Industrialization and Appalachia Essay Example

Industrialization and Appalachia Essay Example Industrialization and Appalachia Essay Industrialization and Appalachia Essay Industrialization and AppalachiaThe Industrial revolution did non skip over Appalachia but the native mountain people did non profit from the effects of industrialisation and were left in a worse state of affairs. The stereotype of the Appalachian people that was formed prior to the industrialisation epoch was that mountain people were baronial. barbarian. independent. proud. rugged. dirty and uneducated. The industrialists to advance economic development and industrialisation of Appalachia used this backward image of the Appalachian people. They believed that the native Appalachian people were incapable of developing the Appalachian Mountains natural resources on their ain.However in seeking to maintain up with the modern universe during the industrial revolution the people of Appalachia were doomed to their pre-industrial image. Until the epoch of industrialisation Appalachia was a part of little. open-country communities. concentrated in vales. coves and hollows. Each community of farms was self-sufficing socially and economically. The focal point of a self-sufficing husbandman was that of endurance by working in their ain harvests and runing or raising farm animal for nutrient.They tended to hold big households to assist with all the demands of the farm. After the Civil War Northerners came into the southern Appalachian Mountains. and many were surprised by what they found. They f ound a battalion of mineral and timber wealth every bit good as a romantic beauty of the mountain landscape. Capitalists responded to this find and began to industrialise the Appalachian Mountains for their ain net income. Capitalists believed that the Appalachian people were excessively backward to cognize that they were sitting on an copiousness of resources so they manipulated the mountain climbers into selling big sums of land for fundamentally nil.As Eller wrote in his book Miners. Millhands and Mountaineers. some sold full mountains for a mule. Equus caballus or rifle . Industrialization depended foremost upon the edifice of an equal transit system into. out of. and within the mountain parts of the South. The railway was built and it opened the doors to the full development of the mountains natural resources. Coal and timber extraction were the primary resources that drove the Industrial Revolution in Appalachia. The extraction of these resources required the employment of the Appalachian husbandman.The mountain climber left their farms for pay employment and became dependent on that. The uncontrolled flow of the coal and lumber industry took up immense secret plans of farming area and forced households to travel to the excavation towns. With the presence of the coal and lumber companies in topographic point. the mountain climber could non trust to be more than hardly self-sufficing. The country industrialized without developing sufficient substructure to prolong itself. destining the mountain people to poverty. The mean mountain climber had been an independent kind of individual. running his ain farm. raising a household and constructing his ain hereafter. When brought into coal. lumber. and textile towns. he was at the clemency of his employer. The mountain climber became wholly dependent on his employer and was forced into awful conditions. Besides this dependance to his employer the mountain climber could non travel back to his old place topographic point and farm once more because the film editing of lumber ruined agribusiness.One of the most of import consequences of industrialisation in Appalachia has been the negative impact it has had on the long-run economic wellness of the part. None of the industries in Appalachia. and particularly non the coal industry. encouraged rival or spin-off economic development during their roar old ages. The consequence has been sporadic economic growing without existent economic development ( A Handbook to Appalachia. 15 ) . In Miners. Millhands and Mountaineers. Eller’s thesis was that while Appalachia had undergone industrialisation. the part itself failed to overhaul.He argues that during and after the industrialisation procedure mountain people lost their independency and self-government of their ascendants. without going full participants in the benefits of the modern universe. The mountain people found that the turning prosperity had bred greater dependance on the system beyond t heir control. Worst of all. none of the wealth the industrialists stripped from the mountains remained at that place. The industrial revolution was non decently development in Appalachia and it left the Appalachian people hapless and hardly able to care for themselves. So it is obvious that. in seeking to maintain up with the modern universe. the people of Appalachia were doomed to their pre-industrial image or stereotype.Plants cited1. A Handbook to Appalachia. an debut to the part ; edited by Grace Toney Edwards. JoAnn Aust Asbury. Ricky L. Cox Copyright 2006 by theUniversity of Tennessee Pres/Knoxville. 2. Eller. Ronald D. Miners. Millhands and Mountaineers. The University of Tennessee Press. 1982.

