What does a nuclear bomb consist of? Hydrogen versus nuclear. What you need to know about nuclear weapons. When and how did nuclear weapons appear?

The one who invented the atomic bomb could not even imagine what tragic consequences this miracle invention of the 20th century could lead to. It was a very long journey before the residents of the Japanese cities of Hiroshima and Nagasaki experienced this superweapon.

A start

In April 1903, Paul Langevin's friends gathered in the Parisian garden of France. The reason was the defense of the dissertation of the young and talented scientist Marie Curie. Among the distinguished guests was the famous English physicist Sir Ernest Rutherford. In the midst of the fun, the lights were turned off. announced to everyone that there would be a surprise. With a solemn look, Pierre Curie brought in a small tube with radium salts, which shone with a green light, causing extraordinary delight among those present. Subsequently, the guests heatedly discussed the future of this phenomenon. Everyone agreed that radium would solve the acute problem of energy shortages. This inspired everyone for new research and further prospects. If they had been told then that laboratory work with radioactive elements would lay the foundation for the terrible weapons of the 20th century, it is not known what their reaction would have been. It was then that the story of the atomic bomb began, killing hundreds of thousands of Japanese civilians.

Playing ahead

On December 17, 1938, the German scientist Otto Gann obtained irrefutable evidence of the decay of uranium into smaller elementary particles. Essentially, he managed to split the atom. In the scientific world, this was regarded as a new milestone in the history of mankind. Otto Gann did not share the political views of the Third Reich. Therefore, in the same year, 1938, the scientist was forced to move to Stockholm, where, together with Friedrich Strassmann, he continued his scientific research. Fearing that Nazi Germany will be the first to receive terrible weapons, he writes a letter warning about this. The news of a possible advance greatly alarmed the US government. The Americans began to act quickly and decisively.

Who created the atomic bomb? American project

Even before the group, many of whom were refugees from the Nazi regime in Europe, was tasked with the development of nuclear weapons. Initial research, it is worth noting, was carried out in Nazi Germany. In 1940, the government of the United States of America began funding its own program to develop atomic weapons. An incredible sum of two and a half billion dollars was allocated to implement the project. Outstanding physicists of the 20th century were invited to implement this secret project, among whom were more than ten Nobel laureates. In total, about 130 thousand employees were involved, among whom were not only military personnel, but also civilians. The development team was headed by Colonel Leslie Richard Groves, and Robert Oppenheimer became the scientific director. He is the man who invented the atomic bomb. A special secret engineering building was built in the Manhattan area, which we know under the code name “Manhattan Project”. Over the next few years, scientists from the secret project worked on the problem of nuclear fission of uranium and plutonium.

The non-peaceful atom of Igor Kurchatov

Today, every schoolchild will be able to answer the question of who invented the atomic bomb in the Soviet Union. And then, in the early 30s of the last century, no one knew this.

In 1932, Academician Igor Vasilyevich Kurchatov was one of the first in the world to begin studying the atomic nucleus. Gathering like-minded people around him, Igor Vasilyevich created the first cyclotron in Europe in 1937. In the same year, he and his like-minded people created the first artificial nuclei.

In 1939, I.V. Kurchatov began studying a new direction - nuclear physics. After several laboratory successes in studying this phenomenon, the scientist receives at his disposal a secret research center, which was named “Laboratory No. 2”. Nowadays this classified object is called "Arzamas-16".

The target direction of this center was the serious research and creation of nuclear weapons. Now it becomes obvious who created the atomic bomb in the Soviet Union. His team then consisted of only ten people.

There will be an atomic bomb

By the end of 1945, Igor Vasilyevich Kurchatov managed to assemble a serious team of scientists numbering more than a hundred people. The best minds of various scientific specializations came to the laboratory from all over the country to create atomic weapons. After the Americans dropped an atomic bomb on Hiroshima, Soviet scientists realized that this could be done with the Soviet Union. "Laboratory No. 2" receives from the country's leadership a sharp increase in funding and a large influx of qualified personnel. Lavrenty Pavlovich Beria is appointed responsible for such an important project. The enormous efforts of Soviet scientists have borne fruit.

