Engineering History When did engineering begin Who were
Engineering History
When did engineering begin? Who were the first engineers? What were the first engineering designs?
The Beginnings of Engineering: 6000 - 3000 B. C. Probably occurred in Asia Minor or Africa 8000 years ago n. Change from nomadic life (hunter - gatherers) n. The Agrarian Society (agriculture) nforms the basis of civilization ncultivate plants - the need for increased food production ndomesticate animals - for food and work nbuild permanent houses in community group n
The Beginnings of Engineering: 6000 - 3000 B. C. Increased food production permitted time to engage in other activities such as: Rulers - to stabilize community life land ownership - to complete work - organize work force - beginnings of a class society nsupervisors nforemen nworkers - artisans n Artisans - considered to be the first engineers n
The Beginnings of Engineering: 6000 - 3000 B. C. Early Achievements in this Era n n n Methods of producing fire at will Melting certain rocklike materials to produce copper and bronze tools Development of a system of symbols for written communications
The Beginning of Engineering: 6000 - 3000 B. C. Major Engineering Projects or Inventions Irrigation systems to promote crop growth n. Animal-, water-, and wind-driven gristmills n. The wheel and axle n Plow n Yoke n
The Beginning of Engineering: 6000 - 3000 B. C. Mesopotamia “cradle of civilization” n n Clay tile material used for permanent documentation Clay tablets unearthed which show: nmaps of caravan routes including mountains, cities and water ncity plans nirrigation systems nwater supply systems nroad maps (networks) Euphrates-Tigris river
The Beginning of Engineering: 6000 - 3000 B. C. n Outstanding contributions of mathematics n Sexagesimal system n divided circle into 360 degrees n hour into 60 minutes n minute into 60 seconds
Engineering in Early Civilizations: 3000 -600 B. C. n Babylonian engineers: Familiar with basic arithmetic and algebra computing areas and volumes of land excavations n. Number system based on 60 instead of 10 n. Buildings were constructed using basic engineering principles still used today n. Primitive arches used in hydraulic works n. Bridges were built with stone piers carrying wooden stringers n. Roads were surfaced with a naturally occurring asphalt, a construction system not used again until the nineteenth century n
Engineering in Early Civilizations: 3000 -600 B. C. n Egyptian Engineers n Pyramid Age - 2900 B. C and lasts 1000 years n 2, 300, 000 building stones (2. 5 tons each) used to build the Great Pyramid of Cheops n. Outstanding examples of engineering skills in land measurement and building layout -transit and level n Irrigation systems
Science of the Greeks and Romans: 600 B. C. - 400 A. D. n Engineering in Greece: Had its origin in Egypt n Better known for the intensive development of borrowed ideas than for creativity and invention n Famous for outstanding philosophers: n Socrates, Plato, Aristotle (physical scientist) and Archimedes (mathematics) n
Science of the Greeks and Romans: 600 B. C. - 400 A. D. n Engineering in Greece: Use of ideas was retarded because of the belief that verification and experimentation, which required manual labor, were only fit for slaves. n Archimedes water screw n Crossbow n Catapult n
Science of the Greeks and Romans: 600 B. C. - 400 A. D. n Roman Engineering Borrowed scientific and engineering knowledge from the conquered countries for use in warfare and in their public works n Superior in the application of ideas and techniques n Hero’s Inventions: n. Gear driven odometer on chariot n. Steam turbine n. Hydraulic clock n. Fire engine n
Science of the Greeks and Romans: 600 B. C. - 400 A. D. n Roman Engineering Roman road systems- subbase, compact base, topcoat 180, 000 miles n Aqueducts for water supply n Sanitary systems n Engineering principles applies n to military tactics n
Engineering in the Middle Ages: 1 st to 16 th Centuries Collapse of the Roman Empire 4 th and 5 th centuries A. D. was known as the Dark Ages, but was it? n. The word engineer began to appear. Its root lies in the Latin word ingeniare, “to design or devise” n. Animals and waterwheels began to replace humans as the power source n. Arabs were developing paper making, chemistry, and optics n. Sugar refining, soap making, and perfume distilling became part of the culture n. Chinese were developing clocks, astronomical instruments, the loom and spinning wheel, and gunpowder n
