Age, Biography and Wiki
Gábor Kornél Tolnai was born on 22 November, 1902 in Hungary. Discover Gábor Kornél Tolnai's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is He in this year and how He spends money? Also learn how He earned most of networth at the age of 80 years old?
Popular As |
N/A |
Occupation |
N/A |
Age |
80 years old |
Zodiac Sign |
Scorpio |
Born |
22 November 1902 |
Birthday |
22 November |
Birthplace |
Budapest, Austria-Hungary |
Date of death |
(1982-02-03) Stockholm, Sweden |
Died Place |
Stockholm, Sweden |
Nationality |
Hungary |
We recommend you to check the complete list of Famous People born on 22 November.
He is a member of famous with the age 80 years old group.
Gábor Kornél Tolnai Height, Weight & Measurements
At 80 years old, Gábor Kornél Tolnai height not available right now. We will update Gábor Kornél Tolnai's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
Physical Status |
Height |
Not Available |
Weight |
Not Available |
Body Measurements |
Not Available |
Eye Color |
Not Available |
Hair Color |
Not Available |
Dating & Relationship status
He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.
Family |
Parents |
Not Available |
Wife |
Not Available |
Sibling |
Not Available |
Children |
Not Available |
Gábor Kornél Tolnai Net Worth
His net worth has been growing significantly in 2022-2023. So, how much is Gábor Kornél Tolnai worth at the age of 80 years old? Gábor Kornél Tolnai’s income source is mostly from being a successful . He is from Hungary. We have estimated
Gábor Kornél Tolnai's net worth
, money, salary, income, and assets.
Net Worth in 2023 |
$1 Million - $5 Million |
Salary in 2023 |
Under Review |
Net Worth in 2022 |
Pending |
Salary in 2022 |
Under Review |
House |
Not Available |
Cars |
Not Available |
Source of Income |
|
Gábor Kornél Tolnai Social Network
Instagram |
|
Linkedin |
|
Twitter |
|
Facebook |
|
Wikipedia |
|
Imdb |
|
Timeline
Sound recording and reproduction is an electrical or mechanical inscription and re-creation of sound waves, such as spoken voice, singing, instrumental music, or sound effects. The two main classes of sound recording technology are analog recording and digital recording. Analog (or analogue) recording (Greek, ana = "according to" and logos = "relationship") is a technique used to store signals of audio or video information for later playback. In digital recording, the analog signal of video or sound is converted into a stream of discrete numbers, representing the changes in chroma and luminance values (video) orair-pressure (audio) through time, thus making an abstract template for the original sound or moving image. In 1967, the first digital audio magnetic tape recorder is invented. A 12-bit 30 kHz stereo device using a compander to extend the dynamic range.
The reel-to-reel audio tape recorder and the cafe machine was a kind of jukebox (disc changer), and for music reproduction at home and at school as well as for teaching purposes, a so-called "Study Master" or tape recorder called Tolnai Study Master for language teaching in schools. Here he collaborated with AB Stålex during the years 1964–1967. The new language of the machine represented a major development of the technical tools for the teaching of language laboratories. "Study Master" was welcomed as a major step in the right direction by language scholars. The reel-to-reel audio tape recorder were sold in Sweden, Finland, Hungary and the United States. He constantly worked with improvements in sound recording and reproduction (audio technology).
Inexpensive reel-to-reel tape recorders were widely used for voice recording in the home and in schools before the Philips compact cassette, introduced in 1963, gradually took over. Cassettes eventually displaced reel-to-reel recorders for consumer use.
1. 1963–1967. An arrangement in sound reproducing appliances having tapelike sound recording carriers, particularly for teaching purposes.
The next major development in magnetic tape was multitrack recording, in which the tape is divided into multiple tracks parallel with each other. Analog magnetic tape recording introduces noise, usually called "hiss", caused by the finite size of the magnetic particles in the tape. There is a direct tradeoff between noise and economics. Signal-to-noise ratio is increased at higher speeds and with wider tracks, and decreased at lower speeds and with narrower tracks. By the late 1960s, disk reproducing equipment became so good that audiophiles soon became aware that some of the noise audible on recordings was not surface noise or deficiencies in their equipment, but reproduced tape hiss. Before 1963, when Philips introduced the Compact audio cassette, almost all tape recording had used the reel-to-reel (also called "open reel") format. Previous attempts package the tape in a convenient cassette that required no threading met with limited success. The most successful tape was 8-track cartridge used primarily in automobiles for playback only.