Semipalatinsk test site

The atomic bomb in the USSR was first tested at the test site in Semipalatinsk (Kazakhstan). On August 29, 1949, a nuclear device with a yield of 22 kilotons shook the Kazakh soil. Nobel laureate physicist Otto Hanz said: “This is good news. If Russia has atomic weapons, then there will be no war.” It was this atomic bomb in the USSR, encrypted as product No. 501, or RDS-1, that eliminated the US monopoly on nuclear weapons.

Atomic bomb. Year 1945

In the early morning of July 16, the Manhattan Project conducted its first successful test of an atomic device - a plutonium bomb - at the Alamogordo test site in New Mexico, USA.

The money invested in the project was well spent. The first in the history of mankind was carried out at 5:30 am.

“We have done the devil’s work,” the one who invented the atomic bomb in the USA, later called “the father of the atomic bomb,” will say later.

Japan will not capitulate

By the time of the final and successful testing of the atomic bomb, Soviet troops and allies had finally defeated Nazi Germany. However, there was one state that promised to fight to the end for dominance in the Pacific Ocean. From mid-April to mid-July 1945, the Japanese army repeatedly carried out air strikes against allied forces, thereby inflicting heavy losses on the US army. At the end of July 1945, the militaristic Japanese government rejected the Allied demand for surrender under the Potsdam Declaration. It stated, in particular, that in case of disobedience, the Japanese army would face rapid and complete destruction.

The President agrees

The American government kept its word and began a targeted bombing of Japanese military positions. Air strikes did not bring the desired result, and US President Harry Truman decides to invade Japanese territory by American troops. However, the military command dissuades its president from such a decision, citing the fact that an American invasion would entail a large number of casualties.

At the suggestion of Henry Lewis Stimson and Dwight David Eisenhower, it was decided to use a more effective way to end the war. A big supporter of the atomic bomb, US Presidential Secretary James Francis Byrnes, believed that the bombing of Japanese territories would finally end the war and put the United States in a dominant position, which would have a positive impact on the further course of events in the post-war world. Thus, US President Harry Truman was convinced that this was the only correct option.

Atomic bomb. Hiroshima

The small Japanese city of Hiroshima with a population of just over 350 thousand people, located five hundred miles from the Japanese capital Tokyo, was chosen as the first target. After the modified B-29 Enola Gay bomber arrived at the US naval base on Tinian Island, an atomic bomb was installed on board the aircraft. Hiroshima was to experience the effects of 9 thousand pounds of uranium-235.

This never-before-seen weapon was intended for civilians in a small Japanese town. The bomber's commander was Colonel Paul Warfield Tibbetts Jr. The US atomic bomb bore the cynical name “Baby”. On the morning of August 6, 1945, at approximately 8:15 a.m., the American “Little” was dropped on Hiroshima, Japan. About 15 thousand tons of TNT destroyed all life within a radius of five square miles. One hundred and forty thousand city residents died in a matter of seconds. The surviving Japanese died a painful death from radiation sickness.

They were destroyed by the American atomic “Baby”. However, the devastation of Hiroshima did not cause the immediate surrender of Japan, as everyone expected. Then it was decided to carry out another bombing of Japanese territory.

Nagasaki. The sky is on fire

The American atomic bomb “Fat Man” was installed on board a B-29 aircraft on August 9, 1945, still there, at the US naval base in Tinian. This time the aircraft commander was Major Charles Sweeney. Initially, the strategic target was the city of Kokura.

