What is the purpose of the periscope and how is it designed? What is Periscope and how to use it? How Periscope works

PERISCOPE, optical a device that makes it possible to examine objects located in horizontal planes that do not coincide with the horizontal plane of the observer’s eye. It is used on submarines for observing the surface of the sea when the boat is submerged, in the land army - for safe and discreet observation of the enemy from protected points, in technology - for exploring inaccessible internal parts products. IN simplest form P. consists of vertical pipe(Fig. 1) with two inclined at an angle of 45 degrees. mirrors S1 And S2 or prisms with total internal reflection, located parallel to each other at different ends of the pipe and facing each other with their reflective surfaces. However, the P. reflective system can be designed in different ways. A system of two parallel mirrors (Fig. 2a) gives a direct image, right and left side which are identical with the corresponding sides of the observed object. A system of two perpendicular mirrors (Fig. 26) gives a reverse image, and since it is viewed by the observer, standing with his back to the object, then the right and left sides change their places. Inverting the image and shifting the sides is easy to achieve by placing a refractive prism in the system, but the need to observe with your back to the object, and therefore difficulty in orientation, remains, and therefore the second system is less suitable. The disadvantages of P. shown in Fig. 1 and used in trench warfare, are a small angle of view a (approx. 10-12 degrees) and a small aperture, which forces us to limit ourselves to a length of no more than 1,000 mm with a relatively large pipe diameter - up to 330 mm. Therefore, in photography, the reflective system is usually associated with a lens system. This is achieved by attaching one or two telescopes to the P. reflective system. At the same time, since ordinary astronomical If the pipe gives a reverse image with its sides moved, then the combination of perpendicular mirrors with such a pipe will give a direct image with the sides correctly positioned. The disadvantage of such a system is the position of the observer with his back to the subject, as mentioned above. Joining astronomical pipes to a system of parallel mirrors is also impractical, since the image will turn out upside down, with the sides facing away. Therefore, in P., a system of parallel mirrors and a terrestrial telescope, which gives a direct image, are usually connected. However, the installation of two astronomical pipes after two inversions will also give a direct image, which is why it is also used in P. The pipes in this case are positioned with lenses facing each other. The refractive system of a telescope does not present any special features in comparison with a telescope, however, the choice of a particular combination of telescopes (or rather lenses), their number and focal length is determined by the required angle of view and aperture ratio of the telescope. In the best telescopes, the brightness of the image is reduced by 30 % depending on the system and type of lenses. Since the clarity of the image also depends on the color of objects, improved visibility is also achieved by using color filters. In the simplest form of a periscope (Fig. 3), the top lens ABOUT1 gives at the point IN1 actual image of an object by refracting rays reflected by a prism P1. Collective lens U creates at point IN2 also the actual image of an object that is reflected by a prism P2 and viewed through the eyepiece O2 the eye of the observer. Tubes typically use achromatic lenses and take steps to eliminate other aberration distortions. By installing two telescopes one after the other, operating similarly to the one described above, it is possible to increase the distance between the prisms without compromising the aperture of the lens and its field of view. The simplest P. of this type is shown in Fig. 4. Already the first P. of this type gave a field of view of 45 degrees. and magnification 1.6 with optical. 5 m long with a pipe diameter of 150 mm. Because observation with one eye is tiring, then P. were proposed, giving an image on frosted glass, however, this image significantly lost in clarity, and therefore the use of frosted glass in P. did not become widespread. The next stage in the development of the P. idea was attempts to eliminate the need to rotate the P. pipe when inspecting the horizon at 360R. This was achieved by connecting several (up to 8) P. on one pipe; the corresponding part of the horizon was examined through each of the eyepieces, and the observer had to walk around the pipe. This kind of multiplier photos did not give the whole picture as a whole, and therefore omniscopes were proposed that gave the entire horizon in the form of a ring picture by replacing the lens with a spherical refractive surface. This kind of devices, being characterized by considerable complexity, did not provide an increase in the vertical field of view, which interfered with the observation of aircraft, and distorted the image, and therefore fell out of use. More successful was the strengthening of optical fiber. system in the inner pipe, the edges could rotate inside the outer one regardless of the latter (Fig. 5). This kind of panoramic P., or kleptoscopes, require some additional optical technology. devices. The light beam penetrates the P. head through the ball glass lid H1, protecting the device from water ingress and not playing optical signals. role, distributed via optical fiber. system R1 , IN1, IN2 etc., the edges are strengthened in the inner pipe J. The latter rotates using a cylindrical. gear train, shown at the bottom of the device with a handle G, regardless of outer casing M. In this case, the image incident on the lens IN3 , refracted by a prism R2 and viewed by the eyepiece, will rotate around the light axis of the eyepiece. To avoid this inside inner pipe strengthens quadrangular prism D, rotating about a vertical axis using a planetary gear TO1, K2, K3 at half speed and straightens the image.
