Presentation: "Armed Forces of the Russian Federation." Presentation on the topic “Russian small arms” Modern military equipment of the Russian army presentation

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Our military equipment. On the ground, the legendary T-34 (and later T-34-85), which had no equal on the battlefield, inspired fear. IN Battle of Kursk- Katyushas scattered fascist formations that were ready to rush into attack. And in the air the fascist vultures were rammed by our Il-2s, which the fascists nicknamed “Black Death”. This technique brought us victory in the bloody war.

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The Eu series locomotive of medium power is designed to serve passenger and freight trains. The locomotives of this series were distinguished by their power and reliability, their ability to operate on any type of fuel. It was this locomotive that was destined to become the main front-line locomotive. Weight 85t

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The weapon is relatively simple, consisting of guide rails and a device for guiding them. For aiming, rotating and lifting mechanisms and an artillery sight were provided. There were two jacks at the rear of the vehicle, providing greater stability when firing. The rocket was a welded cylinder divided into three compartments - the warhead, the fuel and the jet nozzle. One machine could accommodate from 14 to 48 guides. The RS-132 projectile for mounting the BM-13 was 1.8 m long, 132 mm in diameter and weighed 42.5 kg.

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On the eve of the war, rifle troops were equipped with automatic weapons. Designers V.A. Degtyarev, F.V. Tokarev, S.G. Simonov, G.S. Shpagin and others created different kinds automatic weapons: self-loading rifles (SVT), light and anti-aircraft machine guns, submachine guns (PPD and PPSh). To the beginning of the Great Patriotic War firepower rifle battalion was about 15980 rounds per minute. This significantly increased the fire capabilities of rifle troops.

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In the early 30s, Soviet gunsmiths developed a potentially new individual automatic melee weapon, which combined the combat qualities of a pistol (light weight, portability) and a machine gun (high firepower). Prototypes of machine guns were made, the best of which was recognized as the Degtyarev submachine gun (PPD).

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The 152-mm gun of the 1935 model was designed by a group of engineers led by I.I. Ivanov. It successfully passed field tests in 1936 and was put into service. This long-range weapon, capable of sending a projectile over a distance of almost 26 km, was used in the artillery units of the High Command.

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In 1938, a group of designers led by F.F. Petrov created a 122-mm howitzer, which, in its design, was one of the simplest domestic ones artillery systems. The howitzer proved itself well during the Great Patriotic War. It successfully suppressed and destroyed enemy manpower and firepower both in open areas and in shelters, destroyed field-type structures and fought artillery and even tanks.

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During the Second World War, the 25-mm automatic anti-aircraft gun was widely used by units of the Red Army to fight aircraft at ranges up to 2400 m and at altitudes up to 2000 m. If necessary, it could also be fired at light tanks and armored vehicles.

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The Soviet 57-mm anti-tank gun ZIS-2 was successfully used during the Great Patriotic War to combat enemy tanks and armored vehicles. In terms of its characteristics, it had no equal among small-caliber anti-tank artillery: at initial speed At 700 m/s, its projectile at a distance of 500 m penetrated armor 100 mm thick.

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In 1942, the Soviet Union developed a new missile M-30 300 mm caliber, designed to destroy enemy fortifications in the front line. A powerful over-caliber warhead weighing about 29 kg was attached rocket engine from an M-13 shell. The aerodynamic qualities of the M-30 were unsatisfactory, which negatively affected the firing range and accuracy, but they were largely compensated for by a much greater destructive force new projectile. The M-30 was launched from a conventional wooden transport closure. Four or eight of these boxes were placed on a metal frame with removable stands in the front for adjusting the elevation angle and openers for support in the rear. Launching machine M-30

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The first Soviet 82-mm mortar was developed in 1934 and two years later was put into service under the designation “82-mm battalion mortar mod. 1936." It was a smooth pipe with a biped, resting on a massive slab. The biped contained a shock absorber, lifting and turning mechanisms and a sight. To fire a shot, the feathered mine was lowered into the mortar barrel and, under the influence own weight was impaled with a primer on the firing pin in the breech. The mine charge, which ignited at the same time, threw it out of the barrel. To increase the firing range, additional charges were inserted between the wings of the mine tail.

