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All sciences. №9, 2023. International Scientific Journal
Salim Madraximovich Otajonov

Valijon Azamov

Nigoraxon Inomjonovna Forikova

Temurbek Nasrullayevich Bekmirzayev

Nigora Mamadiyorovna Yakubova

Nodir Esonaliyevich Alimov

Shoxboz Baxodirovich Jarkinboyev

Qodir Abdullayevich Botirov

Ekaterina Aleksandrovna Vavilova

Yusufjon Ravshanovich Musajonov

Nuriddin Sotvoldiyevich Sattorov

Ibratjon Xatamovich Aliyev

The international scientific journal “All Sciences”, created at Electron Laboratory LLC and the Scientific School “Electron”, us a scientific publication that published the latest scientific results in various fields of science and technology, which is also a collection of publications on the above topics by a board of authors and reviewed by the editorial Board (academic Council) of the Scientific School “Electron” and on the Ridero platform monthly.

All sciences. №9, 2023

International Scientific Journal

Authors: Aliyev Ibratjon Xatamovich, Otajonov Salim Madraximovich, Alimov Nodir Esonaliyevich, Botirov Qodir Abdullayevich, Yakubova Nigora Mamadiyorovna, Bekmirzayev Temurbek Nasrullayevich, Musajonov Yusufjon Ravshanovich, Sattorov Nuriddin Sotvoldiyevich, Jarkinboyev Shoxboz Baxodirovich, Vavilova Ekaterina Aleksandrovna, Forikova Nigoraxon Inomjonovna, Azamov Valijon

Editor-in-Chief Ibratjon Xatamovich Aliyev

Illustrator Ibratjon Xatamovich Aliyev

Illustrator Sultonali Mukaramovich Abduraxmonov

Illustrator Obbozjon Xokimovich Qo'ldashov

Cover design Ibratjon Xatamovich Aliyev

Cover design Ra'noxon Mukaramovna Aliyeva

Acting scientific supervisor Sultonali Mukaramovich Abduraxmonov

Economic manager Farruh Murodjonovich Sharofutdinov

Proofreader Gulnoza Muxtarovna Sobirova

Proofreader Abdurasul Abdusoliyevich Ergashev

ISBN 978-5-0062-1035-6

Created with Ridero smart publishing system

PHYSICAL AND MATHEMATICAL SCIENCES

CURRENT RESEARCH IN THE DIRECTION OF STUDYING THE LARGEST PLANET IN THE SOLAR SYSTEM – JUPITER

UDC 523.45

Aliyev Ibratjon Xatamovich

3rd year student of the Faculty of Mathematics and Computer Science of Ferghana State University

Ferghana State University, Ferghana, Uzbekistan

Annotation. This study analyzes modern achievements of science and technology on the way to explore the largest and most massive object in the Solar System, except for its star, the planet Jupiter. Much attention is paid to the analysis of its internal structure and the environment prevailing there, along with a parallel analysis of the possibilities of technologies for exploring the planet under specified physical conditions.

Keywords: Jupiter planet, gas giant, environment, physical and mathematical modeling, research, analysis.

Аннотация. В настоящем исследовании проводиться анализ современных достижений науки и техники на пути исследования самого большого и массивного объекта в Солнечной системы, кроме её звезды – планеты Юпитер. Большое внимание уделяется анализу его внутренней структуры и царящей там среды, наряду с параллельным анализом возможностей технологий для исследования планеты при обозначенных физических условиях.

Ключевые слова: планета Юпитер, газовый гигант, среда, физико-математическое моделирование, исследование, анализ.

The planet Jupiter, which is the second largest, after the Sun in terms of size and volume of objects in the Solar System, appears as a rather interesting object to study, along with a variety of space objects. So, it was this planet, discovered by the brilliant scientist Galileo Galilei, that became one of the key reasons for the collapse of the geocentric theory, as well as the clearest proof that not all objects in the system revolve around the Earth or the Sun, which in turn struck a blow towards the heliocentric system. Jupiter has a huge number of very different satellites and today more than 80 satellites are known, but the first of them were discovered precisely the so – called Galileo satellites, named by his German colleague – Ganymede, Europa, Io and Calisto.

Jupiter is a gas giant, unlike other planets with a solid surface, surrounded by a large thick atmosphere. This was also the reason that this planet is home to the largest hurricane in the entire Solar System, the size of planet Earth, called the «Big Red Spot» and which has been going on for hundreds of years and besides, the wind speed in it reaches 650 km/h or 350 knots. It is also worth noting that only in its small diameter, because it has the shape of an ellipsoid, it is approximately equal to the Earth, and its larger diameter is relatively larger than the diameter of the Earth.