Optical the essence of the device is clear from Fig. 6, showing how rotating the prism rotates the image at twice the speed. Increase the field of view in the vertical direction from 30 degrees. in ordinary P. up to 90 degrees. is achieved in anti-aircraft photography by installing a prism in the objective part of the device, rotating about a horizontal axis, regardless of the rotation of the entire upper part about a vertical axis to view the horizon. Optical part of a P. of this type is shown in Fig. 7. P. are used on submarines for two purposes: observation and control of torpedo firing. Observation may consist of simple orientation in the environment and a more careful examination of individual objects. For observation, objects should be visible in life size. At the same time, it has been practically established that for accurate reproduction with monocular observation of objects that are usually observed binocularly with the naked eye, the magnification of the device must be increased. more than 1. Currently, all submarines have a magnification of 1.35--1.50 for simple orientation. For a thorough examination of individual objects, magnification should be used. more, with the maximum possible illumination. Currently, the magnification is X 6. Thus. P. is subject to a double requirement regarding the increase in the device. This requirement is satisfied in bifocal lenses, optical. part of the lens is shown in Fig. 8. Changing the magnification is achieved by rotating the system 180R, while the lens ABOUT1 and lens K1, n3 are moving. For greater magnification the system is used for smaller ones - system V1, P2, V2. Appearance the lower part of the zenith bifocal P. is given in Fig. 9.
The described design for changing magnification is not the only one. More simply, the same goal is achieved by removing from the optical. the axis of the device of excess lenses fixed in the frame, the edges can be rotated at will around the axis. The latter is designed vertically or horizontally. For direction finding of objects, determining their distance, course, speed, and for controlling torpedo firing. P. are equipped with special devices. In fig. 10 and 11 show the lower part of the periscope and the observed field of view for the P., equipped with a vertical-base rangefinder.
In fig. Figure 12 shows the P.'s field of view for determining the distance and heading angle based on the principle of alignment. In fig. 13 shows the lower part of the P., equipped with a photographic camera, and FIG. 14—the lower part of the gun with a device for controlling torpedo firing. When moving, the P.'s head causes waves on the surface of the sea, which make it possible to establish the presence of a submarine. To reduce visibility, the head part of the P. is made as small in diameter as possible, which reduces the P.'s aperture and requires overcoming significant optical difficulties. difficulties. Usually, only the upper part of the pipe is made narrow, gradually widening it downwards. The best modern pumps with a pipe length greater than 10 m and a diameter of 180 mm have an upper part approx. 1 m with a diameter of only 45 mm. However, experience has now established that the discovery of a submarine is achieved not by detecting the head of the submarine itself, but by the visibility of its trace on the surface of the sea, which persists for a long time. Therefore, at present, P. is protruded above the surface of the sea periodically for a few seconds, necessary for making observations, and is now hidden until it reappears after a certain period of time. The wave formation caused in this case is significantly closer to the usual wave sea ​​water. Difference t in the pipe and in environment in combination with the humidity of the air inside the P. leads to sweating of the optical. system, to eliminate which devices are installed for drying the P. An air tube is installed inside the P., led into the upper part of the pipe and coming out at the bottom of the P. On the other side of the latter, a hole is made, from which air is sucked out of the P. and enters a filter charged with calcium chloride (Fig. 15), after which it is pumped into the upper part of the periscope by an air pump through the inner pipe. P. pipes must meet special requirements strength and rigidity, to avoid optical disturbances. systems; in addition, their material should not affect the magnetic needle, which would disrupt the operation of ship compasses. In addition, the pipes should be especially resistant to corrosion in sea water, because in addition to the destruction of the pipes themselves, the tightness of the connection