However, weather conditions did not allow the plan to be carried out; heavy clouds interfered. Charles Sweeney went into the second round. At 11:02 a.m., the American nuclear “Fat Man” engulfed Nagasaki. It was a more powerful destructive air strike, which was several times stronger than the bombing in Hiroshima. Nagasaki tested an atomic weapon weighing about 10 thousand pounds and 22 kilotons of TNT.

The geographic location of the Japanese city reduced the expected effect. The thing is that the city is located in a narrow valley between the mountains. Therefore, the destruction of 2.6 square miles did not reveal the full potential of American weapons. The Nagasaki atomic bomb test is considered the failed Manhattan Project.

Japan surrendered

At noon on August 15, 1945, Emperor Hirohito announced his country's surrender in a radio address to the people of Japan. This news quickly spread around the world. Celebrations began in the United States of America to mark the victory over Japan. The people rejoiced.

On September 2, 1945, a formal agreement to end the war was signed aboard the American battleship Missouri anchored in Tokyo Bay. Thus ended the most brutal and bloody war in human history.

For six long years, the world community has been moving towards this significant date - since September 1, 1939, when the first shots of Nazi Germany were fired in Poland.

Peaceful atom

In total, 124 nuclear explosions were carried out in the Soviet Union. What is characteristic is that all of them were carried out for the benefit of the national economy. Only three of them were accidents that resulted in the leakage of radioactive elements. Programs for the use of peaceful atoms were implemented in only two countries - the USA and the Soviet Union. Nuclear peaceful energy also knows an example of a global catastrophe, when a reactor exploded at the fourth power unit of the Chernobyl nuclear power plant.

Exploded near Nagasaki. The death and destruction that accompanied these explosions was unprecedented. Fear and horror gripped the entire Japanese population, forcing them to surrender in less than a month.

However, after the end of the Second World War, atomic weapons did not fade into the background. The outbreak of the Cold War became a huge psychological pressure factor between the USSR and the USA. Both sides invested huge amounts of money in the development and creation of new nuclear power plants. Thus, several thousand atomic shells have accumulated on our planet over 50 years. This is quite enough to destroy all life on several times. For this reason, in the late 90s, the first disarmament treaty was signed between the United States and Russia to reduce the risk of a worldwide catastrophe. Despite this, currently 9 countries have nuclear weapons, taking their defense to a different level. In this article we will look at why atomic weapons received their destructive power and how atomic weapons work.

In order to understand the full power of atomic bombs, it is necessary to understand the concept of radioactivity. As you know, the smallest structural unit of matter that makes up the whole world around us is the atom. An atom, in turn, consists of a nucleus and something rotating around it. The nucleus consists of neutrons and protons. Electrons have a negative charge, and protons have a positive charge. Neutrons, as their name suggests, are neutral. Usually the number of neutrons and protons is equal to the number of electrons in one atom. However, under the influence of external forces, the number of particles in the atoms of a substance can change.

We are only interested in the option when the number of neutrons changes, and an isotope of the substance is formed. Some isotopes of a substance are stable and occur naturally, while others are unstable and tend to decay. For example, carbon has 6 neutrons. Also, there is an isotope of carbon with 7 neutrons - a fairly stable element found in nature. An isotope of carbon with 8 neutrons is already an unstable element and tends to decay. This is radioactive decay. In this case, unstable nuclei emit three types of rays:

1. Alpha rays are a fairly harmless stream of alpha particles that can be stopped with a thin sheet of paper and cannot cause harm.

Even if living organisms were able to survive the first two, the wave of radiation causes very transient radiation sickness, killing in a matter of minutes. Such damage is possible within a radius of several hundred meters from the explosion. Up to a few kilometers from the explosion, radiation sickness will kill a person in a few hours or days. Those outside the immediate explosion may also be exposed to radiation by eating foods and by inhaling from the contaminated area. Moreover, radiation does not disappear instantly. It accumulates in the environment and can poison living organisms for many decades after the explosion.

