20th century through the eyes of science fiction writers.
The prospect of flying into space excited people long before these flights became possible. Thoughts about weightlessness, about overcoming the gravity of the earth, excited the minds of not only scientists, but also science fiction writers ...
The first person to experience the state of weightlessness in free flight was, as you know, Yuri Gagarin. April 12, 1961 - the date of his historic flight - marks the beginning of new era- space.
Everyone now knows what weightlessness is, but back in the middle of the twentieth century it was a speculative concept that existed only in theory, interesting to a narrow circle of specialists. For example, in the second edition of the TSB, the term "weightlessness" is absent (volume 29 with the letter "H" was published in 1954, three years before the launch of the first artificial Earth satellite in the USSR). Meanwhile, science fiction writers have foreseen the effect of the disappearance of gravity for a long time. Almost for the first time it was predicted in fantasy book"Sleep, or Astronomy of the Moon", published in Latin in the city of Frankfurt am Main in 1633. The author of this work is the German astronomer Johannes Kepler (1573-1630), a staunch follower of Copernicus, who discovered three fundamental laws of planetary motion around the sun. He wrote his "Dream" while still quite young, continued to work on it for a long time, but did not have time to print it. The manuscript found in the scientist's papers was published by his son.
The fantastic story about the flight to the moon by Tycho Brahe's student, a young astronomer named Duracotus, is accompanied by extensive comments that are several times longer than the description of the journey itself and the hero's life on the moon. It can be seen from this work that Kepler, albeit in a naive form, managed to foresee the “overload” of the human body at launch, the state of weightlessness during the flight (albeit only on one small segment) and shock absorption during the descent to the moon.
Later, Isaac Newton, in his main work The Mathematical Principles of Natural Philosophy (1687), based on the laws of planetary motion discovered by Kepler, developed the foundations of celestial mechanics. This made it possible to determine the speeds necessary to turn the projectile into an artificial satellite of the Earth, to fly within solar system and exit to infinite space Universe (first, second and third cosmic velocities).
Two and a half centuries after the appearance of Keplerian's "Dream", Jules Verne presented readers with his famous lunar dilogy - "From the Earth to the Moon" (1865) and "Around the Moon" (1870).
For the time being, we will confine ourselves to talking about weightlessness. At the "neutral point", according to the writer, who repeated Kepler's hypothesis, both attraction - lunar and terrestrial - must mutually balance. As a result, the "carriage-shell" should lose all weight. This will happen due to the difference in the masses of both planets 47/52 of the entire path.
“The state of equilibrium between lunar and earthly gravity,” the writer claims, “lasted no more than an hour. And this is how the effect of weightlessness is described: “various objects, weapons, bottles, thrown and left to themselves, seemed to miraculously stay in the air ... Outstretched arms did not fall, heads swayed on their shoulders, legs did not touch the floor of the projectile ... Michel suddenly jumped up and, separating himself on some distance from the projectile, hung in the air ... ”(“ Around the Moon, ch. 8).
The works of the French novelist for many years did not go out of sight of Leo Tolstoy. Acquaintance began with the novel "Around the Moon". Tolstoy was interested in the hypothesis of a "world without gravity". The diary entry - "Read Verne" (November 17, 1873) - is accompanied by polemical notes: "Movement without gravity is unthinkable. Movement is warmth. Heat without gravity is unthinkable.”
What puzzled Tolstoy most of all was Michel Ardan's playful suggestion that if one could get rid of the fetters of gravity in earthly conditions, then it would be enough "only an effort of will to fly into space at your whim."
Tolstoy did not believe in miracles. Under the fresh impression of Jules Verne's novel, he turned to the works of physics, but nowhere did he find an answer whether arbitrary movements are really possible in a state of weightlessness. The letters of N.N. Strakhov, who explained that a cat thrown out of a window makes a parabola in the air and falls to its feet. This means that "movements are possible regardless of the force of gravity." Tolstoy was not convinced either, and then Strakhov referred to the doctrine of inertia and cited excerpts from Newton's "Mathematical Principles of Natural Philosophy".
Six years later, in 1879, Lev Nikolayevich noticed in one of his letters to A.A. Fetu: “Vern has a story “Around the Moon”. They are there at a point where there is no attraction. Is it possible to jump at this point? Knowledgeable physicists answered differently.
Apparently, the great writer never found the solution that tormented his problems. The life experience of a person accustomed to concrete thinking opposed the speculative possibility of movements in a state of weightlessness of his own free will, although, apparently, he did not deny weightlessness in itself.
Even during the life of Jules Verne, the genius of Russian science K.E. Tsiolkovsky formulated the principles of the study of world spaces with reactive devices, outlined his thoughts on the possibility of human penetration into space, about artificial satellite Earth, about the conditions of life in the absence of gravity.
“The desire for space travel was laid in me by the famous dreamer Jules Verne,” wrote Tsiolkovsky, “He awakened the brain in this direction. Desires have come. Behind the desires came the activity of the mind. Of course, it would not have led to anything if it had not met with the help of science.
The "Kaluga dreamer", cut off from scientific centers, developed the ideas of "astronomy" in the provincial wilderness, but could not make them widely publicized. This mission was entrusted to the well-known popularizer exact sciences Ya.I. Perelman, one of the few enthusiasts who managed to fully appreciate the insight of an older contemporary. In 1915 he published the book Interplanetary Journeys, as premature as Tsiolkovsky's grandiose designs. A year earlier, Perelman placed in the popular magazine Nature and People (1914, No. 24) the science fiction story Breakfast in a Weightless Kitchen, written as an additional chapter to the novel Around the Moon.
The scientist corrects the writer: “Having told in detail about the life of passengers inside the flying core, Jules Verne lost sight of the fact that passengers, like objects in general, were absolutely weightless during the journey!
The fact is, - the author continues, - that, obeying the force of gravity, all bodies fall with the same speed; the force of the earth's gravity must therefore impart to all objects within the nucleus exactly the same acceleration as to the nucleus itself. And if so, then neither the passengers nor the rest of the bodies in the core should have put pressure on their supports; a dropped object could not approach the floor (that is, fall), but continued to hang in the air, water should not pour out of an overturned vessel, etc. In a word, the interior of the core was supposed to turn into small world completely free of gravity.
Thus, the Keplerian hypothesis of the “neutral point” is refuted. Weightlessness sets in immediately as soon as the projectile is given space velocity (at least eight kilometers per second).