It is interesting to establish the initial connection with the planet directly, namely, the process of transferring from the optical part of the spectrum to the radio wave, one can see the radiation of the planet’s magnetic field formed in a powerful magnetosphere. So, the first information about this radiation was received from Pioneer-10 on March 12, 1973, after which all models were equipped with a powerful safety system against strong electromagnetic radiation, but the next obstacle is a powerful atmosphere, even more significant in its danger than the danger of the electromagnetic background.

For the first time, the Galileo spacecraft succeeded in penetrating the planet’s atmosphere on December 8, 1995, when its expedition was launched and for 8 years this device has been transmitting information about the analysis of both the planet itself and satellites. So, its first satellite Io is a very tectonic space object with a large number of volcanoes and slightly larger than the Moon, in contrast to the calm and snowy Europe, under which there is supposed to be a huge ocean. There are suggestions that real life can live in this liquid icy water.

But neither Io nor Europa have a magnetic field, as Ganymede is the largest satellite not only among the moons of Jupiter, but also among all the satellites in the Solar System. Returning to the atmosphere of Jupiter itself, it is worth believing that his research was carried out by Galileo, or rather by his atmospheric probe, which turned on at an altitude of 350,000 kilometers above the clouds of Jupiter and after 6 hours at a speed of 48 km/s he touched the atmosphere of the planet and spent 57 seconds only on the braking process.

Its sensors detect a sharply increasing temperature value, which reaches values of 16,000 degrees Celsius. The exhaust parachute helps by reducing the speed to 120 m / s and this happens only in the upper layers of the atmosphere, which was higher in magnitude only at the beginning, and in small subsequent layers is equal to the Earth’s atmosphere. The second main parachute also opens, reducing the speed to 27 m / s, which also reduces the temperature, after which the most important information about the structure of Jupiter’s atmosphere is transmitted within an hour, the overall temperature is also measured, a huge number of lightning is recorded, which are very common in such dense clouds of the planet. In addition, data on the energy received from the Sun is recorded, with a comparison of the energy, the emitter of which is the core of the planet.

At a depth of 180 km, at a temperature of 150 degrees Celsius and a pressure of 2,300,000 Gpa, which is comparable to an atmospheric pressure of 101,325 Pa in 22.7 atmospheres, the radio transmitter overheats and the device stops transmitting information. However, it continues its flight for several hours, the temperature and pressure begin to rise, leading to the fact that it eventually melts and evaporates in the vast atmosphere of the planet, turning into a part of it.

Galileo ended its existence, having received the same fate after 8 years of incessant service. But it is worth saying that this is only the beginning of the journey and the time will come when it will be possible to talk about creating more powerful devices equipped with new nuclear engines using thermonuclear or resonant nuclear reactions. The energy obtained from such energy sources will be sufficient to penetrate to a greater depth, supporting a thicker shell structure capable of withstanding higher atmospheric pressures, while continuing to penetrate into the deep layers of the atmosphere. In addition, paying attention to the chemical composition of Jupiter, which is dominated by hydrogen, nitrogen and some other gaseous compounds, there is a huge ocean of liquid hydrogen, which subsequently turns into a solid core.

There is also a further analysis of the planet, along with consideration of the possibility of participating in the role of a passenger in a spacecraft of this type – a human. Full-fledged installations could be developed that can receive energy from lightning, even if necessary, the number of which is simply huge, not to mention ultrafast winds, which can already be used not for wind generators, but for full-fledged ion engines or, more precisely, ion generators. Among all the above, the real challenge for human civilization, like the conquest of Mount Everest, remains the conquest of the «Big Red Spot» until it has transformed its existence, because if we compare even the data obtained at the beginning of the last century, the power and size of the largest hurricane in the system decrease every time. From the above it can be seen that achieving the set results is quite realistic and possible, which in turn will bring human civilization and its capabilities to a new level.

The literature used

1. Dr. David R. Williams. Jupiter Fact Sheet. NASA. 2007.

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3. National Aeronautics and Space Administration. Probe Nephelometer. // характеристики космического аппарата. – NASA/JPL. 1983. – Iss. 6.

4. Анна Сдобина. Ты не пройдёшь! Кто ловит космических странников на пути к Земле // Наука и жизнь, 2022,;4. – С. 10—16.

5. Tristan Guillot, Daniel Gautier. Giant Planets. – 2009-12-10.

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7. Guillot, T.; Stevenson, D. J.; Hubbard, W. B.; Saumon, D. Chapter 3: The Interior of Jupiter // Jupiter: The Planet, Satellites and Magnetosphere (англ.) / Bagenal, F.; Dowling, T. E.; McKinnon, W. B. – Кембриджский университет Press, 2004. – ISBN 0521818087.

8. Bodenheimer, P. Calculations of the early evolution of Jupiter (англ.) // Icarus. – Elsevier, 1974. – Vol. 23. – P. 319. – doi:10.1016/0019—1035 (74) 90050—5