HISTORY OF AVIATION

English Project

The history of aviation has extended over more than two thousand years from the earliest attempts in kites and gliders to powered heavier-than-air, supersonic and hypersonic flight.

Mythology

The first form of man-made flying objects were kites. The earliest known record of kite flying is from around 200 BC in China, when a general flew a kite over enemy territory to calculate the length of tunnel required to enter the region. Yuan Huangtou, a Chinese prince, survived by tying himself to the kite.

Leonardo da Vinci's (15th c.) dream of flight found expression in several designs, but he did not attempt to demonstrate his ideas by actually constructing them.

With the efforts to analyze the atmosphere in the 17th and 18th century, gases such as hydrogen were discovered which in turn led to the invention of hydrogen balloons. Various theories in mechanics by physicists during the same period of time, notably fluid dynamics and Newton's laws of motion, led to the foundation of modern aerodynamics. Tethered balloons filled with hot air were used in the first half of the 19th century and saw considerable action in several mid-century wars, most notably the American Civil War, where balloons provided observation during the Battle of Petersburg.

Some six centuries after Ibn Firnas, Leonardo da Vinci developed a hang glider design in which the inner parts of the wings are fixed, and some control surfaces are provided towards the tips (as in the gliding flight in birds). While his drawings exist and are deemed flightworthy in principle, he himself never flew in it. Based on his drawings, and using materials that would have been available to him, a prototype constructed in the late 20th century was shown to fly. However, his sketchy design was interpreted with modern knowledge of aerodynamic principles, and whether his actual ideas would have flown is not known. A model he built for a test flight in 1496 did not fly, and some other designs, such as the four-person screw-type helicopter, have severe flaws.

1783 was a watershed year for ballooning and aviation, between June 4 and December 1 five aviation firsts were achieved in France:

On 4 June, the Montgolfier brothers demonstrated their unmanned hot air balloon at Annonay, France.

On 27 August, Jacques Charles and the Robert brothers (Les Freres Robert) launched the world's first (unmanned) hydrogen-filled balloon, from the Champ de Mars, Paris.

On 19 October, the Montgolfiers launched the first manned flight, a tethered balloon with humans on board, at the Folie Titon in Paris. The aviators were the scientist Jean-François Pilâtre de Rozier, the manufacture manager Jean-Baptiste Réveillon, and Giroud de Villette.

On 21 November, the Montgolfiers launched the first free flight with human passengers. King Louis XVI had originally decreed that condemned criminals would be the first pilots, but Jean-François Pilâtre de Rozier, along with the Marquis François d'Arlandes, successfully petitioned for the honor. They drifted 8 km (5.0 mi) in a balloon powered by a wood fire.

On 1 December, Jacques Charles and the Nicolas-Louis Robert launched their manned hydrogen balloon from the Jardin des Tuileries in Paris, amid a crowd of 400,000. They ascended to a height of about 1,800 feet (550 m)[15] and landed at sunset in Nesles-la-Vallée after a flight of 2 hours and 5 minutes, covering 36 km. After Robert alighted Charles decided to ascend alone. This time he ascended rapidly to an altitude of about 3,000 metres, where he saw the sun again, suffered extreme pain in his ears, and never flew again.

In 1856, Frenchman Jean-Marie Le Bris made the first flight higher than his point of departure, by having his glider "L'Albatros artificiel" pulled by a horse on a beach. He reportedly achieved a height of 100 meters, over a distance of 200 meters.

The 1880s became a period of intense study, characterized by the "gentleman scientists" who represented most research efforts until the 20th century. Starting in the 1880s advances were made in construction that led to the first truly practical gliders. Three people in particular were active: Otto Lilienthal, Percy Pilcher and Octave Chanute. One of the first modern gliders appears to have been built by John J. Montgomery; it flew one flight outside of San Diego on August 28, 1883. It was not until many years later that his efforts became well known. Another hang-glider had been constructed by Wilhelm Kress as early as 1877 near Vienna.

Throughout this period, a number of attempts were made to produce a true powered aircraft. However the majority of these efforts were doomed to failure, being designed by ill-informed amateurs who did not have a full understanding of the problems being discussed by Lilienthal and Chanute.

In 1884, Alexander Mozhaysky's monoplane design made what is now considered to be a powered take off assisted by the use of ramp, flying between 60–100 ft (20–30 m) near Krasnoye Selo, Russia.

In France Clément Ader built the steam-powered Eole and may have made a 50-meter flight near Paris in 1890, which would be the first self-propelled "long distance" flight in history. Ader then worked on a larger design which took five years to build. In a test for the French military, the Avion III failed to fly and, caught by a gust of wind, was seriously damaged. Ader's later claims to have achieved a flight of 300 meters were later proved false. Sir Hiram Maxim made a number of experiments in Britain, eventually building an enormous 7,000 pounds (3,200 kg) machine with a wingspan of 105 feet (32 m), powered by two advanced lightweight steam engines which delivered 180 hp (134 kW) each. Maxim built it to study the basic problems of construction, lift and propulsion. He used a 1,800 feet (550 m) track with a second set of restraining rails for test runs. After a number of tests, on 31 July 1894 he started a series of runs at increasing power settings. The first two were successful, with the craft lifting off the track. In the afternoon the crew of three fired the boilers to full power, and after reaching a speed of over 42 mph (68 km/h) about 600 feet (180 m) down the track the machine produced so much lift it broke one of restraining rails and crashed after flying at a low altitudes for about 200 feet (61 m). Having spent around £30,000, and unwilling to spend more, he abandoned these experiments, only resuming his work in the 20th century, when he tested a number of smaller designs powered by gasoline engines.