Since then, many science fiction writers have been engaged in the artistic popularization of Tsiolkovsky's ideas, and among them is Alexander Belyaev, who in his novel "Jump into Nothing" pays much attention to "astronomy" and, in particular, to the problems of overcoming, as he calls them, "the two shells of the Earth » - atmospheric and terrestrial gravity at the launch of the spacecraft. According to the plot, a point on the equator was chosen for the takeoff of the ship, moreover, located on a certain hill. Here is how one of the characters in the novel explains the reasons for this choice: “It is here that the most favorable conditions for take-off exist. When a rocket takes off from the ground, it is necessary to break through a double shell: the atmosphere and gravity. The greatest gravity exists at the poles, the least - at the equator, since the Earth is somewhat flattened towards the equator. In addition, at the poles, the smallest, and at the equator, the largest centrifugal effect. Therefore, the shell of gravity at the equator is minimal. Although a body weighs one part two hundred less at the equator than at the pole, even such a reduction in weight is important for a rocket: it gives a significant savings in fuel supply. Now about the atmospheric shell. The air, which we do not notice with our eyes, is an almost insurmountable obstacle to fast moving body. The faster the movement, the greater the resistance. At very high speeds, air resistance is almost as great as air resistance. solid body, - a real steel shell. This is not only a figurative expression. Meteors - stones falling from the sky - move with cosmic speed; crashing into the atmosphere, smaller meteors, heated up due to air resistance, evaporate, being deposited with the finest dust. Jules Verne's heroes, who flew out of the cannon in the projectile, should have been smashed into a cake on the bottom of the projectile in the very first instant of the shot. To avoid this sad fate, we will increase the speed of the rocket gradually. We must choose a place on the globe where the atmospheric shell has the smallest thickness. The higher above sea level, the thinner the shell of the atmosphere, the easier it is, therefore, to break through, the less fuel you need to spend on this. At an altitude of six kilometers above sea level, the air density is already about half that at sea level. In addition, the flight will be directed at an inclined 12 degrees to the east, that is, in the same direction as in how the earth rotates, in order to add the speed of the earth to the speed of the rocket ... "
Fantasy is directed towards the future. Depicted by Jules Verne and other science fiction writers, the "miracles of technology" are always ahead of reality. However, nothing is impossible for science. Sooner or later, science fiction predictions come true. It is difficult to talk about a forecast calculated for ten, fifty or one hundred years. It can be a guess, or rather a rare intuition.
Without exaggeration, Jules Verne showed brilliant intuition in the lunar dilogy, depicting the Florida peninsula as the launch site for an aluminum cylindrical-conical "projectile car" with three passengers, forcing them to experience the effects of weightlessness, see the far side of the Moon, return along elliptical orbit to Earth and fall into the Pacific Ocean, four hundred kilometers from the coast, where they are caught by an American ship.
This surprisingly coincides with well-known facts. The Apollo spacecraft launched from the US Eastern Spaceport (Cape Canaveral in Florida, indicated on geographical map attached to the first edition of "From the Earth to the Moon").
December 21, 1968 was sent to the moon spaceship Apollo 8 with astronauts Frank Borman, James Lovell and William Anders. They were the first people to see how the Earth, gradually decreasing, turned into one of celestial bodies. Three days after launch, at an altitude of about one hundred and thirty kilometers above the lunar surface, the spacecraft entered a lunar orbit. After completing eight orbits, the cosmonauts turned on the main engine and transferred the ship to the flight path to the Earth. On December 27, the cockpit entered the earth's atmosphere with the second cosmic velocity and, after aerodynamic braking, parachuted down in a given area of the Pacific Ocean.
All stages of the flight to the Moon, except for the landing of the crew, were also carried out by Apollo 9 (March 1969) and Apollo 10 (May 1969). Finally, in July 1969, the Apollo 11 spacecraft landed on the moon for the first time.
By a strange coincidence, Apollo 8, which is approximately the same size and weight as the Jules Verne projectile, circled the Moon also in the month of December and splashed down four kilometers from the point indicated by the novelist. (For comparison: the height of the Columbiad shell is 3.65 meters, weight - 5547 kilograms. The height of the Apollo capsule is 3.60 meters, weight - 5621 kilograms.)
Not only the number of participants in the flight, the start and finish points, the trajectories, the dimensions and weight of the aluminum cylindrical-conical projectile, but also the atmospheric resistance, air regeneration and even a telescope with a five-meter diameter on the top of Longspeak in the Rocky Mountains, surprisingly similar in parameters and resolution to the one that is now installed in the Mount Palomar Observatory (California) - all this is provided for in a novel that is more than a hundred years ahead of real possibilities!
The writer's assumptions about the huge material costs that a space flight will require and possible international cooperation are also interesting. The inventiveness and efficiency of the Americans is stimulated by the initiative of the Frenchman, and the project itself came to life, because the "Cannon Club" decided to "appeal to all states with a request for financial participation."
The appeal met with the liveliest response in Russia. “Russia contributed a huge amount - 368,733 rubles. This is not surprising, given the interest of Russian society in science and the successful development achieved by astronomy in this country thanks to numerous observatories, the main of which (the Pulkovo observatory is implied) cost the state two million rubles. In total, the operation "Columbiada" was spent - according to the calculation of the "Cannon Club" - 5,446,675 dollars! The amount is huge, given the repeated devaluation of the dollar over the past hundred-plus years, but quite insignificant compared to the real cost of the Apollo program: $ 25 billion.
Great insights and brilliant conjectures were expressed in their works not only by Jules Verne, Alexander Belyaev, but also by many other science fiction writers. Some of their predictions came true, the guesses are confirmed by science, others are still waiting for their time. Perhaps all these writers slightly contradict each other, and many of their judgments are erroneous, but their great merit lies in the fact that they depicted flights in detail and reliably long before man entered space.
"Whatever I compose, whatever I invent, everything
it will always be below the actual capacity
person. The time will come when science will outstrip fantasy."
Jules Verne
Jules Verne is known not only as one of the founders of science fiction, but also as a writer who, like no one else, was able to predict the future and direction of technology development. Indeed, there are few authors who would do as much to popularize science and progress as the great Frenchman did. Today, in the 21st century, we can judge how often he was right.
THE HARNESS OF APOLLO
One of Verne's boldest prophecies is space travel. Of course, the Frenchman was not the first author to send his heroes to heavenly spheres. But before him, literary astronauts flew only miraculously. For example, in the middle of the 17th century, the English priest Francis Godwin wrote the utopia "Man in the Moon", the hero of which went to the satellite with the help of fantastic birds. Unless Cyrano de Bergerac flew to the moon not only on horseback, but also with the help of a primitive analogue of a rocket. However, writers did not think about the scientific substantiation of space flight until the 19th century.