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To partially replace divisional howitzers, in 1940 the GAU announced a competition for the creation of a cheaper 160-mm mortar designed to destroy enemy fortifications on the ground. long range shooting. A year later, two prototypes of the mortar, developed by the design bureaus of I.G., arrived for testing. Teverovsky and B.I. Shavyrina. Based on the test results, preference was given to the Teverovsky system, which, after appropriate modifications, was adopted for service under the designation “160-mm mortar mod. 1943."

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At the end of 1942 Soviet troops switched to offensive operations and to support formations a fairly maneuverable 152-mm hull howitzer with a relatively light weight was required. Its development was entrusted to the design bureau under the leadership of F.F. Petrova. They took the barrel from a 152-mm howitzer mod. 1938 (M-10), and placed it on the carriage of the 122-mm M-30 divisional howitzer. Thus, just 18 days after the start of work, the new gun, designated D-1, successfully passed field tests and then military tests. It was quite light for its class, and the suspension mechanism allowed it to be towed at speeds of up to 40 km/h.

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The development of a 50-mm company mortar began at the design bureau of Plant No. 7 at the beginning of 1937. Several prototype mortars were tested during the year. For service with a 50-mm company mortar mod. 1938 was adopted in 1938. Its serial production began in 1939. During the year, 1,720 mortars were produced. For the first and third quarters of 1940, eleven factories were given a plan for 23,105 50-mm mortars mod. 1938, by August 1, 1940, 18,994 mortars were manufactured at a price of 3,600 rubles. a piece.

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The mortar is assembled according to a blind design (all parts of the mortar are mounted on a base plate) and is equipped with a remote valve with gases vented upward. The mortar plate is stamp-welded membrane type. Three openers were attached to the plate. The mortar carriage consisted of two parts: the lower one, connected to the bearing of the base plate and rotating around the bearing, and the upper one, swinging around the hinge joint with the lower part of the carriage.

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The barrel of the 280-mm Br-5 mortar was developed at the Barrikady plant under the leadership of Ivanov. Although the Br-5 mortar was not debugged, the Barrikady plant put it into full production. A total of 20 mortars were delivered in 1939 and another 25 in 1940. In 1941, not a single 280 mm mortar was delivered. After the start of the Great Patriotic War, Br-5 mortars were not produced.

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76.2 mm regimental gun mod. 1927 was widely used during military conflicts on the Chinese Eastern Railway, near Lake Khasan and on the Khalkhin Gol River, as well as during the first period of the Great Patriotic War. However for offensive operations The Red Army infantry needed a lighter weapon with an increased horizontal firing sector to combat moving targets. The project for the new regimental gun was developed at the Motovilikha plant by engineers under the leadership of M. Tsirulnikov. They used a method that had already been tested many times, placing the barrel of the old “regiment” on the carriage of a 45-mm anti-tank gun mod. 1942. Thus, the horizontal aiming angle of the gun was increased to 60° through the use of sliding frames.

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During the Great Patriotic War, the 37-mm cannon of the 1939 model was the main anti-aircraft gun of the Red Army to protect ground troops from attacks by low-flying enemy aircraft. Anti-aircraft guns, depending on the situation, were also used in battles with enemy armored vehicles. The 37-mm anti-aircraft gun with the factory index 31-K was developed in 1938 at the plant named after. Kalinin under the leadership of chief designer M.N. Loginova. Prototype The machine entered testing in October of the same year and showed pretty good results.

SS-18 ("Satan") missile SS-18 ("Satan") missiles terrify Americans. Therefore, the American lobby is doing everything to force Russia to destroy these weapons along with a simultaneous withdrawal from the ABM Treaty. Russia could not be afraid of the arms race and, in particular, missile defense, having in its arsenal the SS-18 (“Satan”). This missile with multiple warheads, both now and in the medium term, is not vulnerable to any missile defense. The SS-18 missile carries 16 platforms, one of which is loaded with decoys. When entering a high orbit, all the heads of the “Satan” go “in a cloud” of false targets and are practically not identified by radars. SS-18 ("Satan") missiles terrify Americans. Therefore, the American lobby is doing everything to force Russia to destroy these weapons along with a simultaneous withdrawal from the ABM Treaty. Russia could not be afraid of the arms race and, in particular, missile defense, having in its arsenal the SS-18 (“Satan”). This missile with multiple warheads, both now and in the medium term, is not vulnerable to any missile defense. The SS-18 missile carries 16 platforms, one of which is loaded with decoys. When entering a high orbit, all the heads of the “Satan” go “in a cloud” of false targets and are practically not identified by radars.

