Jul 15, 2015
Definitions...
⦿ A rocket is a vehicle, or a missile which obtains thrust as reaction to the fast flowing exhaust gases from within the rocket engine.
⦿ Often the term rocket is also used to mean a rocket engine.
⦿ Contains the substances necessary for operation it is not dependent on atmospheric oxygen, and thus is capable of operating in outer space.
⦿ 2100 Years on the Timeline it spans as the science and technology of the rocket builds from inception to maturity.
⦿ This presentation chronicles briefly the major events.
⦿ 100 BC - A Greek inventor known as Hero of Alexandria invented a rocket-like device called an aeolipile.
⦿ 13th century - The solid-propellant rocket was invented by the Chinese. The Chinese used rockets in battles.
⦿ 1232 AD - The Chinese used rockets against the Mongols. An arrow with a tube of gunpowder produced an arrow of flying fire.
⦿ 13th-15th Century – All through there were many rocket experiments.
For example, Joanes de Fontana of Italy designed a surface-running rocket-powered torpedo for setting enemy ships on fire.
⦿ 16th Century early-
An ancient legend: a Chinese official named Wan-Hu, World's First "Astronaut”, attempted a flight to the moon. As assistants rushed forward to light the fuses, the flying wicker chair and Wan-Hu were gone with a bang.
⦿ 1650 - A Polish artillery expert, K Siemienowicz, published a series of drawings for a staged rocket.
⦿ 17th Century Late - The army of the Muslim
Indian prince, Haidar Ali, the ruler of Mysore, had a standing corps of rocket throwers.
British troops broke and
ran as they came under a rocket barrage at Seringapatam.
⦿ 1806 – The British used Congreve rockets, named after William Congreve, to attack Napoleon's headquarters in France.
⦿ William Congreve’s rocket used a guide stick to help stabilize the rocket.
⦿ 1882 – Carl Patrick Gustaf de Laval invented the convergent-divergent nozzle. The de Laval nozzle helped usher in the era of compressible flow applications such as supersonic and hypersonic flight.
⦿ 19th Century Late –
Theorists, like K Tsiolkovsky in Russia, were examining the fundamental scientific theories behind rocketry.
They were beginning to consider the possibility of space travel.
⦿ 1903 - Tsiolkovsky published a report that suggested the use of liquid propellants for rockets in order to achieve greater range.
⦿ Tsiolkovsky stated that the speed and range of a rocket were limited by the exhaust velocity of escaping gases.
⦿ Tsiolkovsky has been called the father of modern astronautics.
⦿ 1923 - Dr Hermann Oberth, a German, published a book about the rocket travel into outer space.
⦿ It was the first serious scientific work on the topic that received international attention.
⦿ Dr Oberth fathered the first rocket societies around the world.
⦿ 1926 - Robert H Goddard, an American, launched the first liquid-fueled rocket.
⦿ It laid the foundation for a technology that would eventually take man to the moon and beyond.
⦿ Goddard has been called the father of modern rocketry.
⦿ 1942 - W von Braun and W Dornberger launched the first V-2 rocket in northern Germany.
⦿ The V-2 became one of the best known of all early missiles.
⦿ In Huntsville, USA, von Braun’s German team, with Americans, would develop plans for exploring space.
⦿ They would build the rockets that served the American space program for years to come.
⦿ 1953 - The first American ballistic missile was launched.
⦿ The Redstone was a high-accuracy, liquid-propelled, surface-to-surface missile.
⦿ 1958, Jan 31 - The USA launches Explorer-I, the first American artificial satellite, aboard a rocket, the Juno-I (modified JUPITER-C).
⦿ 1961, April 12 - Yuri Gagarin, a Soviet, became the first man to orbit the Earth.
⦿ A-Class (Vostok-1 rocket) was used.
⦿ 1969, July 20 – The crowning achievement for the Saturn-V rocket came when it launched Apollo-11 astronauts to the moon.
⦿ 1986 - 1996
Mir was assembled in orbit by successively connecting several modules, each launched separately.
Mir was a highly successful Soviet (and later Russian) space station.
It was humanity's first consistently inhabited long-term research station in space.
NOTE: Although most rockets used bygovernments and research organizations are veryreliable, there is still great danger associated with
the building and firing of rocket engines. Individualsinterested in rocketry should never attempt to buildtheir own engines. Even the simplest-looking rocket
engines are very complex. Case-wall burstingstrength, propellant packing density, nozzle design,
and propellant chemistry are all design problemsbeyond the scope of most amateurs. Many homebuilt
rocket engines have exploded in the faces oftheir builders with tragic consequences.
National Aeronautics and Space Administration (USA)