Engineering in the Middle Ages: 1 st to 16 th Centuries Johann Gutenburg - movable type produced the first books printed on paper n Leonardo da Vinci - acclaimed as a great artist, was also an engineer, inventor and architect n Military and civil engineering feats such as catapults bridges and buildings n Sketches of future engineering devices such as: n Machine Gun Drawbridge Cannon Universal Joint Helicopter Breach-loading Roller Bearings Tanks
The Revival of Science: 17 th and 18 th Centuries Galileo Discovers: n. Gravitational acceleration- velocity a body achieves while falling, is independent of weight n. Earth moves around the sun n. Torricelli and Pascal Discovers: nhydrostatics and dynamics develop the barometer n. Boyle Discovers: nexpansion quality of air and the correlation between temperature, volume, and pressure n
The Revival of Science: 17 th and 18 th Centuries Hooke Discovers: nmaterial lengthens in proportion to the force exerted on it, up to the elastic limit, and in compression it shortens in a similar fashion n Huygens develops nspiral watch spring and the pendulum clock and measures gravitational acceleration n Newton who is famous for his three basic laws of motion ndeveloped differential calculus, essential to mathematical analysis of most physical systems n
The Revival of Science: 17 th and 18 th Centuries n The Developing Industrial Age James Watt - steam engine for textile mills, iron furnaces, rolling mills and other industries n Hargreaves, Crampton, and Jurgen develops the spinning and weaving machinery n Pieter van Musschenbroek develops a device to hold a static electrical charge, now called the leyden jar forerunner to the capacitor n Luigi Galvani- principles of electrical conduction n Alessandro Volta - principles of the electric battery n
Beginnings of Modern Science: 19 th Century Andre-Marie Ampere confirms the flow of electrical current, leading to the science of electrodynamics n Michael Faraday found the means to generate electricity by moving a conductor through a magnetic field n Jagadis Chandra Bose demonstrated the transmission of electric signals through space; Marconi was awarded a patent for the same achievement a year later n Henry Cort develops a method of refining iron n James Watt refines and produces an efficient steam engine n At last good iron for machines and power plants to operate the machinery n
20 th Century Technology Henry Ford- Builds and sells automobiles n and mass production emerges n Nikola Tesla introduces the first practical application of alternating current, the polyphase induction motor n Orville & Wilbur Wright develop powered aircraft n n Wallace Carothers leads a team of organic chemists and chemical engineer researchers at du. Pont to develop NYLON the first of many “synthetic fibers”. The beginnings of polymer research
20 th Century Technology Using Albert Einstein's model “E=mc 2 scientists from Europe and the United States at the University of Chicago produce the first nuclear pile. The age of controlled nuclear reaction begins. n John Brainerd , at the University of Pennsylvania’s Moore School of Engineering develop the first computer called the “ENIAC”. It weighted over 30 tons and occupied over 1500 square feet. n John Bardeen, Walter Brattain, and William Shockley, discovered that current changes in one part of a diode caused current changes in another part of a diode and create the transistor. n
20 th Century Technology Texas Instruments and Fairchild Semiconductor discovers that the transistor’s silicon crystal could be made to be its own circuit board. “transistors - the switch that controls the world” n Pratt & Whitney develop turbojet engines n Boeing Airplane Company develop the Boeing 707 capable of transporting 180 passengers at speeds of 600 mph n Theodore Maiman produces the first working laser which has mushroomed to encompass surgeons, transmit telephone calls, track storms, to checkout in supermarkets, to weld steel, to cut fabric and to produce holograms n
20 th Century Technology Communication Satellites - now handle more than half of all transoceanic telephone, television and audio network program distribution n n And the list goes ON AND ON
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