Aerial target MA-31 Flight range: MA-31 reaches 130 kilometers. The altitude range is from 100 to meters. The flight route is entered into the on-board computer. The rocket's flight speed during the mid-flight section of the trajectory is 750 meters per second. Energy capabilities make it possible to implement a low-altitude flight mode (3 - 5 meters) at a speed 2.4 times higher than the speed of sound. Thanks to these properties, MA-31 has no analogues in the world. Flight range: MA-31 reaches 130 kilometers. The altitude range is from 100 to meters. The flight route is entered into the on-board computer. The rocket's flight speed during the mid-flight section of the trajectory is 750 meters per second. Energy capabilities make it possible to implement a low-altitude flight mode (3 - 5 meters) at a speed 2.4 times higher than the speed of sound. Thanks to these properties, MA-31 has no analogues in the world.

X-55 strategic cruise missile The strategic version is capable of hitting with high accuracy stationary targets away from the launch point. Each Tu-95MS bomber can carry up to six Kh-55 missiles located on a catapult-type launch drum in the cargo compartment of the aircraft. The two cargo compartments of the supersonic Tu-160 can accommodate 12 cruise missiles long-range (with additional tanks) or 24 conventional cruise missiles.

Supersonic, one of the best in the world, missile "Yakhont" The main advantage of the "Onyx" family of missiles is its supersonic flight speed, making the missile low-vulnerable from modern means Air defense. The anti-ship missile system is equipped with an autonomous inertial control system with a navigation system and a radar homing head. "Yakhont" is capable of hitting a modern cruiser-class warship at a range of up to 300 km with a warhead weighing 1 kg. Several missiles can destroy an aircraft carrier. The main advantage of the Onyx family of missiles is their supersonic flight speed, which makes the missile less vulnerable to modern air defense systems. The anti-ship missile system is equipped with an autonomous inertial control system with a navigation system and a radar homing head. "Yakhont" is capable of hitting a modern cruiser-class warship at a range of up to 300 km with a warhead weighing 1 kg. Several missiles can destroy an aircraft carrier.

Cruise missile 350 "Burya" The missile was designed according to a normal aircraft design with a mid-mounted delta wing with a sweep angle along the leading edge of 70° and a thin supersonic profile. The rocket body had a cylindrical shape, slightly narrowed at the front and rear; inside it, along its entire length, ran the air intake channel of the sustainer supersonic ramjet engine (SPVRD) RD-012, designed by OKB-670 M.M. Bondaryuk. The missile was designed according to a normal aircraft design with a mid-mounted delta wing with a sweep angle along the leading edge of 70° and a thin supersonic profile. The rocket body had a cylindrical shape, slightly narrowed at the front and rear; inside it, along its entire length, ran the air intake channel of the sustainer supersonic ramjet engine (SPVRD) RD-012, designed by OKB-670 M.M. Bondaryuk.

Sea-based cruise missile "Granit" Solving the problem of fighting aircraft carriers, which has been one of the main ones for our Navy for the last 50 years, the leaders of the Soviet and Russian fleet made the main bet on anti-ship cruise missiles (ASC). Such a struggle is planned and practiced in the form of special maritime operations or fleet operations in the Northern and Pacific fleets.

Kh-29T missile The Kh-29T missile is designed to destroy visually visible ground and surface targets such as: reinforced concrete shelters, stationary railway and highway bridges, industrial structures, warehouses, concrete runways, ships and landing craft.

"Moskit" missile The 3M-80E ("Mosquito") missile is the main element of the 3M-80E anti-ship strike missile system, which includes, in addition to the missile, launcher and a shipborne launch control system located on the carrier ship. Designed to destroy surface ships and transports from naval strike groups, landing formations, convoys and single ships, both displacement and hydrofoil and hovercraft, in the conditions of modern and promising means of fire and electronic countermeasures. The 3M-80E ("Mosquito") missile is the main element of the 3M-80E anti-ship strike missile system, which includes, in addition to the missile, a launcher and a ship-based launch control system located on the carrier ship. Designed to destroy surface ships and transports from naval strike groups, landing formations, convoys and single ships, both displacement and hydrofoil and hovercraft, in the conditions of modern and promising means of fire and electronic countermeasures.