The first who seriously undertook to send a person into space without the help of "devilry" was just Jules Verne - he naturally relied on the power of the human mind. However, in the sixties of the century before last, people could only dream of space exploration, and science had not yet seriously dealt with this issue. The French writer had to fantasize solely at his own peril and risk. Verne decided that the best way to send a man into space would be a giant cannon, the projectile of which would serve as a passenger module. It is with the projectile that one of the main problems of the "lunar gun" project is connected.
Vern himself was well aware that the astronauts at the time of the shot would face serious overloads. This can be seen from the fact that the heroes of the novel "From the Earth to the Moon" tried to protect themselves with the help of upholstered walls and mattresses. Needless to say, all this in reality would not have saved a person who decided to repeat the feat of the members of the "Cannon Club".
However, even if travelers managed to ensure safety, there would still be two practically insoluble problems. Firstly, a gun capable of launching a projectile of such a mass into space must be simply fantastically long. Secondly, even today it is impossible to provide a cannon projectile with a starting speed that allows it to overcome the gravity of the Earth. Finally, the writer did not take into account air resistance - although against the background of other problems with the idea of \u200b\u200bthe space gun, this already seems like a trifle.
At the same time, it is impossible to overestimate the influence that Verne's novels had on the birth and development of astronautics. The French writer predicted not only the trip to the moon, but also some of its details - for example, the size of the "passenger module", the number of crew members and the approximate cost of the project. Vern became one of the main inspirations space age. Konstantin Tsiolkovsky said about him: “The desire for space travel was laid in me by the famous visionary J. Verne. He awakened the work of the brain in this direction. Ironically, it was Tsiolkovsky at the beginning of the 20th century who finally substantiated the incompatibility of Vern's idea with manned space exploration.
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Nearly a hundred years after Man in the Moon was released, the space gun project took on new life. In 1961, the US and Canadian Departments of Defense launched the joint HARP project. His goal was to create guns that would allow scientific and military satellites to be launched into low orbit. It was assumed that the "supergun" would significantly reduce the cost of launching satellites - only a few hundred dollars per kilogram of payload. By 1967, a team led by ballistic weapons specialist Gerald Bull had created a dozen prototypes of a space gun and learned how to launch projectiles to a height of 180 kilometers - despite the fact that in the United States, flight beyond 100 kilometers is considered space. However, political disagreements between the US and Canada led to the closure of the project. This failure did not put an end to the idea of a space gun. Until the end of the 20th century, several more attempts were made to bring it to life, but so far no one has managed to launch a cannon projectile into Earth orbit. |
TRANSPORT OF TOMORROW
In fact, Jules Verne most often anticipated not the emergence of new technologies, but the direction of development of existing ones. This can be most clearly shown by the example of the famous Nautilus.
The first designs and even working prototypes of submarines appeared long before the birth of Vern himself. Moreover, by the time he began work on 20,000 Leagues Under the Sea, the first mechanical submarine, which they dubbed the Diver, was already being launched in France - and Verne was collecting information about it before he took up the novel. But what was the Diver? A team of 12 people could hardly fit on board the ship, it could dive no more than 10 meters and develop underwater speeds of only 4 knots per hour.
Against this background, the characteristics and capabilities of the Nautilus looked absolutely incredible. Comfortable as an ocean liner, and perfectly adapted for long expeditions, a submarine with a depth of immersion, which was calculated in kilometers, and a top speed of 50 knots. Fiction! And so far. As happened more than once with Vern, he overestimated the possibilities of not only modern, but also future technologies. Even nuclear submarines of the 21st century are not able to compete in speed with the Nautilus and repeat the maneuvers that he did effortlessly. Nor can they go without refueling and resupplying for as long as the Nautilus could. And, of course, today's submarines will never be managed by one person - and Nemo continued to swim on the Nautilus even after he lost the entire crew. On the other hand, there was no air regeneration system on the ship; to replenish its supply, Captain Nemo needed to rise to the surface every five days.
THE DIMENSIONS OF THE GUNS CAPABLE OF LAUNCHING A PROJECT INTO SPACE MUST BE SIMPLY FANTASTIC.
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In the novel The Floating Island, the French novelist made a prediction that has not yet come true, but may very soon come true. The action of this book was set on an artificial island where the richest people on Earth tried to create a man-made paradise for themselves. This idea is now ready to be implemented by the Seasteading Institute. It intends to create by 2014 not even one, but several floating city-states. They will have sovereignty and live according to their own liberal laws, which should make them extremely attractive for business. One of the sponsors of the project is the founder of the PayPal payment system Peter Thiel, known for his libertarian views. EVEN THE NUCLEAR SUBMARS OF THE XXI CENTURY CANNOT COMPETE IN SPEED WITH THE NAUTILUS. Despite all this, one cannot but admit that Verne predicted the general trends in the development of submarines with amazing accuracy. The ability of submarines to make long autonomous journeys, large-scale battles between them, exploration of the depths of the sea with their help, and even a trip under the ice to the pole (North, of course, not the South - here Vern was mistaken) - all this has become a reality. True, only in the second half of the 20th century with the advent of technologies that Vern did not even dream of, in particular, nuclear energy. The world's first nuclear submarine was symbolically dubbed the Nautilus. To tell about the conquest of the air element, Vern came up with Robur the Conqueror. This unrecognized genius is somewhat reminiscent of Nemo, but devoid of romance and nobility. First, Robur created the aircraft "Albatross", which rose into the air with the help of propellers. Although outwardly the Albatross looked more like an ordinary ship, it with good reason can be considered the "grandfather" of helicopters. And in the novel "Lord of the World" Robur developed a completely incredible vehicle. His Terrible was a station wagon: it moved with equal ease through air, land, water and even under water - and at the same time it could move at a speed of about 200 miles per hour (it sounds funny these days, but Vern thought that such the car becomes invisible to the human eye). This universal machine remained an invention of the writer. Is science behind Verne? It's not just that. Such a station wagon is simply impractical and unprofitable. PREDICTING HITLERJules Verne passed away in 1905 and did not see the horror of world wars. But he, like many of his contemporaries, felt the approach of an era of large-scale conflicts and the emergence of new destructive weapons. And, of course, the French science fiction writer tried to predict what they would turn out to be.
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Industrial space exploration Tsiolkovsky Konstantin Eduardovich
Research of world spaces by jet devices (1926)* (fragments)
Exploration of world spaces by jet instruments (1926) *
(fragments)
Foreword
The desire for space travel was laid in me by the famous visionary J. Verne. He prompted the work of the brain in this direction. Desires have come. Behind the desires came the activity of the mind. Of course, it would have led nowhere if it had not met with the help of science.