in the gland, through which the pipe extends out of the boat hull, will be disrupted. Finally geometric. The shape of the pipes must be particularly accurate, so that long length they create significant difficulties during production. The usual material for pipes is low-magnetic stainless nickel steel (Germany) or special bronze-- immadic(England) - having sufficient elasticity and rigidity. Strengthening the P. in the hull of a submarine (Fig. 16) causes difficulties, depending both on the need to prevent sea water from getting between the P. pipe and the boat’s hull, and on the vibration of the latter, which disrupts the clarity of the image. The elimination of these difficulties lies in the design of an oil seal that is sufficiently waterproof and at the same time elastic, securely connected to the hull of the boat. The pipes themselves must have devices for quickly raising and lowering them inside the hull of the boat, which, with a weight of hundreds kg leads to mechanical difficulties and the need to install motors 1, which rotate the winches 2, 4 (3 -- inclusion for the middle position, 5-manual drive, 6, 7 -- handles for the clutch mechanism). When the tube is raised or lowered, observation becomes impossible because the eyepiece quickly moves vertically. At the same time, the need for observation is especially great when the boat surfaces. To eliminate this, a special platform for the observer is used, connected to the P. and moving with it. However, this causes overloading of the P. pipes and the need to allocate a special shaft in the ship’s hull to move the observer. Therefore, a stationary post system is more often used, allowing the observer to maintain his position and not interrupt his work while moving the post. This system (Fig. 17) separates the ocular and objective parts of the lens; the first remains stationary, and the second moves vertically with the pipe. For optical their connections at the bottom of the pipe establish a tetrahedral prism, etc. the light beam in the P. of this design is reflected four times, changing its direction. Since the movement of the tube changes the distance between the lower prism and the eyepiece, the latter intercepts the light beam at various points (depending on the position of the tube), which disrupts the optical performance. the unity of the system leads to the need to include another movable lens that regulates the beam of rays according to the position of the pipe. Usually at least two P are installed on submarines. Initially, this was caused by the desire to have a spare device. At present, when two P. of different designs are required for observation and attack, the P. used in the attack is at the same time a reserve in case of damage to one of them, which is important for performing the main task - observation. Sometimes, in addition to the indicated P., a third one is installed, a spare one, used exclusively in case of damage to both main ones. Army P. are distinguished by greater simplicity of design compared to naval ones, while at the same time maintaining the main features and improvements of the device. Depending on the purpose, their design is different. Conventional trench P. consists of wooden pipe with two mirrors (Fig. 1). More complex is the design of the P. pipe, which includes optical. a refractive system, but not distinguished by any special dimensions; such a pipe is usually designed on the principle of a panoramic periscope (Fig. 18). The dugout P. (Fig. 19) is similar in design to the naval one of the simplest type and is intended for making observations from shelters. A mast periscope is used to observe distant objects or in the forest, replacing inconvenient and bulky towers. It reaches a height of 9--26 m and consists of a mast that serves to strengthen the optical fiber. system mounted inside two short large diameter pipes. The eyepiece tube is mounted on a carriage at the bottom of the mast, and the objective tube is mounted on the retractable top of the mast. So. Thus, in this type there are no intermediate lenses, which, despite a significant increase (up to x 10) at a low position of the mast, causes a decrease in the latter as the mast extends, with a simultaneous decrease in image clarity. The mast is mounted on a special carriage, which also serves to transport the device, and the mast moves. The carriage is quite stable and only in strong winds requires additional fastening with bends. The periscope is successfully used in technology to inspect holes drilled in long forgings (shafts, gun channels, etc.), to check the absence of cavities, cracks, and other defects. The device consists of a mirror located at an angle of 45 degrees. to the axis of the channel, mounted on a special frame and connected to the illuminator. The frame moves inside the channel on a special rod and can rotate around the axis of the channel. Telescopic the part is mounted separately and placed outside the forging under study; it does not serve to transmit an image, as in an ordinary P., but for a better view of the field of view captured by the P.. Lit.: W e 1 d e g t F.f Entwicklung u. Konstruktion der Unterseeboots-Sebrohre, Jahrbuch der schiffbautechnlschen Gesellschaft, Berlin, 1914, 15, p. 174; A Dictionary of Applied Physics, London, 1923, v. 4, p. 350; K 0 n i g A., Die Fernrohre und Entfernungsraeaser, Berlin, 1923. P. Tischbein.

