsurge in artistic activity that prepared and pushed them to a creative breakthrough in science.

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"For Pythagoras, music was derived from the divine science of mathematics, and its harmonies were tightly controlled by mathematical proportions. The Pythagoreans claimed that mathematics demonstrates the exact method by which God established and approved the Universe. Numbers therefore precede harmony, since their immutable laws govern all harmonic proportions. After the discovery of these harmonic relations, Pythagoras gradually initiated his followers into this teaching, as into the highest secret of his Mysteries. He divided the multiple parts of creation into a large number of planes or spheres, to each of which he attributed tone, harmonic interval, number, name, color and form. He then moved on to prove the accuracy of his deductions, demonstrating them on various planes of mind and substances, from the most abstract logical premises to the most concrete geometric bodies. From the general fact of the consistency of all these various methods of proof, he established the unconditional existence of certain natural laws ."

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19th century French physicist Pierre Curie

19th century French physicist Pierre Curie did research on the symmetry of crystals. He discovered something interesting and important for science and art: a partial absence of symmetry gives rise to the development of an object, while complete symmetry stabilizes its appearance and state. This phenomenon has been called dissymmetry (not symmetry). Curie's law says: dissymmetry creates a phenomenon.

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Fractal (lat. fractus - crushed, broken, broken) - complex geometric figure, which has the property of self-similarity, that is, it is composed of several parts, each of which is similar to the entire figure as a whole. In a broader sense, fractals are understood as sets of points in Euclidean space that have a fractional metric dimension or a metric dimension that is different from the topological one.

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The Dutch artist and geometer Maurits Escher (1898-1972) built his decorative works on the basis of antisymmetry.

"Day and night"

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SYMMETRY

SYMMETRY (Greek symmetria - "proportionality", from syn - "together" and metreo - "measure") - the fundamental principle of self-organization of material forms in nature and shaping in art. The regular arrangement of parts of the form relative to the center or the main axis. Balance, correctness, consistency of parts combined into a whole.

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Under the influence of the discoveries of radioactivity and ultraviolet rays in science, the Russian artist Mikhail Fedorovich Larionov (1881-1964) in 1912 founded one of the first abstract movements in Russia - rayonism. He believed that it was necessary to depict not the objects themselves, but the energy flows coming from them, presented in the form of rays.

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Many outstanding scientists valued art and admitted that without music, painting, and literary creativity, they would not have made their discoveries in science. Perhaps it was the emotional upsurge in artistic activity that prepared and pushed them to a creative breakthrough in science.

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"For Pythagoras, music was derived from the divine science of mathematics, and its harmonies were tightly controlled by mathematical proportions. The Pythagoreans claimed that mathematics demonstrated the exact method by which God established and established the universe. Numbers therefore precede harmony, so how their immutable laws govern all harmonic proportions. After the discovery of these harmonic proportions, Pythagoros gradually initiated his followers into this teaching, as into the highest secret of his Mysteries. He divided the multiple parts of creation into a large number of planes or spheres, each of which he attributed tone, harmonic interval, number, name, color, and form.Then he proceeded to prove the accuracy of his deductions, demonstrating them on various planes of mind and substances, from the most abstract logical premises to the most concrete geometrical bodies. the fact of the consistency of all these different methods of proof, he established the unconditional existence of certain natural laws.

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19th century French physicist Pierre Curie 19th century French physicist Pierre Curie did research on the symmetry of crystals. He discovered something interesting and important for science and art: a partial absence of symmetry gives rise to the development of an object, while complete symmetry stabilizes its appearance and state. This phenomenon has been called dissymmetry (not symmetry). Curie's law says: dissymmetry creates a phenomenon.

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Fracta l (lat. fractus - crushed, broken, broken) is a complex geometric figure that has the property of self-similarity, that is, it is composed of several parts, each of which is similar to the entire figure as a whole. In a broader sense, fractals are understood as sets of points in Euclidean space that have a fractional metric dimension or a metric dimension that is different from the topological one.

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The Dutch artist and geometer Maurits Escher (1898-1972) built his decorative works on the basis of antisymmetry. "Day and night"

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SYMMETRIA SYMMETRIA (Greek symmetria - "proportionality", from syn - "together" and metreo - "measure") - the fundamental principle of self-organization of material forms in nature and shaping in art. The regular arrangement of parts of the form relative to the center or the main axis. Balance, correctness, consistency of parts combined into a whole.