Gábor Kornél Tolnai started in 1950 AB G.K. Tolnai his own workshop and laboratory in Stockholm. The rooms was an area where he provided the tools and machinery that was required for the manufacturing the apparatus.
During the years 1950–1977 Kornél Tolnai ran his own company together with a few employees, at first on Främlingsvägen 47 in Hägersten, and then on Hälsingegatan 6 in Vasastan, both in Stockholm.
As a self-employer Tolnai regularly visited several industrial fairs in the 1950s, 1960s and 1970s, especially Hanover Fair (German: Hannover Messe), to exhibit his equipment and to market them. In 1964 he visited the World Expo in Chicago to promote his tape recorders.
In 1950, the first exhibitors from abroad took part in the renamed "Deutsche Industrie-Messe" ("German Industrial Fair") and, in 1961, the term "Hanover Fair" was officially adopted. It soon became famous, world-class event for cross-communication between technology and industry.
Gábor Kornél Tolnai began to construct his own tape recorders In the early 1950s when tape technology penetrated. A tape recorder, or tape machine, is an audio-storage device that records and plays back sound, usually using magnetic tape. Magnetic tape transformed the recording industry, and by the late 1950s the vast majority of commercial recordings were being mastered on tape.
Kornél Tolnai assumed already invented wire players and developed the design. Some companies were known for their excellent quality reel-to-reel tape recorders, i.e. Tandberg and Revox. Tandberg is a manufacturer of videoconferencing systems, located in Oslo, Norway (product development, sales and distribution) and New York City, United States (sales and distribution). Tandberg Radiofabrikk is now owned by LM Ericsson and the factories manufactured radios, computer equipment, language laboratories, television, tape recorders and stereo equipment. Tandberg built during the 50- and 60-century a global reputation in the fields of radio, television and tape recorders. In the 1950s and 1960s was Tandberg's tape recorder to be among the best. The magnetic tape which was in use in 1950s–1970s was 7-inch reel 1⁄4-inch-wide audio recording tapes, which were the prevalent and typical of consumer use. ReVox is a brand name of Swiss audio equipment created by Studer in the 1950s.
In the 1950s, the terms "high fidelity" or "hi-fi" were popularized for equipment and recordings which exhibited more accurate sound reproduction. Tolnai's tape had three engines and 35 or 50 mm wide strip. Belt speed was usually 5”, but there were also other speeds. Optional accessories could be the cluster head for reproducing multiple channels simultaneously, or for the registration of multiple processes simultaneously.
Back in 1948, the first telephone connection was established between the trade fair company and New York. A revolution in wireless telecommunications began in the first decade of the 1900s with pioneering developments in radio communications.
An important discovery made in this period was the technique of AC biasing which improved the fidelity of the recorded audio signal by increasing the effective linearity of the recording medium. Ampex Corporation, the American electronics company's first tape recorder, the Ampex Model 200A, was first shipped in April 1948. During the early 1950s Ampex began marketing one- and two-track machines using ¼" tape. The line soon expanded into three- and four-track models using ½" tape. In the early 1950s Ampex moved to 934 Charter St. Redwood City, California. Ampex acquired Orradio Industries in 1959, which became the Ampex Magnetic Tape Division, headquartered in Opelika, Alabama. This made Ampex a manufacturer of both recorders and tape. By the end of that decade Ampex products were much in demand by top recording studio worldwide. Ampex built a handful of multitrack machines during the late 1950s that could record as many as eight tracks on 1 inch tape. In 1966 Ampex built their first 16-track recorder, the model AG-1000, at the request of Mirasound Studios in New York City. In 1967 Ampex introduced a 16-track version of the MM 1000 which was the world's first 16-track professional tape recorder put into mass-production. Kornél Tolnai often ordered his tapes from the American electronics company Ampex Corporation in the 1950s and 1960s.
The Hanover Fair is the world's biggest industrial fair. It is held on the Hanover fairground in Hanover in Germany. Typically, there are about 6,000 exhibitors and 200,000 visitors. The Hannover Messe started in 1947 to boost the economic advancement of post-war Germany. At first, almost everyone was skeptical about Hannover's chances of overtaking Leipzig – the former "exhibition capital" of the defunct German Reich. But in the years that followed, the Hanover Fair became a symbol of Germany's economic miracle. The fair proved hugely successful and was hence repeated on a yearly basis, contributing largely to the success of the Hanover fairground in replacing the then-East German city of Leipzig as the new major fair city for West Germany.