I have never claimed to have a complete solution to this issue. First inevitably come: thought, fantasy, fairy tale. They are followed by scientific calculation. And in the end, the execution crowns the thought. My work on space travel belongs to the middle phase of creativity. More than anyone, I understand the abyss that separates an idea from its realization, because during my life I not only thought and calculated, but also executed, also working with my hands. However, it is impossible not to be an idea: the execution is preceded by a thought, an exact calculation is a fantasy.
Here is what I wrote to M. Filippov, the editor of Nauchnoye Obozreniye, before sending him my notebook (published in 1903): “I worked out some aspects of the question of raising into space with the help of a rocket-like instrument. Mathematical conclusions, based on scientific data and verified many times, indicate the possibility of using such devices to rise into heavenly space and, perhaps, establish settlements outside the earth's atmosphere. Hundreds of years will probably pass before the thoughts I have expressed will find application, and people will use them to spread not only over the face of the earth, but also over the face of the entire Universe.
Almost all of the Sun's energy is wasted at the present time, useless for mankind, because the Earth receives 2 (more precisely, 2.23) billion times less than the Sun emits.
What a strange idea to use this energy! What is strange in the thought of mastering the boundless space surrounding the globe ... "
Everyone knows how unimaginably large, how boundless the universe is.
Everyone knows that the entire solar system with hundreds of its planets is a point in the Milky Way. And the Milky Way itself is a point in relation to the ethereal island. The latter is a point in the world.
Penetrate people into the solar system, dispose of it like a mistress in the house: will the secrets of the universe be revealed then? Not at all! Just as examining some pebble or shell will not yet reveal the secrets of the ocean... Even if mankind had mastered another Sun, explored the entire Milky Way, these billions of Suns, these hundreds of billions of planets, then we would have said the same thing. And these billions are the point, and they would not expose all the secrets of the sky.
How long ago was the time when lifting into the air was considered a blasphemous attempt and was punishable by execution, when reasoning about the rotation of the Earth was punished by burning. Is it really destined now for people to fall into errors of the same kind!
Plan for the conquest of interplanetary space
Overall plan
We can achieve the conquest of the solar system with a very affordable tactic. Let us first solve the easiest problem: to arrange an ethereal settlement near the Earth as its satellite, at a distance of 1-2 thousand km from the surface, outside the atmosphere. At the same time, the relative supply of explosive material is quite accessible, since it does not exceed 4-10 (compared to the weight of the rocket). If we use the preliminary speed obtained on the earth's surface itself, then this margin will turn out to be quite insignificant (more on that later).
Having settled here steadily and socially, having received a reliable and safe base, having become accustomed to life on the ether (in the material void), we will change our speed in an easier way, move away from the Earth and the Sun, and generally roam where we like. The fact is that in the state of a satellite of the Earth and the Sun, we can use the smallest forces to increase, decrease, and any change in our speed, and therefore our cosmic position. Energy is all around in great abundance in the form of never quenching, continuous and virgin radiance of the Sun. Negative and especially positive (helium atoms) electrons can serve as a fulcrum or reference material ...
Development on the air of the industry in the broadest sense
The first terrestrial animals originated in water...
... Muscles were needed to move to land, and the development of industry, especially motor industry, was needed to move from air to emptiness ...<…>
…Emptiness and virgin sunlight are killing. The antidote is well-insulated multi-chamber dwellings, space suits, and artificial selection of creatures. Oxygen, water, metals and other necessary substances are found in almost all stones. You just need to extract them. The goals of the industry on the air are, in general, the same as on Earth, only much more extensive, despite the fact that a person will not need clothes, furniture, or much else.
Work plan from the nearest future
Now we will talk about how you can start working on conquering space immediately, now. Usually go from the known to the unknown, from sewing needle to a sewing machine, from a knife to a meat grinder, from threshing flails to a threshing machine, from a carriage to a car, from a boat to a ship. So we also think of moving from an airplane to a jet device - to conquer the solar system. We have already said that a rocket, flying first inevitably in the air, must have some of the features of an airplane. But we have already proved that wheels, propellers, a motor, the permeability of a room for gases are unsuitable in it, wings are burdensome. All this prevents him from getting a speed greater than 200 m / s, or 720 km / h. The aircraft will not be suitable for air transport purposes, but will gradually become suitable for space travel. Doesn't even now an airplane, flying at an altitude of 12 km, already overcome 70-80% of the entire atmosphere and approach the sphere of pure ether surrounding the Earth! Let's help him achieve more. Here are the rough steps in the development and transformation of the aeroplane industry for the attainment of higher goals.
1. A rocket plane is arranged with wings and ordinary controls. But the gasoline engine has been replaced by an explosive tube, where explosives are pumped by a weak engine. There is no air screw. There is a supply of explosive materials and there remains a room for the pilot, covered with something transparent to protect against headwinds, since the speed of such an apparatus is greater than that of an airplane. From the reactive action of the explosion, this device will roll on skids along lubricated rails (due to the low speed, wheels may also remain). It will then take to the air, reach its maximum speed, lose all its explosives, and the lighter one will begin to glide like an ordinary or non-powered airplane in order to land safely on land.
The number of explosives and the force of blasting should be gradually increased, as well as the maximum speed, range, and most importantly, the flight altitude. In view of the air permeability of the human space in an aircraft, the altitude, of course, cannot be greater than the known record altitude. Enough and 5 km. The purpose of these experiments is the ability to control an airplane (at a significant speed), an explosive pipe and planning.
2. The wings of subsequent aircraft should be gradually reduced, the motor power and speed should be increased. We will have to resort to obtaining a preliminary, before the explosion, speed with the help of the previously described means.
3. The body of further airplanes should be made impervious to gases and filled with oxygen, with devices that absorb carbon dioxide, ammonia and other human excretion products. The goal is to achieve any rarefaction of air. Height can much exceed 12 km. Due to the high speed during the descent for safety, it can be done on the water. The impermeability of the hull will not allow the rocket to sink.
4. The rudders described by me are used, which work perfectly in the void and in very rarefied air, where the rocket flies. A wingless airplane is launched, twin or triple, inflated with oxygen, hermetically sealed, well gliding. It requires a high preliminary speed for lifting into the air and, therefore, improvements in the devices for the run. Surplus speed will give him the opportunity to rise higher and higher. The centrifugal force can already show its effect and reduce the work of the movement.
5. The speed reaches 8 km / s, the centrifugal force completely destroys gravity and the rocket goes beyond the atmosphere for the first time. Having flown there, as far as there is enough oxygen and food, it spirals back to Earth, slowing itself down with air and gliding without exploding.