Anti-aircraft missile system S-300 is optimized to combat precision weapons, cruise missiles and ballistic targets, including subtle ones. It not only destroys air targets, but also undermines their warhead. The probability of hitting specified targets with one missile without taking into account operational reliability is: at least 0.9 for manned targets, including those made using stealth technology, loitering and performing anti-aircraft maneuvers; optimized to combat precision weapons, cruise missiles and ballistic targets, including stealth ones. It not only destroys air targets, but also undermines their warhead. The probability of hitting specified targets with one missile without taking into account operational reliability is: at least 0.9 for manned targets, including those made using stealth technology, loitering and performing anti-aircraft maneuvers;

Anti-aircraft missile system S-400 S "Triumph" (according to other sources, the system is called S - 300PM - 3). The new air defense system is intended to replace the S-300P and S-type air defense systems and should provide increased effectiveness when combating new types of targets - stealth aircraft made using Stealth technology, small-sized cruise missiles S "Triumph" (according to other sources, the system is called S - 300RM - 3). The new air defense system is designed to replace the S-300P and S type air defense systems and should provide increased effectiveness when combating new types of targets - stealth aircraft made using Stealth technology, small-sized cruise missiles

Anti-aircraft missile system "Gyurza" The anti-aircraft missile system "Gyurza" was created on the basis of the anti-aircraft missile system missile complex"Strela-10M". The modernized combat vehicle (CM) of the new complex, unlike the basic version, is capable of conducting round-the-clock combat work. In addition, the presence of new optical-electronic reconnaissance and control means allows for the exchange of information between combat vehicles of an anti-aircraft unit, as well as remote control of the process of combat work when repelling enemy air strikes. The Gyurza air defense system was created on the basis of the Strela-10M anti-aircraft missile system. The modernized combat vehicle (CM) of the new complex, unlike the basic version, is capable of conducting round-the-clock combat work. In addition, the presence of new optical-electronic reconnaissance and control means allows for the exchange of information between combat vehicles of an anti-aircraft unit, as well as remote control of the process of combat work when repelling enemy air strikes.

Anti-aircraft missile system "Strela-10 SV" The latest version of the modernized complex - "Strela-10M3", adopted for service in 1989, has an increased affected area, is highly effective and immune to interference in conditions of intense organized optical interference, and ensures firing at all types low-flying air targets (airplanes, helicopters, cruise missiles, remotely piloted vehicles). The development of the complex was carried out by a cooperation of enterprises that developed the Strela-10 air defense system and its other modifications. The latest version of the modernized complex - "Strela-10M3", put into service in 1989, has an increased destruction zone, is highly effective and noise-immunity in conditions of intense organized optical interference, and ensures firing at all types of low-flying air targets (airplanes, helicopters, cruise missiles , remotely piloted vehicles). The development of the complex was carried out by a cooperation of enterprises that developed the Strela-10 air defense system and its other modifications.

Electromagnetic bomb When such a bomb explodes over a target in the air, all nearby computers will burn out or at least stop working, and the operation of television and radio stations, power lines and other power supply circuits will be disrupted. And if you drop it over an airfield, not a single plane will take off. The wave affects people in much the same way as it does equipment; it disrupts the functioning of the body and the functioning of the brain. But since nature “designed” us with a very large margin of safety, the victims, having lost only a short time consciousness, will wake up without feeling any serious consequences

Air bomb KAB-1500 Adjustable aerial bombs KAB-1500 caliber 1500 kg are designed to destroy ground and surface stationary targets, including particularly strong and buried objects - fortifications, command posts, entrances to tunnels, runways, bridges, dams, etc. Depending on the modification, the bombs are equipped with one of two guidance systems - semi-active laser (KAB-1500L) or television-command (KAB-1500TK). Warhead bombs - high explosive or penetrating. Adjustable aircraft bombs KAB-1500 caliber 1500 kg are designed to destroy ground and surface stationary targets, including particularly strong and buried objects - fortifications, command posts, entrances to tunnels, runways, bridges, dams, etc. Depending on the modification, the bombs are equipped with one of two guidance systems - semi-active laser (KAB-1500L) or television-command (KAB-1500TK). The warhead of the bomb is high explosive or penetrating.