A periscope is an optical instrument. It is a telescope that has a system of mirrors, prisms and lenses. Its purpose is to carry out surveillance from a variety of shelters, which include shelters, armored towers, tanks, and submarines.

Historical roots

The periscope dates back to the 1430s, when the inventor Johannes Gutenberg invented a device that made it possible to observe the spectacles at fairs in the city of Aachen (Germany) over the heads of a crowd of people.

The periscope and its structure were described by the scientist Jan Hevelius in his treatises in 1647. He intended to use it in the study and description of the lunar surface. He was also the first to suggest using them for military purposes.

The first periscopes

The first real and functional periscope was patented in 1845 by American inventor Sarah Mather. She managed to seriously improve this device and bring it to practical application in the armed forces. So, during the period civil war in the USA, soldiers attached periscopes to their guns for secretive and safe shooting.

The French inventor and scientist Davy adapted the periscope for the navy in 1854. His device consisted of two mirrors rotated at an angle of 45 degrees, which were placed in a pipe. And the first periscope used was invented by the American Doty during the American Civil War of 1861-1865.

First world war soldiers on both sides also used periscopes various designs for shooting from cover.

During World War II, these devices found widespread use on the battlefield. In addition to submarines, they were used to observe the enemy from shelters and dugouts, as well as on tanks.

Almost since the advent of submarines, periscopes on them have been used for surveillance when the submarine is underwater. This happens at the so-called “periscope depth”.

They are designed to clarify the navigation situation on the sea surface and to detect aircraft. As the submarine begins to dive, the periscope tube is retracted into the submarine's hull.

Design

A classic periscope is a design of three separately located devices and parts:

1. Optical tube.
2. Lifting device.
3. Cabinets with seals.

The most complex design mechanism is the optical system. These are two astronomical tubes combined with lenses. They are equipped with mirror prisms of total internal reflection.

Submarines also have additional devices for the periscope. These include rangefinders, systems for determining heading angles, photo and video cameras, light filters, as well as drying systems.

To establish the distance to a target in a periscope, two types of devices are used - rangefinder reticles and micrometers.

A light filter is indispensable in a periscope. It is located in front of the eyepiece and is divided into three sectors. Each sector represents a certain color glass.

The camera of the device or another one designed to obtain an image is necessary to establish the facts of hitting targets and recording events on the surface. These devices are installed behind the periscope eyepiece on special brackets.

The periscope tube is hollow; it contains air, which contains a certain amount of water vapor. In order to remove moisture deposited on the lenses, which condenses on them due to temperature changes, it is used special device drying. This procedure is carried out by quickly passing dry air through the pipe. It absorbs accumulated moisture.

On a submarine, a periscope looks like a pipe protruding above the wheelhouse with a “knob” at the end.

Usage tactics

To ensure secrecy, the submarine's periscope is raised from under the water at certain periods of time. These intervals depend on weather conditions, speed and range of observation objects.

The periscope assists the submarine commander in determining the direction (bearing) from the submarine to the target. Allows you to determine the heading angle of the enemy vessel, its characteristics (type, speed, weapons, etc.). Provides information about the moment of the torpedo salvo.

The dimensions of the periscope protruding from under the water, its head part, should be as small as possible. This is necessary to prevent the enemy from recording the location of the submarine.

Enemy aircraft pose a very great danger to submarines. As a result, during submarine crossings, significant attention is paid to monitoring the air situation.

However, to carry out such combined observation, the end part of the periscopes is quite massive, since anti-aircraft observation optics are located there.

Therefore, submarines are equipped with two periscopes, namely a commander’s (attack) and an anti-aircraft periscope. Using the latter, you can monitor not only the air situation, but also the surface of the sea (from the zenith to the horizon).

After the periscope is raised, the air hemisphere is inspected. Observation of the water surface is initially carried out in the bow sector, and then moves on to viewing the entire horizon.

To ensure secrecy, including from enemy radar, in the intervals between raising the periscope, the submarine maneuvers at a safe depth.

As a rule, the elevation of a submarine's periscope above sea level ranges from 1 to 1.5 meters. This corresponds to visibility of the horizon at a distance of 21-25 cables (about 4.5 km).

The periscope, as mentioned above, should be above the surface of the sea for as short a period of time as possible. This is especially important for a submarine that begins an attack. Practice shows that it takes a little time, about 10 seconds, to determine the distance and other parameters. Such a time interval for the periscope to be on the surface ensures its complete secrecy, so for such short term it is impossible to detect it.

Traces on the surface of the sea

When the submarine moves, the periscope leaves behind a wake and breakers. It is clearly visible not only in calm conditions, but also in slightly rough seas. The length and nature of the breaker, the size of the wake, are directly dependent on the speed of the submarine.

So, at a speed of 5 knots (about 9 km/h), the length of the periscope trail is about 25 m. The foam trail from it is clearly visible. If the speed of the submarine is 8 knots (about 15 km/h), then the length of the wake is already 40 m, and the breakers are visible at a great distance.