6. After that, you can use a simple, non-double corpus. Flights for the atmosphere are repeated. Reactive instruments are moving further and further away from the Earth's air envelope and stay in the ether longer and longer. Yet they return, as they have a limited supply of food and oxygen.
7. Attempts are made to get rid of carbon dioxide and other human excretions with the help of selected small-growing plants, which at the same time provide nutrients. A lot, a lot of work is being done on this - and slowly, but still achieving success.
8. Ethereal suits (clothes) are arranged for the safe exit from the rocket to the air.
9. To obtain oxygen, food and purify rocket air, they come up with special rooms for plants. All this, folded, is carried away by rockets into the air and there it unfolds and connects. Man achieves great independence from the Earth, as he obtains the means of life on his own.
10. Extensive settlements are arranged around the Earth.
11. Use solar energy not only for food and the conveniences of life (comfort), but also for moving around the entire solar system.
12. Found colonies in the asteroid belt and other places in the solar system, where they only find small celestial bodies.
13. Industry develops and unimaginably colonies multiply.
14. Individual (individual) and social (socialist) perfection is achieved.
15. The population of the solar system is becoming one hundred thousand million times more than the present earthly one. The limit is reached, after which settlement is inevitable throughout the Milky Way.
16. The fading of the Sun begins. The remaining population of the solar system moves away from it to other Suns, to the brothers who flew away earlier.
From the author's book"PANTHERS" WITH INFRARED DEVICES The topic of using infrared night vision devices on Panther tanks deserves a separate description. Until now, there is no exact information about how many tanks received such devices in total, and there is also no reliable data on
From the author's book17.2.1. Research and description of DNA/RNA properties Any practical use of nanoobjects should be preceded by a thorough study and description of their properties, as well as a study of the dependence of properties on composition, structure, etc. For example, biomolecular description
From the author's book16. Investigation of radiation characteristics of the torch Burning temperature of the torch: where LRf.c. is the length of the torch M; x is the moisture content of fuel oil, kg/kg. Obtained when heating furnaces with gasified fuel oil.
From the author's bookFree space* (fragments) Definition of free space I will call free space such an environment within which gravitational forces either do not act at all on the observed bodies, or act very weakly in comparison with the earth's gravity in its
From the author's bookOut of the Earth* (fragments) The heroes of the science-fiction novel "Out of the Earth" are people of different nationalities. Tsiolkovsky gave them the names of great scientists (Newton, Galileo, Laplace, Helmholtz, Franklin). Their Russian colleague - Tsiolkovsky modestly called him Ivanov - invented a way
From the author's bookExploration of world spaces by jet instruments (1911)* (fragments) Flight pattern Relative phenomena. Although it’s “oh, how far” before traveling to space, let’s assume that everything is ready: invented, implemented, tested, and we have already settled in the rocket and prepared
From the author's book20. Investigation of the accuracy of mechanisms In the process of studying mechanisms, the following are analyzed: the causes of errors, the estimated (expected) magnitudes of these errors, methods for controlling errors and checking devices. All these questions belong to metrology as an integral
From the author's book2.10. Labor protection requirements when working with mercury devices Question 193. In what rooms should work with mercury devices be carried out (filling with mercury, emptying vessels, assembly and disassembly, repair)? Answer. Must be carried out in isolated rooms,
From the author's bookCaring for the ignition devices Daily check the condition of the breaker - distributor, spark plugs and wires of low and high voltage by external inspection. The first and second maintenance includes: - clean the ignition devices inside from dust and
Fantasies invent...
Inventions start with fantasy. Fantasy in the most ancient origins begins with an inventive dream. We don't know who invented the wheel, but there is no doubt that it was a brilliant inventor. We do not know who invented the myth of Icarus, but, undoubtedly, it was a great science fiction writer.
In myths and fairy tales, prototypes of hypotheses were embodied, after many centuries they were revived in a new quality - as bold tasks for science and technology, and then - as models of situations that depict the imaginary consequences of imaginary inventions and discoveries.
From the inventive dream of bygone centuries to the engineering and technological science fiction of the relatively recent past, and from it to the literature of our time, which considers the activities of scientists in the moral, psychological and social aspects - these are historically the most important milestones in the development of the inventive theme. Without going into details, let us trace its transformation in order to show more clearly what sharp shifts have taken place during recent decades in this area of literary creativity, firmly connected with modern scientific thinking and sensitively capturing changes in the public consciousness.
“A fairy tale,” writes Soviet researcher T. Chernysheva, “raises the same problems that science fiction has been struggling to solve for many years now; the problem of time and space, the life and death of a person (transferring the hero in an instant to the thirtieth kingdom, walking boots that allow you to overcome space, ageless fairies, living water etc.)".
Fairy-tale poetics is based on miracle, witchcraft, magic, and this distinguishes it from science fiction, which seeks to explain the unprecedented, extraordinary, impossible in a given period of time by the influence of material forces - nature, science and technology, the inventive genius of man or other rational beings. With the development of knowledge, even if it is still quite primitive, there is a need to find some justification for fantasy, to remove from it a touch of magic and sorcery.
One of the first to approach this was the Greek satirist Lucian (2nd century AD), who forced his Menippus not only to imitate Icarus (“Icaromenippus, or Transcendental Flight”), but also to tell what kind of devices he managed to take to the air : “I diligently cut off the right wing of the eagle, and the left of the kite, and tied them with strong straps to my shoulders. Having attached two hand loops to the ends of the wings, I began to test my strength: at first I simply jumped, helping myself with my hands, then, like geese, I flew above the ground itself, lightly touching it with my feet during the flight. However, noticing that things were going well, I decided to take a bolder step: having ascended the Acropolis, I threw myself off the cliff and ... flew to the theater itself.
According to the fair remark of the same T. Chernysheva, one of the most important literary devices of science fiction is found here: the illusion of plausibility is created by realistic details. In the description of the hero's flight to Olympus, and then to the Moon, allegedly reliable information coexists with fabulous fiction, but the very desire to logically substantiate the incredible is indicative.
From the era of primitive accumulation to the industrial revolution, until science revealed its power, engineering fiction coexisted with the inventive dream in its original form, clearly crystallizing within other genres - social utopia, philosophical enlightenment novel, travel novel, etc. .
Tommaso Campanella in The City of the Sun (1623) and Francis Bacon in The New Atlantis (1627) put forward science and technological progress, without which a perfect social order cannot be imagined. For example, solariums - the inhabitants of the "City of the Sun" - use all kinds of inventions: special ships and galleys that sail on the sea without the help of oars and wind, using a surprisingly arranged mechanism, self-propelled sailing carts that can move against the wind, devices that reproduce any atmospheric conditions in rooms phenomena ... We meet even more technical innovations among the inhabitants of Bensalem in the famous book of Francis Bacon "New Atlantis", where inventors are surrounded by popular honor.