In 1939–1949 Tolnai was an employee of AB Gerh. Arehns Mekaniska Verkstad (AB Gerhard Arehn Engineering Workshop) on Alströmergatan 15 and 17 in Kungsholmen in Stockholm, later Arenco AB, as inventor and constructor, and there Gábor Kornél Tolnai built the Swedish army's new central instrument for anti-aircraft cannons ("Rapportoskop"). He invented a key instrument for anti-aircraft cannons (Arenco). Arenco AB is a Swedish industrial company that produces, among other things, packaging machines. Arenco was incorporated in Svenska Tändsticks AB (STAB) in 1917 with a diversified product range covering, apart from match machinery, also packaging and fish processing machines. The quality of the products has always been considered to be in top position. Diploma engineer Ernst von Segebaden was an engineer in Arenco AB from 1912, and then he was the director of Arenco in 1949–1955.
2. 1939–1941. Improvements in driving mechanism for rotary members.
3. 1939–1941. Improvements in devices for electric remote control.
In 1937–1938, Tolnai had several temporary assignments for the army administration in Sweden, which exploited his patents for, among others, including driving relay, an electrically operated switch, which then became part of his construction of the Central Instrument (key instrument). Many relays use an electromagnet to operate a switching mechanism mechanically, but other operating principles are also used. The structure is used to measure one or more physical quantities. In terms of the basic physical tasks required, a driver must be able to control direction, acceleration, and deceleration. A latching relay has two relaxed states (bistable). These are also called "impulse", "keep", or "stay" relays.
Kornél Tolnai did his own experiments in his own workshop in Södermalm in Stockholm. In 1936 he made his own invention, Reportoskop, which he has built and in Berlin he demonstrated it right when the 1936 Summer Olympics in Berlin took place. Tolnai had built his invention Reportoskop and he demonstrated it during the Olympic Games in Berlin on August 1–16, it should he used to follow an athlete (sportsman), for instance a runner on the running track. It took almost forty years before he, in 1975, received a patent for his Reportoskop.
In 1932 he met his Swedish wife at a party in the "Winter garden" (Vinterträdgården) at Grand Hôtel Royal in Stockholm, when the Swedish-Hungarian society had a jubilee. The Swedish artist David Wallin had just sold a painting, Mother and Child, to the Museum of Fine Arts in Budapest (Hungarian: Szépművészeti Múzeum), and David Wallin was invited to Grand Hotel Royal (Grand Hôtel Royal with the Winter garden) and he took his 22-year-old daughter Bianca with him. She was an educated artist. Kornél and Bianca engaged on January 24, 1935. In 1935, on September 17, Kornél Tolnai married the Swedish artist Bianca Wallin (1909–2006). She was the daughter of the famous artist David Wallin (1876–1957) and his wife Elin Wallin (1884–1969). In 1935 the couple settled down in Stockholm and in 1942 he moved with his family to a large villa in Bromma, outside Stockholm, where he lived with his family until he died in 1982 at nearly eighty years of age. He had three daughters, Eva, born in 1939, Monika, born in 1942 and Hillevi, born in 1944.
In 1935 Kornél Tolnai established an experimental workshop in Stockholm, Arago, on Tjärhovsgatan 23 in Södermalm. He built models and measuring instruments and was doing constructions and inventions, some of which led to patents.
The history of sound recording can cover mechanical, acoustical, electrical, magnetic and digital recording. Methods and media for sound recording are varied and have undergone significant changes between the first time sound was actually recorded for later playback until now. Engineers at AEG, working with the chemical giant IG Farben a German chemical industry in Frankfurt am Main, created the world's first practical magnetic tape recorder, the K1, which was first demonstrated in 1935. The three major firms BASF, Bayer and Hoechst produced several hundred different dyes, along with the five smaller firms Agfa, Cassella and some other companies.
4. 1935–1936. Improvements in or relating to apparatus for reproducing or repeating the movement of a moving object.