The harm from nuclear weapons is too dangerous to be used under any circumstances. The civilian population inevitably suffers from it and irreparable damage is caused to nature. Therefore, the main use of nuclear bombs in our time is deterrence from attack. Even nuclear weapons testing is currently prohibited in most parts of our planet.

North Korea threatens the US with testing a super-powerful hydrogen bomb in the Pacific Ocean. Japan, which may suffer as a result of the tests, called North Korea's plans completely unacceptable. Presidents Donald Trump and Kim Jong-un argue in interviews and talk about open military conflict. For those who do not understand nuclear weapons, but want to be in the know, The Futurist has compiled a guide.

How do nuclear weapons work?

Like a regular stick of dynamite, a nuclear bomb uses energy. Only it is released not during a primitive chemical reaction, but in complex nuclear processes. There are two main ways to extract nuclear energy from an atom. IN nuclear fission the nucleus of an atom decays into two smaller fragments with a neutron. Nuclear fusion – the process by which the Sun produces energy – involves the joining of two smaller atoms to form a larger one. In any process, fission or fusion, large amounts of thermal energy and radiation are released. Depending on whether nuclear fission or fusion is used, bombs are divided into nuclear (atomic) And thermonuclear .

Can you tell me more about nuclear fission?

Atomic bomb explosion over Hiroshima (1945)

As you remember, an atom is made up of three types of subatomic particles: protons, neutrons and electrons. The center of the atom, called core , consists of protons and neutrons. Protons are positively charged, electrons are negatively charged, and neutrons have no charge at all. The proton-electron ratio is always one to one, so the atom as a whole has a neutral charge. For example, a carbon atom has six protons and six electrons. Particles are held together by a fundamental force - strong nuclear force .

The properties of an atom can change significantly depending on how many different particles it contains. If you change the number of protons, you will have a different chemical element. If you change the number of neutrons, you get isotope the same element that you have in your hands. For example, carbon has three isotopes: 1) carbon-12 (six protons + six neutrons), which is a stable and common form of the element, 2) carbon-13 (six protons + seven neutrons), which is stable but rare, and 3) carbon -14 (six protons + eight neutrons), which is rare and unstable (or radioactive).

Most atomic nuclei are stable, but some are unstable (radioactive). These nuclei spontaneously emit particles that scientists call radiation. This process is called radioactive decay . There are three types of decay:

Alpha decay : The nucleus emits an alpha particle - two protons and two neutrons bound together. Beta decay : A neutron turns into a proton, electron and antineutrino. The ejected electron is a beta particle. Spontaneous fission: the nucleus disintegrates into several parts and emits neutrons, and also emits a pulse of electromagnetic energy - a gamma ray. It is the latter type of decay that is used in a nuclear bomb. Free neutrons emitted as a result of fission begin chain reaction , which releases a colossal amount of energy.

What are nuclear bombs made of?

They can be made from uranium-235 and plutonium-239. Uranium occurs in nature as a mixture of three isotopes: 238 U (99.2745% of natural uranium), 235 U (0.72%) and 234 U (0.0055%). The most common 238 U does not support a chain reaction: only 235 U is capable of this. To achieve maximum explosion power, it is necessary that the content of 235 U in the “filling” of the bomb is at least 80%. Therefore, uranium is produced artificially enrich . To do this, the mixture of uranium isotopes is divided into two parts so that one of them contains more than 235 U.

Typically, isotope separation leaves behind a lot of depleted uranium that is unable to undergo a chain reaction—but there is a way to make it do so. The fact is that plutonium-239 does not occur in nature. But it can be obtained by bombarding 238 U with neutrons.

How is their power measured?

The power of a nuclear and thermonuclear charge is measured in TNT equivalent - the amount of trinitrotoluene that must be detonated to obtain a similar result. It is measured in kilotons (kt) and megatons (Mt). The yield of ultra-small nuclear weapons is less than 1 kt, while super-powerful bombs yield more than 1 mt.