At the same time, the authors of numerous "lunar" novels cannot offer anything more effective than the same wings of Icarus, a wooden flying dove or a team of wild swans. And only Cyrano de Bergerac in the satirical novel “Another Light, or the States and Empires of the Moon” (1657), among the many amusing ways to reach the night luminary, comes up with another one that strikes with a brilliant conjecture - nothing less than a cabin with several rows of sequentially set fire to “flying missiles."
The conquest of the ocean of air becomes for many years the main theme of the emerging science fiction. In Edgar Poe's story "The Balloon Story" (1844), the Victoria balloon, equipped with an Archimedean screw, makes the first transatlantic flight, and then, less than twenty years later, the Victoria, improved by Jules Verne, crosses African continent("Five weeks on hot-air balloon»).
Balloons have also been used for space travel. "A certain Hans Pfaal" reaches the Moon in a hermetic balloon gondola, covered with a triple layer of varnish and filled with an unknown gas, the density of which is 37.4 times less density hydrogen (!). Edgar Poe in this story polemicizes with his predecessors, accusing them of being "unscientific". Soon similar reproaches will be thrown to Edgar Poe by the author of From the Earth to the Moon (1865) and Around the Moon (1870), who came up with a qualitatively different solution, which, as it turned out later, contained a far-sighted forecast. Three passengers of a cylindrical-conical projectile car, thrown into space by a giant cannon, experience the effects of weightlessness, go around the moon and fall into the Pacific Ocean near the launch site (Florida Peninsula), where they are caught by a patrol corvette. Jules Verne did not think of a more effective way to give a projectile with the necessary speed, but his novels stimulated inventive thought. Let us recall Tsiolkovsky's confession: “The desire for space travel was laid in me by the famous visionary J. Verne. He awakened the work of the brain in this direction. Desires have come. Behind the desires came the activity of the mind. Of course, it would not have led to anything if it had not met with the help of science.
Brilliant conjectures, like technically sound predictions, contrary to popular belief, are very rare in science fiction. Bold tasks for science and technology are hyperboles of real possibilities. With few exceptions, science fiction writers do not so much foresee as interpret the ideas of inventors. The imagination of writers either keeps pace with science and technology, or lags behind a little - even when fantastic inventions were not at odds with Newtonian mechanics.
It is characteristic that before the advent of Watt's machine, not a single science fiction writer foresaw the revolutionary effect of steam energy. But as soon as it became a real force, the word "machine" took on a new meaning.
Jules Verne, in depicting the technology of the future, relied on the projects of inventors, glorified the energy of electricity, which gives man power over nature, and “overlooked” the internal combustion engine.
The possibility of wireless communication turned out to be unexpected for science fiction writers. But as soon as this connection appeared, the writers, overtaking each other, showed what brilliant prospects open up here. “In science fiction novels,” Ilya Ilf ironically remarked in his notebook, “the main thing was the radio. Under him, the happiness of mankind was expected. There is a radio, but there is no happiness.”
The discovery of radioactivity was also not foreseen by science fiction writers, but it made it possible to accurately extrapolate into the future the use of atomic energy for peaceful and military purposes, even with an indication of the exact dates for the commissioning of a nuclear power plant and an explosion. atomic bomb. It was this gigantic discovery and the chain that followed it that gave rise to the theme of world catastrophes in Western fiction.
And here we come to the main problem, the relevance of which is rooted in reality itself: the ambivalent attitude of science fiction writers to scientific and technological progress, as a source of prosperity and a potential threat. Long before Pierre Curie, in 1903, upon handing him Nobel Prize stated that the latest scientific discoveries are fraught with the greatest danger, although in the end they will bring more good to humanity than harm, the writers spoke of demonic forces hidden in nature, which, like a genie from a bottle, will someday break free ...
The German romantic Ernst Theodor Amadeus Hoffmann, admiring the impeccable art of mechanics, endowed clockwork automatic machines with independence unusual for them, saw in them a kind of harbinger of a soulless machine age (“Automatic”, “Sandman”). The theme of mechanical servants, fraught with unknown dangers, stretches from Hoffmann to Czapek with his "universal robots", then to Asimov, Lem and many other authors, filling modern science fiction.
Frankenstein, the hero of the novel of the same name by the 12-year-old Englishwoman Mary Shelley (1818), is a brilliant scientist who dreams of comprehending the secrets of living matter in order to bring the dead back to life and defeat death. The ugly humanoid giant created by Frankenstein suffers from loneliness, from the inability to find a place for himself in human society and cruelly takes revenge on people. Frankenstein becomes a household name for a scientist who has created an evil force that he cannot handle.
The theme of artificial man, interpreted by Mary Shelley in a philosophically generalized way, is continued by Wils de Lisle-Adan ("Eve of the Future"), Boussenard ("The Secret of Doctor Synthesis") and modern writers. From a medieval golem and a man in a flask - a homunculus - fantasy leads to a biological robot - an android. The ominous collision of Frankenstein is resurrected in many novels (for example, "The Island of Dr. Moreau" by Wells) and a growing crescendo in the science fiction of the 20th century, displaying in hyperbolic images the contradictions of scientific and technological progress in a capitalist society. Leading scientists have repeatedly spoken about these contradictions, perhaps somewhat exaggerating the threat negative consequences. Norbert Wiener, for example, argued that self-evolving cybernetic devices are theoretically capable of performing unintended actions, and referred either to Goethe's ballad "The Sorcerer's Apprentice" or to Mary Shelley's "Frankenstein".
peculiar modern fiction the spirit of free research, free handling of previously unshakable concepts - space, time, gravity, energy, mass, the laws of optics, etc. - brings it closer to the physics of the 20th century. Wells paved the way here, raising fundamentally new themes that were further developed by his many followers. Wells' fantastic ideas were inspired by a premonition of gigantic social cataclysms and the forthcoming breakdown of generally accepted scientific doctrines - a mechanistic vision of the world. Science fiction, which previously operated with concrete concepts, has learned to translate abstract mathematical truths into visible images. But no matter what chimerical form they take on, they cannot be considered arbitrary fabrications, a “pure” mind game, like, say, a “time machine” invented by the same Wells back in 1895, ten years before the publication of Einstein’s first treatise. Later, when scientists began to consider time as a kind of changing physical reality, and not just as a mathematical abstraction, starships of various designs created by the imagination of writers escaped into the vastness of the Galaxy. Theoretically justified paradox of time gave rise to amazing stories. Traveling into the past and the future, with the "chronoclasms" that follow from them, made fantasy work in hitherto unknown directions.