In 1934, ten years after his exam in 1924 at the Budapest University of Technology and Economics, Kornél Tolnai had a lecture about his inventions Teletachograf and Centralograf at the Budapest University of Technology and Economics (Hungarian: Budapesti Műszaki és Gazdaságtudományi Egyetem, BME). The title of the lecture was Efficiency Improvement of the Textile Industry. The lecture had the same information as was printed in the Hungarian trade technical journal "Magyar Textiltechnologusok Lapja", May 25, 1934 "TEXTIL-IPAR", Budapest. At that time, in 1934, the technical highschool in Budapest was named Royal Joseph Technical University. It was reorganized in 1871 and was elevated to equal rank with other universities in the country. In 1910 it moved to its current site near Gellért square (next to the Art Nouveau Hotel Gellért). In 1934 it was reorganized again as Palatine Joseph University of Technology and Economics and it played a dominant role in the interwar industrialization process, together with engineering and economist training in Hungary. In Hungarian the name of the highschool was M. kir. József nádor Műszaki és Gazdaságtudományi Egyetemet. In Hungarian the school is abbreviated as BME, English official abbreviation BME, is the most significant University of Technology in Hungary and is also one of the oldest Institutes of Technology in the world.
In 1931 Kornél Tolnai set out his own inventions and patents at the Leipzig Trade Fair again during the Leipzig Spring Fair in February 1931. Gábor Kornél Tolnai came in contact with the Swedish company Ericsson (LM Ericsson. Telefonaktiebolaget L. M. Ericsson is a telecommunications equipment manufacturer and the company is one of the largest Swedish companies, that provides telecommunications equipment and data communication systems and related services covering a range of technologies.
In 1931 L.M. Ericsson introduced the Bakelite phone, and acquired the patent rights to Tolnai's Centralograph machine-status-recorder. When Ericsson's Bakelite telephone was first distributed worldwide in 1931 it was called the Swedish type of telephone and set the standard for how a modern plastic telephone should look. The distinctive Ericsson styles soon became subdued by the increasing use of moulded thermoplastic phones. Ericsson's innovative bakelite telephone, which was launched in 1931, was primarily known for its trend-setting (early adopter) design, but it also contained an important technical innovation called anti-side tone coupling. The line of telephones, the Ericsson DBH 1001 telephone, was the Bakelite phone, officially also called DBH 1001, m33, N1020 or DE 702, was a Swedish standard telephone bakelite produced in over thirty years between 1931 and 1962.
In the Skandinavisk Tidskrift för Textilindustri (Scandinavian Journal of Textile Industry), N:o 7-8, 1931, which was printed at AB Borås Tidningstryckeri in Swedish, there was an article about Kornél Tolnai's invention with text and pictures. The title of the article was A valuable tool for rationalization of industrial operation, Business professionals, investors and manufacturers insist on an economic production. (In Swedish: Ett värdefullt hjälpmedel vid rationalisering av industriell drift, Affärslivet, aktieägare och fabrikanter yrka på en ekonomisk produktion.) The responsible publisher for the publication, a trade technical journal, was Hugo Hennig from the textile factory in Borås. The Teletachograf and the Centralograf were put together, as for example in the office of the manager of the spinning mill in the big cotton firm Leó Goldbergers textilfabrik (Goldberger Textilművek Rt.) in Budapest. Here was also System Tolnai connected to a control plant in the ringspinning hall.
5. 1931–1932. Improvements in apparatus for recording the performance of machines.
6. 1931–1932. Improvements in and relating to apparatus for recording the speed of working of machine or other revolving shafts.
In 1930 Kornél Tolnai exhibited his inventions at the Leipzig Trade Fair (German:Leipziger Messe), (English: Leipsic Trade fair), which was a major fair for trade across Central Europe for nearly a millennium, and then he came into contact with the textile industries in Norrköping and Borås. Norrköping developed with the construction of a cotton refinery. It was at the Spring Fair in 1930. The industry in Norrköping, including textile manufacturers, expanded into the 20th century. Borås is the leading textile city of Sweden, starting as a location spot for textile mills. In Borås he established contact with the engineer and executive director of the textile firm AB Hugo Hennig & Company (Sven Bjurqvist), who also was the editor for the Scandinavian Journal of Textile Industry, where some articles of Kornél Tolnai was printed (i.e. No 7-8, 1931). Hugo Hennig also was a member of Flax Cultivation Committee in Sweden. He founded his own agency and machine company in Borås. Over time, the company became, under his sons direction, only a sales agency for a variety of manufacturers of machines and accessories for the textile industry.