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The study of the problems of optical perception prompted the French painter Robert Delaunay (1885-1941) at the beginning of the 20th century. on the idea of the formation of characteristic circular surfaces and planes, which, creating a multi-colored storm, dynamically took possession of the space of the picture.

Teacher - Somko E.V.

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Einstein had a passion for music, especially 18th-century compositions.

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19th century French physicist Pierre Curie

19th century French physicist Pierre Curie did research on the symmetry of crystals. He discovered something interesting and important for science and art: a partial absence of symmetry gives rise to the development of an object, while complete symmetry stabilizes its appearance and state.
This phenomenon has been called dissymmetry (not symmetry).
Curie's law says: dissymmetry creates a phenomenon.

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A fractal (lat. fractus - crushed, broken, broken) is a complex geometric figure that has the property of self-similarity, that is, it is composed of several parts, each of which is similar to the entire figure as a whole. In a broader sense, fractals are understood as sets of points in Euclidean space that have a fractional metric dimension or a metric dimension that is different from the topological one.

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"Day and night"

The Dutch artist and geometer Maurits Escher (1898-1972) built his decorative works on the basis of antisymmetry.

"Day and night"

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SYMMETRY

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Russian artist Pavel Nikolayevich Filonov (1882-1941) completed in the 20s. 20th century graphic composition - one of the "formulas of the Universe". In it, he predicted the movement of subatomic particles, with the help of which modern physicists are trying to find a formula for the universe.

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Text content of presentation slides: Artist and scientist Svetlana G. Lebed, teacher visual arts, arts and MHKMAOU Ilyinskaya SOSHDomodedovsky district, with. Ilyinsky 2016 Pythagoras was interested in musical proportions and ratios. Moreover, music was the basis of the entire Pythagorean doctrine of number. Pythagoras. Musical proportions and ratios It is known that A. Einstein, in the twentieth century. A. Einstein's music helped him to overturn many established scientific ideas. Playing the violin gave him as much pleasure as working. Then he got up and announced: “Well, I finally understood what was the matter!”
Leonardo da Vinci (1452-1519) Italian painter, sculptor, architect, scientist, and engineer reproducing only with the help of technical skill and a true eye, but without a comprehensive knowledge of the subject, is like a mirror that reflects things that lie against it, without knowing or understanding them at all. Leonardo da Vinci The Renaissance genius Leonardo da Vinci already in the 15th century. developed a model of an aircraft Machine gun prototypeInventions of Leonardo da Vinci CarIt is assumed that this idea of creating a car was born by Leonardo back in 1478. But only in 1752, a Russian self-taught mechanic, a peasant Leonty Shamshurenkov, was able to assemble a “self-running carriage”, set in motion by the power of two people. Inventions of Leonardo da Vinci Swiss Olivier Tepp decided to test it in practice and jumped from a height of 650 meters with a parachute. According to the tester, the jump was safe, but such a parachute is practically uncontrollable. As conceived by the master, this device was supposed to be a mannequin dressed in knightly armor and capable of reproducing several human movements. Inventions of Leonardo da Vinci Anatomy classes cover the whole life of Leonardo da Vinci he had to work, and about the need to master the drawing, knowledge of geometry, ideas of perspective, the need to be diligent. Great diligence and ability to work made Leonardo a person close to God. The thirst for knowledge became the greatest temptation for Leonardo. He had the greatest respect for knowledge. Leonardo da Vinci and medicine. Anatomical works
19th century French physicist Pierre Curie did research on the symmetry of crystals. He discovered an interesting and important thing for science and art: a partial absence of symmetry gives rise to the development of an object, while complete symmetry stabilizes its appearance and state. Pierre Curie This phenomenon was called dissymmetry (not symmetry) Curie's law says: dissymmetry creates a phenomenon
In the middle of the twentieth century. in science, the concept of “antisymmetry” also appeared, that is, against (opposite) symmetry. If the generally accepted concept of “asymmetry” for both science and art means “not quite exact symmetry”, then antisymmetry is a certain property and its negation, i.e. opposition. In life and in art, these are eternal opposites: good - evil, life - death, left - right, top - bottom, etc. “Forgot that science developed from poetry: they did not take into account the consideration that in the course of time both perfectly able to mutually benefit to meet again in a friendly manner at a higher level. I.-V. Goethe Today this prophecy is coming true. The synthesis of scientific and artistic knowledge leads to the emergence of new sciences (synergetics, fractal geometry, etc.), forms a new artistic language art.