When a submarine moves in a calm state, a pronounced White color breakers and a voluminous foam trail. It remains on the surface even after the device is pulled inside the case.

As a result, before raising it, the submarine commander takes measures to slow down the speed of movement. In order to reduce the visibility of the submarine, the end part is given a streamlined shape. This is easy to notice in the existing periscope photos.

Other disadvantages

The disadvantages of this surveillance device include the following:

1. It cannot be used in the dark, or in conditions of poor visibility.
2. A periscope looking out of the water can be detected without significant difficulty both visually and with the help of radar equipment of a potential enemy.
3. Photos of such a periscope taken by observers are like a calling card for the presence of a submarine here.
4. With its help, it is impossible to determine the distance to the target with the necessary accuracy. This circumstance reduces the effectiveness of using torpedoes against it. Moreover, the detection range of the periscope leaves much to be desired.

All of the above disadvantages led to the fact that in addition to periscopes, new ones appeared, advanced means surveillance for submarines. This is primarily a radar and hydroacoustics system.

A periscope is an essential instrument on a submarine. Implementation in technical systems modern submarines, new devices (radar and hydroacoustic) have not reduced its role. They only supplemented its capabilities, making the submarine more “sighted” in poor visibility, in conditions of snow, rain, fog, etc.

- ▲ optical device for (what), improvement, ability, vision, optical instruments expand the capabilities of vision. ▼ a mirror allows you to see on the other side of the field of view, for example, your face. polarizer. glasses optical device for correction... ... Ideographic Dictionary of the Russian Language

An optical device that allows you to observe the horizon of the sea and the air from a submarine moving underwater at a certain shallow depth (about 5 m). Samoilov K.I. Marine dictionary. M.L.: State Naval Publishing House of the NKVMF Union... ... Marine Dictionary

PERISCOPE, an optical device consisting of a series of MIRRORS or PRISMS, designed for observing the surrounding area from a shelter. The principle of operation is based on changing the direction of the observer's viewing ray. Since World War II, the periscope has usually... ... Scientific and technical encyclopedic dictionary

PERISCOPE- an optical device consisting of a visual (see) and a system of mirrors or prisms and used for observation from a shelter of ground, air space or the surface of the sea, when direct observation is impossible, for example. from trenches, dugouts,... ... Big Polytechnic Encyclopedia

This article is proposed for deletion. An explanation of the reasons and the corresponding discussion can be found on the Wikipedia page: To be deleted / August 2, 2012. While the discussion process is not completed, you can try to improve the article, but you should ... ... Wikipedia

- (Greek, from peri, and skopeo I explore). A device in submarines for inspecting the environment. Dictionary foreign words, included in the Russian language. Chudinov A.N., 1910. periscope (gr. periskopeo, looking around, inspecting) an optical device with... ... Dictionary of foreign words of the Russian language

periscope- a, m. périscope m. gr. I'm watching periscopeo. An optical device for observing objects located outside the immediate field of view of the observer. BAS 1. Lieutenant Kalyuzhny stood in front of a matte board into which the periscope reflected... ... Historical Dictionary Gallicisms of the Russian language

- (from peri... and...skop) 1) an optical device for observation from shelters (trenches, dugouts, etc.), tanks, submarines, etc. Using a periscope, horizontal and vertical angles on the ground and determine the distances to the observed... ... Big Encyclopedic Dictionary

PERISCOPE, periscope, husband. (from Greek periskopeo I look around) (special). An optical device, a bent telescope for observation from behind closures, from a submarine. Dictionary Ushakova. D.N. Ushakov. 1935 1940 ... Ushakov's Explanatory Dictionary

PERISCOPE, huh, husband. An optical device for observations from shelters (from a dugout, from a submarine, from an armored turret). Artillery, tank, trench, ship station | adj. periscope, oh, oh. Ozhegov's explanatory dictionary. S.I. Ozhegov, N.Yu. Shvedova... Ozhegov's Explanatory Dictionary

Quite recently, Twitter Inc launched a new mobile streaming service - Periscope. Broadcasts became immediately available to Android and iOS users in March 2015. This software appeared a year earlier thanks to Kayvon Beykopour and Joe Bernstein. After its creation, it was bought by Twitter for a huge amount of money - $120 million.

In July 2015, the company was able to sum up its results: it counted more than 10 million registered users, and this was in just 4 months of existence. The functionality of the software is quite wide, but the main task of the program is video broadcasting and communication.