The power of the Soviet “Tsar Bomb” was, according to various sources, from 57 to 58.6 megatons in TNT equivalent; the power of the thermonuclear bomb, which the DPRK tested in early September, was about 100 kilotons.

Who created nuclear weapons?

American physicist Robert Oppenheimer and General Leslie Groves

In the 1930s, Italian physicist Enrico Fermi demonstrated that elements bombarded by neutrons could be transformed into new elements. The result of this work was the discovery slow neutrons , as well as the discovery of new elements not represented on the periodic table. Soon after Fermi's discovery, German scientists Otto Hahn And Fritz Strassmann bombarded uranium with neutrons, resulting in the formation of a radioactive isotope of barium. They concluded that low-speed neutrons cause the uranium nucleus to break into two smaller pieces.

This work excited the minds of the whole world. At Princeton University Niels Bohr worked with John Wheeler to develop a hypothetical model of the fission process. They suggested that uranium-235 undergoes fission. Around the same time, other scientists discovered that the fission process produced even more neutrons. This prompted Bohr and Wheeler to ask an important question: could the free neutrons created by fission start a chain reaction that would release enormous amounts of energy? If this is so, then it is possible to create weapons of unimaginable power. Their assumptions were confirmed by a French physicist Frederic Joliot-Curie . His conclusion became the impetus for developments in the creation of nuclear weapons.

Physicists from Germany, England, the USA, and Japan worked on the creation of atomic weapons. Before the start of World War II Albert Einstein wrote to the US President Franklin Roosevelt that Nazi Germany plans to purify uranium-235 and create an atomic bomb. It now turns out that Germany was far from carrying out a chain reaction: they were working on a “dirty”, highly radioactive bomb. Be that as it may, the US government threw all its efforts into creating an atomic bomb as soon as possible. The Manhattan Project was launched, led by an American physicist Robert Oppenheimer and general Leslie Groves . It was attended by prominent scientists who emigrated from Europe. By the summer of 1945, atomic weapons were created based on two types of fissile material - uranium-235 and plutonium-239. One bomb, the plutonium “Thing,” was detonated during testing, and two more, the uranium “Baby” and the plutonium “Fat Man,” were dropped on the Japanese cities of Hiroshima and Nagasaki.

How does a thermonuclear bomb work and who invented it?

Thermonuclear bomb is based on the reaction nuclear fusion . Unlike nuclear fission, which can occur either spontaneously or forcedly, nuclear fusion is impossible without the supply of external energy. Atomic nuclei are positively charged - so they repel each other. This situation is called the Coulomb barrier. To overcome repulsion, these particles must be accelerated to crazy speeds. This can be done at very high temperatures - on the order of several million Kelvin (hence the name). There are three types of thermonuclear reactions: self-sustaining (take place in the depths of stars), controlled and uncontrolled or explosive - they are used in hydrogen bombs.

The idea of a bomb with thermonuclear fusion initiated by an atomic charge was proposed by Enrico Fermi to his colleague Edward Teller back in 1941, at the very beginning of the Manhattan Project. However, this idea was not in demand at that time. Teller's developments were improved Stanislav Ulam , making the idea of a thermonuclear bomb feasible in practice. In 1952, the first thermonuclear explosive device was tested on Enewetak Atoll during Operation Ivy Mike. However, it was a laboratory sample, unsuitable for combat. A year later, the Soviet Union detonated the world's first thermonuclear bomb, assembled according to the design of physicists Andrey Sakharov And Yulia Kharitona . The device resembled a layer cake, so the formidable weapon was nicknamed “Puff”. In the course of further development, the most powerful bomb on Earth, the “Tsar Bomba” or “Kuzka’s Mother,” was born. In October 1961, it was tested on the Novaya Zemlya archipelago.

What are thermonuclear bombs made of?