Attached files

Many outstanding scientists valued art and admitted that without music, painting, and literary creativity, they would not have made their discoveries in science. Perhaps exactly emotional uplift in artistic activity prepared and pushed them to creative breakthrough in science .

M. Escher. lizards

In order to discover the laws of proportion of the golden section for both science and art, the ancient Greek scientists had to be artists in their souls. And indeed it is. Pythagoras was interested in musical proportions and ratios.

Moreover, music was the basis of the entire Pythagorean doctrine of number. It is known that A. Einstein, in the twentieth century. who overturned many established scientific ideas, music helped in his work. Playing the violin gave him as much pleasure as work.

19th century French physicist Pierre Curie did research on the symmetry of crystals. He discovered something interesting and important for science and art: partial absence of symmetry gives rise to the development of the object, while complete symmetry stabilizes its appearance and condition. This phenomenon has been called dissymmetry (not symmetry). Curie's law says: dis symmetry creates a phenomenon .

In the middle of the twentieth century. science has also introduced the concept "antisymmetry", i.e. against (opposite false) symmetry. If the generally accepted concept of “asymmetry” for both science and art means “not quite exact symmetry”, then antisymmetry is a certain property and its negation, i.e. opposition. In life and in art, these are eternal opposites: good - evil, life - death, left - right, top - bottom etc.

“They forgot that science developed from poetry: they did not take into account the consideration that in the course of time both can perfectly meet again on a higher level for mutual benefit.”

I.-V. Goethe

J. Stieler.

Portrait of J. Goethe

Today this prophecy is coming true. The synthesis of scientific and artistic knowledge leads to the emergence of new sciences (synergetics, fractal geometry, etc.), forms a new artistic language of art.

M. Escher. Moon and sun

Dutch painter and geometer Maurits Escher (1898-1972) based on antisymmetry built his decorative works. He, just like Bach in music, was a very strong mathematician in graphics. The image of the city in the engraving "Day and Night" is mirror-symmetrical, but on the left side it is day, on the right - night. The images of white birds flying into the night form the silhouettes of black birds rushing into the day.

It is especially interesting to observe how figures gradually appear from the irregular asymmetrical forms of the background.

Influenced by the discoveries of radioactivity and ultraviolet rays in science, a Russian artist Mikhail Fedorovich Larionov (1881-1964) in 1912 founded one of the first abstract movements in Russia - Rayonism. He counted tal that it is necessary to depict not the objects themselves, but the energy flows coming from them, presented in the form of rays.

M. Larionov. Rooster (Radiant study)

The study of the problems of optical perception prompted the French painter Robert Delaunay (1885-1941) at the beginning of the twentieth century. on the idea of the formation of characteristic circular surfaces and planes, which, creating a multi-colored storm, dynamically took possession of the space of the picture.

R. Delaunay. Regards, Blairio

The abstract color rhythm aroused the emotions of the audience. The interpenetration of the main colors of the spectrum and the intersection of curved surfaces in Delaunay's works create dynamics and a truly musical development of rhythm. One of his first works was a colored disk, shaped like a target, but the color transitions of its neighboring elements have additional colors, which gives the disk extraordinary energy.

R. Delaunay. Tower

Russian artist Pavel Nicolae-

vich Filonov (1882-1941) completed

in the 20s. 20th century graphic composition

tion - one of the "formulas of the Universe."

In it, he predicted the movement of sub-

atomic particles that

modern physicists are trying to find

formula of the universe.

P. Filonov. Spring Formula

P. Filonov. Universe Formula

Find in the reference literature the concepts of "synergetics", "fractal", "fractal geometry". Tell us how these new sciences relate to art.
Remember the phenomenon of color music, familiar to you, which became widespread thanks to the work of the composer of the 20th century. A. N. Scriabin. Tell about it.
How do you understand the meaning of A. Einstein's statement: "The true value is, in essence, only intuition."
Give examples literary works with antisymmetric names (example "The Prince and the Pauper").
Listen to a fragment of A. Scriabin's symphonic poem "Prometheus". Draw a color score for this piece.