The aircraft carrier cruiser "Admiral Kuznetsov" After completion of tests at the end of the same year, it entered service with the USSR Navy. In January 1991, it was included in the Northern Fleet, and in December it sailed around Europe from Sevastopol to Severomorsk. Currently, it is the only aircraft-carrying cruiser of the Russian Navy, which provides basing and combat use highly effective naval fighters Su-33, as well as the largest surface ship of our fleet. After completion of tests at the end of the same year, it entered service with the USSR Navy. In January 1991, it was included in the Northern Fleet, and in December it sailed around Europe from Sevastopol to Severomorsk. Currently, it is the only aircraft-carrying cruiser of the Russian Navy, which provides the basing and combat use of highly effective Su-33 naval fighters, as well as the largest surface ship of our fleet

The newest nuclear submarine "Gepard" Nuclear boat"Gepard" is designed to destroy aircraft carriers, as well as coastal objects and targets. The Gepard's armament is 28 Granit cruise missiles with a launch range of up to three thousand kilometers, which can be equipped nuclear warhead with a capacity of 200 kilotons. The Gepard nuclear boat is designed to destroy aircraft carriers, as well as destroy coastal facilities and targets. The Gepard is armed with 28 Granit cruise missiles with a launch range of up to three thousand kilometers, which can be equipped with a nuclear warhead with a capacity of 200 kilotons.

TARK "Peter the Great" Some time ago in combat Navy Russia introduced the first warship that meets the requirements of the 21st century. This is the heavy nuclear missile cruiser (TARK) "Peter the Great". The ship provides the ability to engage large surface targets

The strategic missile carrier Tu-160 Bomber is equipped with an analog fly-by-wire control system with four-channel redundancy in pitch, roll and yaw channels, providing optimal stability and controllability characteristics in all flight modes. The principle of “electronic stability” is implemented with a flight alignment close to neutral. The bomber is equipped with an analog fly-by-wire control system with four-channel redundancy for pitch, roll and yaw channels, providing optimal stability and controllability characteristics in all flight modes. The principle of “electronic stability” is implemented with a flight alignment close to neutral.

Fighter Su-33 (Su-27K) The first domestic carrier-based horizontal take-off and landing fighter. The first flight of the aircraft took place on August 17, 1987 (test pilot V. G. Pugachev), the first landing on the deck of the Tbilisi aircraft carrier (currently renamed Admiral Fleet Soviet Union Kuznetsov") November 1, 1989 (V. G. Pugachev). The first domestic carrier-based horizontal take-off and landing fighter. The first flight of the aircraft took place on August 17, 1987 (test pilot V. G. Pugachev), the first landing on the deck of the Tbilisi aircraft carrier "(currently renamed "Admiral of the Fleet of the Soviet Union Kuznetsov") November 1, 1989 (V. G. Pugachev).

Yak-130 attack aircraft As experts note, the Yak-130 is a full-fledged light attack aircraft and will not only serve as a “flying desk” for young pilots. Thus, many regions of the world and CIS countries are characterized by conflicts of limited intensity, and it is in them that the new aircraft should become an integral part of a single reconnaissance and strike complex, including unmanned aircrafts and ground aviation gunners operating in combat formations of troops. As experts note, the Yak-130 is a full-fledged light attack aircraft and will not only serve as a “flying desk” for young pilots. Thus, many regions of the world and CIS countries are characterized by conflicts of limited intensity, and it is in them that the new aircraft should become an integral part of a single reconnaissance and strike complex, including unmanned aerial vehicles and ground-based aircraft gunners operating in combat formations of troops.

Combat helicopter Ka-52 "Alligator" Combat helicopter Ka-52 is a two-seat combat helicopter for round-the-clock use, developed by the Kamov company. Ka-52 saved everything combat capabilities single-seat prototype Ka-50: anti-tank guided missile weapons, high-precision cannon installation, unguided missile weapons. The Ka-52 combat helicopter is a two-seat combat helicopter for round-the-clock use, developed by the Kamov company. The Ka-52 retained all the combat capabilities of the single-seat Ka-50 prototype: anti-tank guided missiles, a high-precision gun mount, and unguided missiles.

The Ka-50 "Black Shark" helicopter is capable of "hanging" in one place for 12 hours. The helicopter is equipped with two TVZ-117 gas turbine engines with a power of 2200 hp each. each, which are equipped with dust-proof screen-exhaust devices. If one of them fails, the helicopter is able to continue flying on one engine. The basis of the Ka-50's combat power is the Vikhr anti-tank guided missiles. The Ka-50 is capable of "hanging" in one place for 12 hours. The helicopter is equipped with two TVZ-117 gas turbine engines with a power of 2200 hp each. each, which are equipped with dust-proof screen-exhaust devices. If one of them fails, the helicopter is able to continue flying on one engine. The basis of the Ka-50's combat power is the Vikhr anti-tank guided missiles.