If you thought that hydrogen and thermonuclear bombs are different things, you were wrong. These words are synonymous. It is hydrogen (or rather, its isotopes - deuterium and tritium) that is required to carry out a thermonuclear reaction. However, there is a difficulty: in order to detonate a hydrogen bomb, it is first necessary to obtain a high temperature during a conventional nuclear explosion - only then will the atomic nuclei begin to react. Therefore, in the case of a thermonuclear bomb, design plays a big role.

Two schemes are widely known. The first is Sakharov’s “puff pastry”. In the center was a nuclear detonator, which was surrounded by layers of lithium deuteride mixed with tritium, which were interspersed with layers of enriched uranium. This design made it possible to achieve a power within 1 Mt. The second is the American Teller-Ulam scheme, where the nuclear bomb and hydrogen isotopes were located separately. It looked like this: below there was a container with a mixture of liquid deuterium and tritium, in the center of which there was a “spark plug” - a plutonium rod, and on top - a conventional nuclear charge, and all this in a shell of heavy metal (for example, depleted uranium). Fast neutrons produced during the explosion cause atomic fission reactions in the uranium shell and add energy to the total energy of the explosion. Adding additional layers of lithium uranium-238 deuteride makes it possible to create projectiles of unlimited power. In 1953, Soviet physicist Victor Davidenko accidentally repeated the Teller-Ulam idea, and on its basis Sakharov came up with a multi-stage scheme that made it possible to create weapons of unprecedented power. “Kuzka’s Mother” worked exactly according to this scheme.

What other bombs are there?

There are also neutron ones, but this is generally scary. Essentially, a neutron bomb is a low-power thermonuclear bomb, 80% of the explosion energy of which is radiation (neutron radiation). It looks like an ordinary low-power nuclear charge, to which a block with a beryllium isotope, a source of neutrons, has been added. When a nuclear charge explodes, a thermonuclear reaction is triggered. This type of weapon was developed by an American physicist Samuel Cohen . It was believed that neutron weapons destroy all living things, even in shelters, but the range of destruction of such weapons is small, since the atmosphere scatters streams of fast neutrons, and the shock wave is stronger at large distances.

What about the cobalt bomb?

No, son, this is fantastic. Officially, no country has cobalt bombs. Theoretically, this is a thermonuclear bomb with a cobalt shell, which ensures strong radioactive contamination of the area even with a relatively weak nuclear explosion. 510 tons of cobalt can infect the entire surface of the Earth and destroy all life on the planet. Physicist Leo Szilard , who described this hypothetical design in 1950, called it the "Doomsday Machine".

What's cooler: a nuclear bomb or a thermonuclear one?

Full-scale model of "Tsar Bomba"

The hydrogen bomb is much more advanced and technologically advanced than the atomic one. Its explosive power far exceeds that of an atomic one and is limited only by the number of available components. In a thermonuclear reaction, much more energy is released for each nucleon (the so-called constituent nuclei, protons and neutrons) than in a nuclear reaction. For example, the fission of a uranium nucleus produces 0.9 MeV (megaelectronvolt) per nucleon, and the fusion of a helium nucleus from hydrogen nuclei releases an energy of 6 MeV.

Like bombs deliverto the goal?

At first they were dropped from airplanes, but air defense systems were constantly improving, and delivering nuclear weapons in this way turned out to be unwise. With the growth of missile production, all rights to deliver nuclear weapons were transferred to ballistic and cruise missiles of various bases. Therefore, a bomb now means not a bomb, but a warhead.

It is believed that the North Korean hydrogen bomb is too large to be mounted on a rocket - so if the DPRK decides to carry out the threat, it will be carried by ship to the explosion site.

What are the consequences of a nuclear war?