When LM Ericsson had bought Tolnai's patents Kornél Tolnai became an employee of LM Ericsson, both in Stockholm and in Budapest in 1930–1931. In Stockholm Ericsson had an office on Döbelnsgatan 18 with workshops on Thulegatan 5, 15, 17 and 19 and in Budapest Ericsson had a branch with workshops and offices on Vörösmarty útca 67, Budapest VI, in the district of Terézváros, an office building located in the 6th district near to Budapest-Nyugati Railway Terminal (Hungarian: Budapest-Nyugati pályaudvar; English: Budapest Western railway station), in the historical heart of Budapest. It lies at the intersection of Grand Boulevard and Váci Avenue. It was the Hungarian Electricity A.G. Ex Deckert and Homolka. Ericsson, the full name of Telefonaktiebolaget L.M. Ericsson, is a Swedish telecommunications company with an international focus.
During the 1930s Kornél Tolnai sometimes had his meetings with the L. M. Ericsson board of directors in the South Kings' Tower in Kungsgatan 33, as the company had until 1940 its representative office here. The South Kings' Tower is the one of the two towers, it is a 17-storey and 61 m (200 ft) and was built between 1924 and 1925. Together, they are considered the first modern skyscrapers in Europe. The South Kings' Tower was adorned with four towers figures from Roman mythology (Fortuna, Mercury, Neptune and Victoria) created by sculptor Aron Sandberg. Constructor was L. M. Ericsson's real estate company, and the company had until 1940 its representative office here. If you look closely at the tower figures you will see that one of them (Victoria) carries a gilded Ericsson phone with the letters "LME". In the top of the tower was until 1963 the restaurant Pagod which was a temperance restaurant, decorated by Aaron Sandberg in Chinese theme, which was run by the Salvation Army.
At this time he constructed a couple of his most successful inventions for military anti-aircraft defence. The invention was a tempering machine for anti-aircraft guns and it was introduced for military anti-aircraft instrumentation. Among other things, he collaborated with AB Bofors about his invention Impulse engine, a tempering machine for anti-aircraft autocannons. The Bofors 40 mm air-craft gun, often referred to simply as the Bofors gun, is an anti-aircraft/multi-purpose autocannon designed in the 1930s by the Swedish arms manufacturer AB Bofors. It was one of the most popular medium-weight anti-aircraft systems during World War II. In the mid-1930s the foundation for the company's most famous product was laid, the Bofors 40 mm automatic cannon, which during World War II were produced in different countries in 10,000 numbers of copies.
In analogue audio recording a tachometer is a device that measures the speed of audiotape as it passes across the head. The reel-to-reel format was used in the very earliest magnetic tape sound recorders, including the pioneering German Magnetophon machines of the 1930s. Originally, this format had no name, since all forms of magnetic tape recorders used it. The name arose only with the need to distinguish it from the several kinds of tape cartridges or cassettes such as the endless loop cartridge, Fidelipac, developed for radio station commercials and spot announcements in 1954, the full size cassette, developed by RCA in 1958 for home use, as well as the compact cassette developed by Philips in 1962, originally for dictation. Reel-to-reel tape was also used in early tape drives for data storage on mainframe computers, video tape recorder (VTR) machines, and high quality analog audio recorders, which have been in use from the early 1940s, up until the present.
During the years 1928–1931 Kornél Tolnai made three inventions of his own, Centralograph, Teletachograph and Regulator, which he accomplished completely. After that he came into contact with the Swedish LM Ericsson. They bought his patents and then he was working at LM Ericsson, both in Stockholm and in Budapest for some years. He set up an experimental workshop in Stockholm and worked with designs and inventions, some of which led to patents. He was active in Sweden from 1935 and became a Swedish citizen in 1940.