Carrier-based helicopter Ka-27 The crew of the Ka-27 is three people. The helicopter's armament consists of an anti-submarine homing torpedo or an APR-2 anti-submarine guided missile, depth charges (including guided S-3B), as well as other means of destroying submarines and surface ships. It is possible to equip the helicopter with X-35A anti-ship guided missiles.

Tank T-90 The tank is crowned with a low, flat turret with a command cabin shifted to the right. The barrel of the 125 mm gun is protected from overheating by a mobile four-section radiator. To the right of the barrel is a coaxial 7.62 mm machine gun. The T-90 is equipped with 2 IR illuminators, which are part of the Shtora ATGM system. The front part of the turret is reinforced with second-generation active tile armor. Mounted armor blocks can also be installed on the roof of the tower, creating additional protection against air strikes. To the right and left of the tower there are tanks with a mixture to create a smoke screen.

Tank T-80 Represents further development tank T-80BV. The improvements affected all basic combat and operational properties. First of all, the survivability of the tank has been significantly increased due to changes in the design of armor barriers, the inclusion of built-in dynamic protection, and a slight increase in the mass of material allocated for the armor. The capabilities of conducting both long-range and close-in fire combat have been improved through the use of a new set of guided weapons, improved characteristics of the weapon and the fire control system.

“Military equipment of Russia” - Tank T-90. Self-propelled gun “Tulip”. Air Force. Army aviation. Air Force equipment. Air Force. Self-propelled gun "Hyacinth". Mig-31. Self-propelled gun "Msta". Fighting machine infantry. Su - 27. Motorized rifle troops. Yak-36. BMD-2 airborne combat vehicle. S – 300. Anti-aircraft missile system “Shilka”. BTR-T.. BMP - 2. Armored reconnaissance and patrol vehicle BRDM-2.

"World small arms" - Sniper rifle Dragunov SVD. NSV "Utes" machine gun. Kalashnikov AK103 assault rifle. Single PKM machine gun. Cartridge. Self-loading pistol PMM-12. RPK. The Makarov pistol. Automatic AKS-74U. Stechkin automatic pistol. Sniper rifle V-92. Modern weapon. Kalashnikov AK-47 assault rifle.

“Kalashnikov AK-47” - State Prize Laureate. Kalashnikov assault rifle. History of the development of automatic machines. Survey results. Musket. Weapons of people in ancient times. Kurinsky local history museum. Automatic machines. Shoulder. Mechanism. Creator of the best slot machine in the world. Kalashnikov. Medal. Order of the Red Star. Desire to serve your people.

“Forensic weapons science” - Determining the location of the shooter. Types of sleeves. Evidence. Track formation when fired. Gas rifles. Sleeve shape. Marking when placing a cartridge in a magazine. Types of shots depending on the impact of damaging factors. Wiping belt. Airguns.

"Russian military art" - Independence. A blow to Rus'. Russian military art based on the experience of Alexander Nevsky. Vladislov Grzeszyk. History of the state. Russian history. Battle of the Neva. German knights. Studying military handwriting. Comparative analysis. Secrets of success. Military doctrine. Secret of success. Military traditions of the Russian army.

"Conventional weapons" - Napalm was adopted in Armed Forces USA. Napalm (fire) bombs. Volumetric explosion ammunition. Flaws laser weapons. Regular weapons. Psychotropic weapon. Conventional means defeats. Incendiary weapon. Types of fundamentally new weapon systems. Napalm. Fragmentation, ball, high-explosive ammunition.

There are a total of 38 presentations in the topic

Modern weapons PL-14 (Lebedev pistol)

• It is the prototype of the Kalashnikov pistol.
• Manufacturers consider its main advantage over analogues to be ergonomics and balance, which most fully correspond to modern ideas about human biomechanics and the production of a well-aimed shot. In addition, the weapon has a stylish design.

AGS-40 "Balkan"

• Caliber: 40mm
• Type: automatic grenade launcher
• Weight: 32 kg grenade launcher on the machine + 14 kg box with 20 grenades in a belt
• Effective firing range: up to 2500 m
• Rate of fire: 400 rounds per minute

This spacious cabin accommodates three crew members and a landing party of 12 people.