The theory of relativity and atomic physics, molecular biology and cybernetics have revolutionized science, and with it science fiction. Scientists gave her "crazy" ideas, which are carried out by "crazy" inventors. They will meet on the pages of this collection, which, following the previously published one, gives a generally correct idea of modern inventive science fiction.
From book to book, from story to story, the schematized image of a brilliant scientist, obsessed with manic ideas, an eccentric who often does not know what he is doing and what unexpected consequences the experiment can lead to, passes almost unchanged. The main thing in such stories is the invention, and the inventor or researcher himself is relegated to the background, this is a deliberately simplified character with barely outlined individual properties. Obviously, a fantastic plot, especially if we are dealing with a story, cannot withstand a double load: the justification and implementation of the plan push the “human studies” principle aside.
This literary convention persists primarily in Anglo-American fiction and is retained only by tradition. If in 1901 in the United States 82% of all patents were granted to independent inventors and 18% to firms, then in 1967 77% of patents were granted to firms together with government organizations and only 23% to individuals. Major inventions and discoveries in our time are most often made by scientific teams, but science fiction writers still derive effects from the obviously implausible assumption: a "crazy" inventor performs paradoxical experiments at his own modest means, at his own peril and risk, in some abandoned barn, in the attic or in a musty cellar. Acting on a whim, like a medieval alchemist, alone or together with an assistant, he achieves amazing results - he invades the unknown and wrests from nature its innermost secrets that violate the balance of the world.
In Robin Scott's story "Short Circuit", an assembly, randomly constructed from junk parts by a simple guy, closes no more and no less than with the entire universe, drawing energy from another space and time. There is a short circuit along the east coast North America. Suddenly arises, embodied in metal and plastic, artificial intelligence - a spiritualized Something, ready to instantly fulfill any three desires. Needless to say, the inventor and his friend use their suddenly acquired power in a far from the best way, as well as the heroes of John Rackham's "Renewer", who manage to decipher the mysterious recipe for a rejuvenating composition found in the grandfather's manuscripts and successfully test its properties on a young woman.
In these stories, replete with farcical situations, the problem of the moral responsibility of the scientist is solved in a frankly humorous way, on the level of the humor of Jerome K. Jerome or William Jacobs. Other writers like Roald Dahl and Donald Wandry, both English, develop the richest traditions English literary tale (Carroll, Barry, Milne, Tolkien, Dansany and others) with its obviously paradoxical vision of the world.
Violation of the ecological balance, spoilage environment, the gap between man and nature can cause an irreversible process if people do not come to their senses in time. All this inspires anxiety, receives a whimsical refraction in philosophical and allegorical images. The inventor of the "Sound Machine" in R. Dahl's story is horrified that the cut plants experience physical pain, utter screams and groans. In "The Strange Harvest" by D. Wandry, the mysterious apparatus of a certain Jones captures and concentrates universal radiations that animate vegetable world. Fruit trees, cereals and vegetables, endowed with mobility and the rudiments of intelligence, elude the farmers, then go on the offensive, raise a rebellion ...
So in modern science fiction, the poetics of a fairy tale is being revived. Eternal folklore stories are also being revived in a scientific guise: living water, the source of oblivion, the elixir of longevity and youth, magical powers, giving power over nature, a lifesaver, a self-collecting tablecloth, animals and plants with miraculous properties, etc. In this branch, inventive fantasy merges with fantasy, non-scientific fiction that does not require plausible scientific justification from the author. But stories from scientific justification are often perceived by readers as "scientific fairy tales".
The materialization of an optical illusion created by a "reified" hologram is curiously motivated in Leonard Tushnet's "Practical Invention". However, a peaceful invention can turn into a dangerous weapon. Inventors, foreseeing undesirable consequences, resist the temptation to take out a patent on it. L. Tashnet - Doctor of Philosophy, he belongs to a group of American scientists who from time to time appear with science fiction works. The theme of moral responsibility is perhaps the main one in his literary work. Close to him in spirit is John Robinson Pierce, a well-known specialist in the field of electronics and communication theory, a member of the US National Academy of Sciences, who became interested in science fiction back in the 30s, when such "fun" of a scientist could have a detrimental effect on his reputation. Therefore, Pierce signed most of his stories with the pseudonym J. J. Coopling. But the story "Invariant", which treats the eternal theme of immortality, is one of the few signed by his real name. The problem here also translates into an ethical plane. A scientist who has learned to slow down the metabolism of cells becomes essentially immortal, but at the same time loses the ability to perceive new impressions. Questions arise: is it necessary to strive to prolong life at any cost, and can any experiments capable of suppressing the psyche be considered humane?
Gets horrified by possible consequences of his invention and bequeathed to destroy it by Professor Fairbank, the hero of the story of the American science fiction writer Ray Russell (not to be confused with the veteran of English science fiction Eric Frank Russell!), who invented another version of the time machine, which seemed to have long exhausted the plot possibilities hidden in it. But in this case, the point is not the invention itself, which is motivated more or less standardly, but the moral criteria arising from the idea. The suicide of a scientist who has neglected moral norms is psychologically justified ("Professor Fairbank's Mistake").
Unlike R. Russell, the Polish writer Janusz A. Seidel, whose works are well known in our country, limits himself to logical extrapolation, using the same time machine ingeniously solving the traditional Faustian theme of life extension. A terminally ill person is sent to the future, doctors heal him, and then, due to difficulties in adapting, he returns to his own time.
Science fiction writers achieve the greatest success in those cases when the technical hypothesis not only does not separate from the moral and psychological conflict, but also contributes to the disclosure of characters. As a rule, only a few brightly gifted authors succeed in this. Among these is, no doubt, the Anglo-Irish writer Bob (Robert) Shaw, who became famous after the publication in 1966 of the magnificent novella The Light of the Past. Critics consider Shaw's main merit to be the idea of "slow glass" that he put forward, arguing that this is almost the only truly original fantastic hypothesis in recent years. But after all, the idea itself, in abstraction from the idea, no matter how effective it was, would not have made a special impression if it had not grown so tightly into the artistic fabric and did not contribute to the disclosure of the hero’s inner world. Penetrating lyricism, the subtlest psychological nuances make "The Light of the Past" a remarkable phenomenon of modern Western fiction.
One of its luminaries, the American Kurt Vonnegut, the author of the novels Utopia 14 (in the original Pianola), Slaughterhouse Five, Cat's Cradle, translated in our country, is rightfully considered the largest satirist, a successor in social science fiction of Swift's line - Wells-Czapek. In any of his works, screaming contradictions, disorder and absurdity of the cold world of monetary relations are exposed, depriving a person of human essence. In the story "What about Eife?" a clever businessman, regardless of the disastrous consequences, is ready, in pursuit of profit, to put into mass production an apparatus that causes euphoria. As always with Vonnegut, the artistic impact is achieved by means of the grotesque, brought to "black humor".