Hiroshima and Nagasaki are only a small part of the possible apocalypse. For example, the “nuclear winter” hypothesis is known, which was put forward by the American astrophysicist Carl Sagan and the Soviet geophysicist Georgy Golitsyn. It is assumed that the explosion of several nuclear warheads (not in the desert or water, but in populated areas) will cause many fires, and a large amount of smoke and soot will spill into the atmosphere, which will lead to global cooling. The hypothesis has been criticized by comparing the effect to volcanic activity, which has little effect on climate. In addition, some scientists note that global warming is more likely to occur than cooling - although both sides hope that we will never know.

Are nuclear weapons allowed?

After the arms race in the 20th century, countries came to their senses and decided to limit the use of nuclear weapons. The UN adopted treaties on the non-proliferation of nuclear weapons and the ban on nuclear tests (the latter was not signed by the young nuclear powers India, Pakistan, and the DPRK). In July 2017, a new treaty on the prohibition of nuclear weapons was adopted.

“Each State Party undertakes never under any circumstances to develop, test, produce, manufacture, otherwise acquire, possess or stockpile nuclear weapons or other nuclear explosive devices,” states the first article of the treaty. .

However, the document will not come into force until 50 states ratify it.

Nuclear weapons are strategic weapons capable of solving global problems. Its use is associated with dire consequences for all humanity. This makes the atomic bomb not only a threat, but also a weapon of deterrence.

The appearance of weapons capable of putting an end to the development of mankind marked the beginning of a new era. The likelihood of a global conflict or a new world war is minimized due to the possibility of total destruction of the entire civilization.

Despite such threats, nuclear weapons continue to be in service with the leading countries of the world. To a certain extent, it is this that becomes the determining factor in international diplomacy and geopolitics.

The history of the creation of the nuclear bomb

The question of who invented the nuclear bomb does not have a clear answer in history. The discovery of the radioactivity of uranium is considered to be a prerequisite for work on atomic weapons. In 1896, the French chemist A. Becquerel discovered the chain reaction of this element, marking the beginning of developments in nuclear physics.

In the next decade, alpha, beta and gamma rays were discovered, as well as a number of radioactive isotopes of certain chemical elements. The subsequent discovery of the law of radioactive decay of the atom became the beginning for the study of nuclear isometry.

In December 1938, German physicists O. Hahn and F. Strassmann were the first to carry out a nuclear fission reaction under artificial conditions. On April 24, 1939, the German leadership was informed about the possibility of creating a new powerful explosive.

However, the German nuclear program was doomed to failure. Despite the successful progress of scientists, the country, due to the war, constantly experienced difficulties with resources, especially with the supply of heavy water. In the later stages, research was slowed down by constant evacuations. On April 23, 1945, the developments of German scientists were captured in Haigerloch and taken to the USA.

The United States became the first country to express interest in the new invention. In 1941, significant funds were allocated for its development and creation. The first tests took place on July 16, 1945. Less than a month later, the United States used nuclear weapons for the first time, dropping two bombs on Hiroshima and Nagasaki.

The USSR's own research in the field of nuclear physics has been conducted since 1918. The Commission on the Atomic Nucleus was created in 1938 at the Academy of Sciences. However, with the outbreak of the war, its activities in this direction were suspended.

In 1943, information about scientific works in nuclear physics was received by Soviet intelligence officers from England. Agents were introduced into several US research centers. The information they obtained allowed them to accelerate the development of their own nuclear weapons.

The invention of the Soviet atomic bomb was led by I. Kurchatov and Yu. Khariton, they are considered the creators of the Soviet atomic bomb. Information about this became the impetus for the US preparation for preemptive war. In July 1949, the Trojan plan was developed, according to which it was planned to begin military operations on January 1, 1950.

The date was later moved to early 1957 so that all NATO countries could prepare and join the war. According to Western intelligence, nuclear weapons testing in the USSR could not have been carried out until 1954.

However, US preparations for war became known in advance, which forced Soviet scientists to speed up their research. In a short time they invent and create their own nuclear bomb. On August 29, 1949, the first Soviet atomic bomb RDS-1 (special jet engine) was tested at the test site in Semipalatinsk.