• This spacious cabin accommodates three crew members and a landing party of 12 people.
• The armored personnel carrier is based on the BMD-4 airborne combat vehicle. The dimensions and weight of the vehicle ensure air transportability and rapid overcoming of water obstacles. The body is made of welded armor plates.
• The main armament is a 7.62 mm machine gun installed in the commander-gunner's turret. Additionally, another 7.62 mm machine gun is installed in the left front part of the cabin.
• To monitor the terrain, three periscopic observation devices are installed in the driver's hatch. It is possible to replace the central surveillance device with a night vision device. In front of the right hatch in the front of the vehicle there is a sight for firing from a machine gun. The tower installation also has sighting system commander-gunner to monitor the terrain and fire.

Air Force

• Today the following types of aircraft are in service with the Russian Air Force: AN-12, AN-26, AN-70, AN-124 "RUSLAN", IL-18, IL-76, MIG-21, MIG-23M, MIG-23B/M , MIG-27, MIG-25, MIG-29 (early and later modifications), MiG-31B, Mikoyan "1.44", MIG-AT, Su-17, SU-47 "BERKUT", SU-24, SU- 25, SU-27/SU-33/SU-37, SU-27IB/SU-30/SU-32, TU-22M, TU-95/TU-142, TU-160, YAKOVLEV - AERMAKKI YAK-130.

• For 2021-2022 it is planned to put into mass production a new strategic bomber long-range aviation PACK. Its flight tests are scheduled to be completed in 2023, at which time the new bomber will enter service with the Russian Air Force. The PAK DA should replace the TU-95 and TU-160, it will be a subsonic aircraft. The engine for the bomber is being developed on the basis of the TU-160 NK-32 engine; its turbocharger will be used. The United Engine Construction Corporation (UEC) of Russia intends to invest $220 million of its own finances into this project.

T-50 (PAK FA) FLEET Amur-1650"

• The non-nuclear submarine (NSPL) "Amur 1650" is an export version of the fourth generation submarine of the "Lada" project.
• IN this project there are a number design features, which allow us to talk about improvement tactical and technical characteristics previous generation submarines. The Amur 1650 non-submarine submarine has a modern integrated automated ship control system, a more powerful sonar system and greater stealth, which is achieved due to the reduced noise level and smaller displacement of the submarine.

Project 20380 Corvettes -

• universal sea hunters and watchdogs. Their task is to destroy submarines and surface ships. Also carry out fire support landing forces, serve as a flagship in a tactical group.

Ground troops

• TOS-1A "Solntsepek"
• . Designed to destroy lightly armored vehicles, disable personnel located in open areas or in shelters, create fires and smoke screens with smoke incendiary ammunition.

"Knight"

• can simultaneously fire at 16 aerodynamic and 12 ballistic targets. Maximum amount missiles that are simultaneously aimed - 32. Impact zone of aerodynamic targets: range 1.5-60 km. In height - from 10 m to 30 km. Damage zone for ballistic targets: range - 1.5-30 km, height - 2-25 km. From the march "Vityaz" is brought to combat readiness within 5 minutes.

BTR-MDM "Rakushka" Space Forces of the Russian Federation

• A separate branch of the military that existed in the Russian Armed Forces was called the space forces. The task is to ensure the security of the Russian Federation in the space sector. In December 2011, by a special decree of Dmitry Medvedev space force ceased to exist, becoming part of the Aerospace Defense Forces (VKO).

• The S-400 is called "Triumph" because this anti-aircraft missile system simply has no analogues in the world. "Triumph" can find and destroy almost all types of aircraft and helicopters, ballistic missiles and hypersonic targets. The S-400 alone can simultaneously fire at up to 36 enemy targets, aiming up to 72 missiles at them.

The S-400 hits targets within a radius of up to 400 km. It is noteworthy that the complex is capable of firing even at targets that fly very low - up to 5 (!) meters "Gamma-S1M

• The purpose of the Gamma-S1M radar station is aerial reconnaissance, guidance and tracking of air targets for the Aerospace Defense Forces. These newest stations are used in automated systems management air defense And Air Force, as well as for quick response in non-automated units. In addition, Gamma-S1M can be used to provide information to automated control and air traffic control posts for civil aircraft.
• "Gamma-S1M" makes it possible to effectively detect enemy air attack weapons even in conditions of natural and intentional interference. The station not only detects a target, but determines its coordinates and then tracks it, recognizing the class of a single target, be it a missile or an airplane.