A year later, in the autumn of 1928, he established himself as self-employed in Budapest with a precision-tool workshop, whose activity was based on three of his own inventions, which he had patented. All these inventions were intended for the registration and improvement of the running of the spinning machines. At times he had about ten employees in his workshop. The name of his firm was Dipl.ing. G.K. Tolnai, Finommechanikai készülékek for Fine mechanical devices, in Mester útca 13, IX. Budapest in the district of Ferencváros. In his machine workhop in Budapest he manufactured the machines, which he had invented, and he also collaborated with the manager of the company Linum Taussig, Paul Hermann (Hungarian: Hermann Pál), Budaörsi út 45, XI. Budapest, Újbuda in the district of Újbuda. The machine was a tool that consisted of one or more parts, and used energy to achieve a particular goal. The machines were usually powered by mechanical, chemical, thermal, or electrical means, and were frequently motorized. A powered tool also requires moving parts to classify as a machine.
During the years 1928–1931 Kornél Tolnai made three inventions of his own, Centralograph, Teletachograph and Regulator, which he accomplished completely. He manufactured the Centralograph in his own workshop, called "Dipl.ing. GK Tolnai Okl. Gépészmérnök", M. Sc. G K Tolnai Master of Science Mechanical, in Mester útca (1928–1931). The spinning of textiles is a major industry for production monitoring and registration of the running of the spinning machines in workshops and offices. It is part of the textile manufacturing process where three types of fibres are converted into yarn, then fabrics.
Magnetic tape revolutionized broadcast and recording. Magnetic tape was invented for recording sound by Fritz Pfleumer in 1928 in Germany, based on the invention of magnetic wire recording by Valdemar Poulsen in 1898. Pfleumer's invention used an iron oxide (FeO) powder coating on a long strip of paper. This invention was further developed by the German electronics company AEG, which manufactured the recording machines and BASF, which manufactured the tape. In 1933, working for AEG, Eduard Schüller developed the ring shaped tape head. Eduard Schüller, was a German engineer and he had a decisive role in the development of the rape recorder and the videorecorders. Previous head designs were needle shaped and tended to shred the tape.
In the autumn of 1927 Tolnai returned to Budapest and became an employee of the Group Linum-Taussig in Budapest as a technical superior and supervisor of the company's industrial spinning machines for spinning textiles manufacturing in the process (Manufacturing process management, MPM) of creating yarn from various raw fibre materials. Spinning is an ancient textile art in which plant, animal or synthetic fibers, are twisted together to form yarn. Linum-Taussig was established in 1922.
After graduating Gábor Kornél Tolnai studied at the Technical University of Budapest. He was ready in record time with his Diploma Engineer degree only 21 years old in the spring of 1924. After his diploma in Budapest in spring 1924 Gábor Kornél Tolnai settled down in Paris for study and practice for three years.
The head office of the company Linum-Taussig Sámuel és Fiai Lenfonó és Szövőipar Részvénytársaság was in Budapest, and they also had a branch office in Győr. Linum-Taussig Sámuel és Fiai Lenfonó és Szövőipari Rt. was founded in 1922. For the company Linum-Taussig Kornél Tolnai also worked as a supervisor in the city of Győr (German: Raab) at their spinning machine factory there. Győr is the most important industrial city of northwest Hungary and is situated about 30 km from Budapest between Budapest and Vienna, with waggons and machinery factories. The factory system began widespread use somewhat later when cotton spinning of textiles was mechanized.
The plant in Budapest continued to report a profit during the 1920s, since the Hungarian PTT placed half of its orders for telephone equipment with Ericsson. The company expected major orders for automatic systems during the 1930s, but the depression dashed these hopes.
Gábor Kornél Tolnai entered the German-speaking Lutheran Fasori Gimnázium in Budapest for eight years in 1912 through 1920. Budapest–Fasori Evangélikus Gimnázium, 1071 Budapest, Városligeti fasor 17–21, was one of the best schools in Budapest, and he got his higher school certificate in the spring of 1920. He was a classmate of Eugene Wigner, eminent physicist, mathematician and Nobel Prize winner in Physics in 1963 and schoolmate of John von Neumann, eminent mathematician, physicist, polymath and inventor of the computor. Fasori Evangélikus Gimnázium had a strong academic tradition and outstanding teachers, i.e. mathematics teacher László Rátz, physics teacher Mikola Sándor and class teacher Imre Oppel. Fasori Gimnázium is a famous secondary school in Budapest. It is located near the City Park.
In the beginning of the 1930s a new material came to dominate the productions of telephones. It was the Bakelite, an early plastic. The plastic was developed by Belgian-born chemist Leo Baekeland in New York in 1907. It was one of the first plastics made from synthetic components. The United States Patent and Trademark Office granted Baekeland a patent for a "Method of making insoluble products of phenol and formaldehyde" on December 7, 1909.