Appearance

For many who became the first users of Periscope, it was not clear what this word was. Previously, it could be heard, for example, in the film “Raise the Periscope.” This American comedy appeared back in the 60s. Back then, no one knew exactly about smartphones and programs for them. In 1996, another comedy with a similar name was released. "Remove the Periscope" is a very popular wartime film.

But, one way or another, none of these films are in any way connected with the program. So why does it have such a strange name?

"Periscope"

This is an optical device that is installed on submarines and tanks. Thanks to it, you can conduct surveillance from cover. It looks like an ordinary pipe, with mirrors attached on both sides. They are located so that the path of light rays changes. The periscope can also be a hand-held or stereo scope. One way or another, it is used in military affairs. Now it becomes clear regarding the two above-mentioned war films. There they were talking about submarine captains.

This is a strange name for software, although it can be explained. The developers wanted to show the user that he can observe the whole world through this program. He has access to broadcasts of absolutely all participants. Although the software allows users to hide their streams.

However, anyone who has downloaded Periscope can easily go to Paris or New York and watch broadcasts from Australia or Britain. In this case, the smartphone screen will become a kind of periscope tube.

Communication

We already know what a social network is. "Periscope" in in this case remains between this concept and the term "application". The software still has social network functions. You can not only connect to broadcasts, but gather your circle and conduct broadcasts for them. This way, you meet new people, find friends with similar interests, learn a language and just travel without leaving your room.

Many people are still interested in what Periscope is: a social network or regular software? But everyone is already accustomed to answering this question in their own way. Those who use Periscope for communication can confidently call it a social network, those who only “spy” on the lives of others can consider it just an entertainment application.

Danger

To the question of what “Periscope” is, many can answer - life. Indeed, some users spend the whole day there. They can share the events of their lives with other people, broadcast their breakfast, lunch and dinner, going to school or work, holidays and entertainment.

Many users are sure that Periscope is more addictive than others social networks. This is due to numerous broadcasts. For example, if a photo on Instagram can be seen tomorrow, then you won’t be able to watch the broadcast later. It will start at a certain moment and will force you to abandon all your affairs and bury yourself in the smartphone screen.

Likes

Many users believe that it is through Periscope that one can look real. Videos are recorded instantly and published immediately. You can’t duplicate anything, much less cut it out.

To gather an army of fans around you, you need to broadcast regularly. Then, in addition to subscribers, you can collect a lot of “hearts”. To find interesting broadcasts, the program will recommend you random users.

But you will never understand what Periscope is unless you try this application yourself. We'll look at how to work with it next.

To get started, download

It is clear that before you start using the software, you need to install it on your gadget. To do this, go to the application store. For devices with operating system For iOS we go to the App Store, for Android OS in the Play Market, and for Windows Phone go to the Windows Phone Store. Enter Periscope into the search and click “install”.

Registration

Now that the new application icon has appeared on the desktop, select it and go into the software. Before we start, the program will tell us what Periscope is. We will see a slide show demonstrating our capabilities.

We need to select “get started” and we will be redirected to “register or login”. Since you are a new user, you will have to create an account. This can be done in two ways:

• Via Twitter.
• Using a phone number.

If you are a Twitter user, then registering will be easy for you. To do this, click “login via Twitter”. The program will automatically redirect you to its first tab. If you do not have your Twitter account information entered on your smartphone, you will have to spend time filling out your account.

If you do not have the above program, you can register using your phone number. You need to select a country and enter a number. Next, you will receive an SMS on your phone containing a confirmation code.

Registration does not end there. Before us is your future profile. Now you just need to fill it out. Enter your first and last name, and also come up with Username(nickname), add your photo.

Find and don't give up

Now that we are registered, I want to test the program. To do this, we need to find interesting users. The first tab will contain those you have subscribed to, and below are recommended broadcasts. The first three of them are new people, and below are the ones you've already watched.

Always be in the know

If you missed the broadcast, it will be available for another 24 hours. Also with the people you recommend. Those who are currently online will not always be displayed there. Sometimes the software recommends viewing already completed streams. The recording is interactive. You will see how users were added to it and how they put “hearts”. In offline mode, you can rewind the video.

Online

To watch live broadcasts, you need to go to the tab with the globe. You will be presented with a world map with a huge number of points. These are all the broadcasts that are currently happening around the world. You can select, for example, your city and see the people who are currently streaming, perhaps your friend or neighbor will be among them.