Isaac Asimov is more optimistic and at the same time more traditional. His famous stories about robots, as well as the wonderfully formulated "Three Laws of Robotics" unanimously accepted by science fiction writers, are a bold task for science and technology at the stage of modern thinking. The earliest of the stories about robots - "The Strange Playmate" (in the Russian translation "Robbie") appeared in 1940, when Asimov was twenty years old. This cycle is constantly updated, including stories about the creation and exploits of the first robots, and then the novels "Steel Caves" and "The Naked Sun", which, along with new stories, reveal the features of the "second stage" of the development of robots. Here, detective Elige Bailey and his friend - a perfect biological robot - R. Daniel Olivo, become permanent heroes, possessing impeccable logic, which is demonstrated, in particular, in the story "Mirror Reflection", where the dilemma arising from the inability of the robot to lie and the impossibility for him to harm a person gets an interesting solution based on knowledge of human psychology.
The three laws of robotics are so firmly established in science fiction literature that, as one of the science fiction writers jokingly remarked, Asimov first invented these laws, and then used all the power of his imagination, coming up with ways to get around them. This is also done by the French science fiction writer Claude Cheynisse, who dedicated his story “The Conflict Between Laws” to Asimov. It is curious that approximately the same psychological collision was considered by Azimov himself in the article “The Perfect Machine”: “Should a robot interfere with a surgical operation, since the incision causes damage to the patient’s body?” K. Sheynise offers a humorous way out of the current situation.
We find more familiar artistic solutions in stories, where the traditional adventure plot is subordinated to the logical substantiation of a specific technical hypothesis.
Fantastic device - levitator interacting with gravitational field Earth, initially tested by a disabled inventor in difficult conditions climbing Everest in anticipation of the brilliant prospect of "changing the fate of many worlds." For, according to the inventor, his levitator must return to mankind "the freedom lost long ago, when the first amphibians left their weightless underwater homeland." This is how the well-known English science fiction writer Arthur C. Clarke solves the problem in a romantic way in the beautifully written story "The Merciless Sky".
In fact, the Bulgarian writer Tsoncho Rodev resorts to the same traditional illustrative method. In his "Manuscript of Cleitarchus" an invention involving the restructuring of the human body to adapt to aquatic environment, convincingly motivated, fitting into the moving framework of a semi-humorous, semi-detective story.
So in this short essay we traced the development of the inventive theme in world science fiction and, using the works included in the collection "Practical Invention", tried to show how multifaceted foreign science fiction writers embody fantastic ideas and hypotheses today.
E. Brandis, V. Kahn
A number of Jules Verne's amazing prophecies became public knowledge in his unpublished work "Paris in the 20th century", the existence of which became known in the mid-90s. The manuscript of the novel was found by chance by the great-grandson of the writer, and this event became a sensation.
ahead of time
J. Verne takes the readers of the novel, written in 1863, by the power of imagination to Paris in 1960 and describes in detail such things, the invention of which in the first half of the 19th century no one knew: cars move along the streets of the city (although J. Verne has them do not run on gasoline, but on hydrogen to preserve the purity of the environment), criminals are executed using the electric chair, and stacks of documents are transmitted by means of a device very reminiscent of a modern fax machine.
Probably, these predictions seemed too fantastic to the publisher Etzel, or maybe he found the novel too gloomy - one way or another, but the manuscript was returned to the author and, as a result, was lost among his papers for a century and a half.
In 1863, the famous French writer Jules Verne published the first novel in the Extraordinary Journeys series, Five Weeks in a Balloon, in the Journal for Education and Leisure. The success of the novel inspired the writer; he decided to continue to work in this "key", accompanying the romantic adventures of his heroes with increasingly skillful descriptions of the incredible, but nevertheless carefully considered scientific miracles born of his imagination. The cycle was continued by novels:
"Journeys to the Center of the Earth" (1864)
"From the Earth to the Moon" (1865)
"20,000 Leagues Under the Sea" (1869)
"Mysterious Island" (1874), etc.
In total, Jules Verne wrote about 70 novels. In them, he predicted many scientific discoveries and inventions in a wide variety of fields, including submarines, scuba gear, television and space flights. Jules Verne foresaw a practical application:
electric motors
Electric heaters
electric lamps
Loudspeakers
Transferring images over a distance
Electrical protection of buildings
Incredible similarities between fictional and real
The remarkable works of the French writer had an important cognitive and educational effect for many generations of people. So, in one of the phrases expressed by the science fiction writer in the novel “Around the Moon” regarding the fall of a projectile on the lunar surface, the idea of jet propulsion in the void was concluded, an idea subsequently developed in the theories of K. E. Tsiolkovsky. It is not surprising that the founder of astronautics repeatedly repeated:
“The desire for space travel is instilled in me by Jules Verne. He awakened the work of the brain in this direction.
Space flight in detail, very close to real, was first described by J. Verne in the works From the Earth to the Moon (1865) and Around the Moon (1870). This famous dilogy is an outstanding example of "seeing through time". It was created 100 years before manned flight around the moon was put into practice.
But what is most striking is the amazing similarity between the fictional flight (for J. Verne - the flight of the Columbiad projectile) and the real one (meaning the lunar odyssey of the Apollo 8 spacecraft, which in 1968 made the first manned flight around the moon ).
Both spacecraft - both literary and real - had a crew consisting of three people. Both launched in December from the island of Florida, both entered the lunar orbit (Apollo, however, made eight complete orbits around the Moon, while its fantastic “predecessor” only one).
Apollo flew around the moon with the help of rocket engines returned to the reverse course. The crew of the Columbiad solved this problem in a similar way, using the rocket power of... flares. Thus, both ships, with the help of rocket engines, switched to a return trajectory, so that again in December they would splash down in the same area of the Pacific Ocean, and the distance between the splashdown points was only 4 kilometers! Dimensions and weight of two spacecraft they are also almost the same: the height of the Columbiad projectile is 3.65 m, weight is 5,547 kg; the height of the Apollo capsule is 3.60 m, the weight is 5,621 kg.
The great science fiction writer foresaw everything! Even the names of the heroes of the French writer - Barbicane, Nicole and Ardant - are consonant with the names of American astronauts - Borman, Lovell and Anders...
No matter how fantastic it all sounds, but such was Jules Verne, or rather his predictions.
According to the site iksinfo.ru