Also in Britain Percy Pilcher, who had worked for Maxim and had built and successfully flown several gliders during the mid to late 1890s, constructed a prototype powered aircraft in 1899 which, recent research has shown, would have been capable of flight. However, he died in a glider accident before he was able to test it.

The Wright brothers! Following a step by step method, discovering aerodynamic forces then controlling the flight, the brothers built and tested a series of kite and glider designs from 1900 to 1902 before attempting to build a powered design. The gliders worked, but not as well as the Wrights had expected based on the experiments and writings of their 19th century predecessors. Their first glider, launched in 1900, had only about half the lift they anticipated. Their second glider, built the following year, performed even more poorly. Rather than giving up, the Wrights constructed their own wind tunnel and created a number of sophisticated devices to measure lift and drag on the 200 wing designs they tested. As a result, the Wrights corrected earlier mistakes in calculations regarding drag and lift. Their testing and calculating produced a third glider with a larger aspect ratio and true three-axis control. They flew it successfully hundreds of times in 1902, and it performed far better than the previous models. In the end, by establishing their rigorous system of designing, wind-tunnel testing of airfoils and flight testing of full-size prototypes, the Wrights not only built a working aircraft but also helped advance the science of aeronautical engineering.

The years between World War I and World War II saw great advancements in aircraft technology. Airplanes evolved from low-powered biplanes made from wood and fabric to sleek, high-powered monoplanes made of aluminum, based primarily on the founding work of Hugo Junkers during the World War I period and its adoption by American designer William Bushnell Stout and Soviet designer Andrei Tupolev. The age of the great rigid airships came and went.

World War II saw a drastic increase in the pace of aircraft development and production. All countries involved in the war stepped up development and production of aircraft and flight based weapon delivery systems, such as the first long range bomber. Also air combat tactics and doctrines changed, large scale strategic bombing campaigns were launched, fighter escorts introduced and the more flexible aircraft and weapons allowed precise attacks on small targets with dive bombers, fighter-bombers, and ground-attack aircraft. New technologies like radar also allowed more coordinated and controlled deployment of air defense. The first functional jet plane was the Heinkel He 178 (Germany), flown by Erich Warsitz in 1939, followed by the world's first operational jet aircraft, the Me 262, in July 1942 and world's first jet-powered bomber, the Arado Ar 234, in June 1943. British developments, like the Gloster Meteor, followed afterwards, but saw only brief use in World War II. The first cruise missile (V-1), the first ballistic missile (V-2), the first (and to date only) operational rocket-powered combat aircraft Me 163 and the first vertical take-off manned point-defense interceptor Bachem Ba 349 were also developed by Germany. However, jet fighters had only limited impact due to their late introduction, fuel shortages, the lack of experienced pilots and the declining war industry of Germany.

In 1961, the sky was no longer the limit for manned flight, as Yuri Gagarin orbited once around the planet within 108 minutes, and then used the descent module of Vostok I to safely reenter the atmosphere and reduce speed from Mach 25 using friction and converting velocity into heat. The United States responded by launching Alan Shepard into space on a suborbital flight in a Mercury space capsule. With the launch of the Alouette I in 1963, Canada became the third country to send a satellite in space. The space race between the United States and the Soviet Union would ultimately lead to the landing of men on the moon in 1969.

In commercial aviation, the early 21st century saw the end of an era with the retirement of Concorde. Only commercially viable in niche markets, the planes were required to fly over the oceans if they wanted to break the sound barrier. Concorde was fuel hungry and could carry a limited amount of passengers due to its highly streamlined design. Nevertheless, it seems to have made a significant operating profit for British Airways.

In the beginning of the 21st century, subsonic military aviation focused on eliminating the pilot in favor of remotely operated or completely autonomous vehicles. Several unmanned aerial vehicles or UAVs have been developed. In April 2001 the unmanned aircraft Global Hawk flew from Edwards AFB in the US to Australia non-stop and un-refuelled. This is the longest point-to-point flight ever undertaken by an unmanned aircraft, and took 23 hours and 23 minutes. In October 2003 the first totally autonomous flight across the Atlantic by a computer-controlled model aircraft occurred.

The U.S. Centennial of Flight Commission was established in 1999 to encourage the broadest national and international participation in the celebration of 100 years of powered flight. It publicized and encouraged a number of programs, projects and events intended to educate people about the history of aviation.

Romania has a rich tradition in the aviation field. At the beginning of the 20th century, flight pioneers like Aurel Vlaicu, Traian Vuia and George Valentin Bibescu brought important contributions to early aviation history, building revolutionary airplanes and changing the age's mentalities.

The Romanian scientist Henri Coandă exhibited his first aircraft in 1910, worked in the UK to design aircraft for World War I, and continued to make inventions in a variety of fields. He discovered the Coanda effect of fluids.

Hermann Oberth was also a native Romanian, born in Sibiu.

Along the 20th century Romania built military aircraft (the IAR-39 and IAR-80 before and during World War II and the IAR-93 and IAR-99 Şoim since the 70s), helicopters (IAR 316, IAR 330 - under Aérospatiale licence) as well as passenger aircraft (ROMBAC 1-11 built under British Aircraft Corporation licence).

The industrial facilities for aircraft building and maintenance are located in Bacǎu (Aerostar), Braşov (Industria Aeronautică Română), Craiova (Avioane Craiova) and Bucharest (Romaero, Turbomecanica).

Dumitru Prunariu is the only Romanian astronaut who participated in a space mission (Soyuz 40 - May 14,1981)

Aviation in Romania

Made by: ALDEA MARIAN ALDEA ADRIAN