Gábor Kornél Tolnai, born November 22, 1902 in Budapest, died on February 3, 1982 in Stockholm, was a Hungarian-Swedish Diploma engineer, inventor, constructor, mechanical engineer, precision engineer, electrical engineer and a self-employed person. He is best known for his inventions and patents for spinning machines, devices for the Swedish National Defense and several types of tape recorders.
Kornél Tolnai was born in 1902 in Budapest in Hungary and took his Diploma Engineer's degree at the Technical University of Budapest in 1924.
Magnetic recording was demonstrated in principle as early as 1898 by Valdemar Poulsen in his telegraphone. Magnetic wire recording, and its successor, magnetic tape recording, involve the use of a magnetizable medium which moves with a constant speed past a recording head. Engineers at AEG, working with the chemical giant IG Farben, created the world's first practical magnetic tape sound recorder, the 'K1', which was first demonstrated in 1935. By 1943 AEG had developed stereo tape recorders. Development of magnetic tape recorders in the late 1940s and early 1950s is associated with the Brush Development Company and its licensee, Ampex; the equally important development of magnetic tape media itself was led by Minnesota Mining and Manufacturing corporation (now known as 3M).
An autocannon is a rapid-fire projectile weapon firing a shell as opposed to the bullet fired by a machine cannon. AB Bofors was a Swedish industrial company and arms manufacturers headquartered in the town of Karlskoga in Örebro County in Värmland. In late 19th century Karlskoga was transformed from iron works to a manufacturer of cannon and in the 20th century a more diversified defense industry. The most famous owner of the Swedish company Bofors, located in Karlskoga, was Alfred Nobel who owned the company from 1894 until his death in December 1896. He had the key role in reshaping the iron manufacturer to a modern cannon manufacturer and chemical industry. The name Bofors has been associated with the iron industry for more than 350 years.
Ericsson was founded in 1876 by Lars Magnus Ericsson (1846–1926). The company Ericsson that operated the Hungarian plant was named Ericsson Ungarische Elektrizitäts Aktiengesellschaft. The address at that time in Budapest was Fehévari-út 70, I. Budapest in the district of Budavár. Ericsson Factories and Offices in Sweden, Ericsson Telephone Ltd. Telephone Engineers and Manufacturers, were in 14 countries. In Stockholm Ericsson had an office in Kungsgatan 31-33 in the Södra Kungstornet, the "South Kings' Tower", one of the two Kungstornen (English: Kings' Towers) in Stockholm.
Kornél Tolnai often visited a factory in Ludwigshafen am Rhein (Rhineland-Palatinate in Germany) for his business with the company. There he had contacts with BASF, the largest chemical company in the world. BASF SE is a German chemical company, founded in 1865, and SE stands for Societas Europea. The company is a pioneer in the chemical industry and has operations worldwide. 1925–1952 it was part of IG Farben. BASF originally stood for Badische Anilin- und Soda-Fabrik (Baden Aniline and Soda Factory). Today, the four letters are a registered trademark and the company is listed on the Frankfurt Stock Exchange, London Stock Exchange, and Zurich Stock Exchange. The BASF Group's headquarters are located in Ludwigshafen
In 1857 the first device that could record sound waves as they passed through the air was invented. It was the phonautograph. The phonograph expanded on the principles of the phonautograph. Perfected by Thomas Edison in 1878, the phonograph was a device with a cylinder covered with an impressionable material such as tin foil, lead, or wax on which a stylus etched grooves. The advent of electrical recording made it possible to use microphones to capture the sound of the performance. The leading record labels switched to the electric microphone process in 1925, and most other record companies followed their lead by the end of the decade.
Bofors was initially a general iron and steel use, and was to become an arms manufacturers in the late 1800s when technology developments within the field cannon meant that the new steel grades and manufacturing techniques were used. The Bofors 40 mm gun is a famous anti-aircraft autocannon designed by the Swedish firm Bofors. It was one of the most popular medium-weight anti-aircraft systems during World War II, used by most of the western Allies as well as various other forces. It is often referred to simply as the Bofors gun. The name Bofors has been associated with the iron industry for more than 350 years. It is located in Karlskoga, Sweden, and it originates from the hammer mill "Boofors" founded 1646. The company was founded in 1873.