Such tests thwarted the Trojan plan. From that moment on, the United States ceased to have a monopoly on nuclear weapons. Regardless of the strength of the preemptive strike, there remained the risk of retaliatory action, which could lead to disaster. From that moment on, the most terrible weapon became the guarantor of peace between the great powers.

Principle of operation

The operating principle of an atomic bomb is based on a chain reaction of the decay of heavy nuclei or thermonuclear fusion of light ones. During these processes, a huge amount of energy is released, which turns the bomb into a weapon of mass destruction.

On September 24, 1951, tests of the RDS-2 were carried out. They could already be delivered to the launch points so that they could reach the United States. On October 18, the RDS-3, delivered by bomber, was tested.

Further testing moved on to thermonuclear fusion. The first tests of such a bomb in the United States took place on November 1, 1952. In the USSR, such a warhead was tested within 8 months.

TX nuclear bomb

Nuclear bombs do not have clear characteristics due to the variety of uses of such ammunition. However, there are a number of general aspects that must be taken into account when creating this weapon.

These include:

axisymmetric structure of the bomb - all blocks and systems are placed in pairs in cylindrical, spherocylindrical or conical containers;
when designing, they reduce the mass of a nuclear bomb by combining power units, choosing the optimal shape of shells and compartments, as well as using more durable materials;
minimize the number of wires and connectors, and use a pneumatic line or explosive detonation cord to transmit the impact;
blocking of the main components is carried out using partitions that are destroyed by pyroelectric charges;
active substances are pumped using a separate container or external carrier.

Taking into account the requirements for the device, a nuclear bomb consists of the following components:

a housing that provides protection for ammunition from physical and thermal effects - divided into compartments and can be equipped with a load-bearing frame;
nuclear charge with power mount;
self-destruction system with its integration into a nuclear charge;
a power source designed for long-term storage - activated already during rocket launch;
external sensors - to collect information;
cocking, control and detonation systems, the latter embedded in the charge;
systems for diagnostics, heating and maintaining a microclimate inside sealed compartments.

Depending on the type of nuclear bomb, other systems are also integrated into it. These may include a flight sensor, a locking remote control, calculation of flight options, and an autopilot. Some munitions also use jammers designed to reduce resistance to a nuclear bomb.

The consequences of using such a bomb

The “ideal” consequences of the use of nuclear weapons were already recorded when the bomb was dropped on Hiroshima. The charge exploded at an altitude of 200 meters, which caused a strong shock wave. Coal-fired stoves were knocked over in many homes, causing fires even outside the affected area.

The flash of light was followed by a heat stroke that lasted a matter of seconds. However, its power was enough to melt tiles and quartz within a radius of 4 km, as well as spray telegraph poles.

The heat wave was followed by a shock wave. The wind speed reached 800 km/h, its gust destroyed almost all buildings in the city. Of the 76 thousand buildings, about 6 thousand partially survived, the rest were completely destroyed.

The heat wave, as well as rising steam and ash, caused heavy condensation in the atmosphere. A few minutes later it began to rain with drops of ash black. Contact with the skin caused severe incurable burns.

People who were within 800 meters of the epicenter of the explosion were burned to dust. Those who remained were exposed to radiation and radiation sickness. Its symptoms were weakness, nausea, vomiting, and fever. There was a sharp decrease in the number of white cells in the blood.

In seconds, about 70 thousand people were killed. The same number subsequently died from their wounds and burns.

Three days later, another bomb was dropped on Nagasaki with similar consequences.

Stockpiles of nuclear weapons in the world

The main stockpiles of nuclear weapons are concentrated in Russia and the United States. In addition to them, the following countries have atomic bombs:

Great Britain - since 1952;
France - since 1960;
China - since 1964;
India - since 1974;
Pakistan - since 1998;
DPRK - since 2008.

Israel also possesses nuclear weapons, although there has been no official confirmation from the country's leadership.