Biography of Blaise Pascal, Inventor of the Calculator

Biography of Blaise Pascal, Inventor of the Calculator French inventor Blaise Pascal (June 19, 1623–Aug. 19, 1662) was one of the most reputed mathematicians and physicists of his time. He is credited with inventing an early calculator, amazingly advanced for its time, called the Pascaline. Fast Facts: Blaise Pascal Known For: Mathematician and inventor of an early calculatorBorn: June 19, 1623 in Clermont, FranceParents: Étienne Pascal and his wife Antoinette BegonDied: August 19, 1662 in Port-Royal abbey, ParisEducation: Home-schooled, admitted to meetings of the French Academy, studies at Port-RoyalPublished Works: Essay on Conic Sections (1640), Pensà ©es (1658), Lettres Provinciales (1657)Inventions: Mystic Hexagon, Pascaline calculatorSpouse(s): NoneChildren: None Early Life Blaise Pascal was born at Clermont on June 19, 1623, the second of three children of Étienne and Antoinette Bà ©gon Pascal (1596–1626). Étienne Pascal (1588–1651) was a local magistrate and tax collector at Clermont, and himself of some scientific reputation, a member of the aristocratic and professional class in France known as noblesse de robe. Blaises sister Gilberte (b. 1620) was his first biographer; his younger sister Jacqueline (b. 1625) earned acclaim as a poet and dramatist before becoming a nun. Antoinette died when Blaise was 5. Étienne moved the family to Paris in 1631, partly to prosecute his own scientific studies and partly to carry on the education of his only son, who had already displayed exceptional ability. Blaise Pascal was kept at home in order to ensure he was not being overworked, and his father directed that his education should be at first confined to the study of languages. He requested that mathematics not be introduced until his son was 15. This naturally excited the boys curiosity, and one day, being then 12 years old, he asked what geometry was. His tutor replied that it was the science of constructing exact figures and of determining the proportions between their different parts. Blaise Pascal, stimulated no doubt by the injunction against reading it, gave up his play-time to this new study, and in a few weeks had discovered for himself many properties of figures, and in particular the proposition that the sum of the angles of a triangle is equal to two right angles. In response, his father brought him a copy of Euclid. A genius from a young age, Blaise Pascal composed a treatise on the communication of sounds at the age of 12, and at the age of 16 he composed a treatise on conic sections. A Life of Science At the age of 14, Blaise Pascal was admitted to the weekly meetings of Roberval, Mersenne, Mydorge, and other French geometricians, from which, ultimately, the French Academy sprung. In 1641, at the age of 18, Pascal built his first arithmetical machine, an instrument which, eight years later, he further improved and called the Pascaline. His correspondence with Fermat about this time shows that he was then turning his attention to analytical geometry and physics. He repeated Torricellis experiments, by which the pressure of the atmosphere could be estimated as a weight, and he confirmed his theory of the cause of barometrical variations by obtaining at the same instant readings at different altitudes on the hill of Puy-de-Dà ´me. The Pascaline The idea of using machines to solve mathematical problems can be traced at least as far back as the early  17th century. Mathematicians who designed and implemented calculators that were capable of addition, subtraction, multiplication, and division included Wilhelm Schickhard, Blaise Pascal, and Gottfried Leibniz. Pascal invented his numerical wheel calculator called the  Pascaline  to help his father, by then a French tax collector, count taxes. The Pascaline had eight movable dials that added up to eight figured long sums and used base ten. When the first dial (ones column) moved 10 notches, the second dial moved one notch to represent the tens column reading of 10. When the second dial moved 10 notches, the third dial (hundreds column) moved one notch to represent one hundred, and so on. Blaise Pascals Other Inventions Roulette Machine Blaise Pascal introduced a very primitive version of the roulette machine in the 17th century. The roulette was a by-product of Blaise Pascals attempts to invent  a  perpetual motion machine. Wrist Watch The first reported person to actually wear a  watch  on the wrist was Blaise Pascal. Using a piece of string, he attached his pocket watch to his wrist. Religious Studies In 1650 while he was in the midst of this  research, Blaise Pascal suddenly abandoned his favorite pursuits to study religion, or, as he says in his Pensà ©es, contemplate the greatness and the misery of man. At about the same time, he persuaded the younger of his two sisters to enter the Benedictine abbey of Port-Royal. In 1653, Blaise Pascal had to administer his fathers estate. He took up his old life again and conducted several experiments on the pressure exerted by gases and liquids. It was also about this period that he invented the arithmetical triangle, and together with Fermat he created the calculus of probabilities. He was meditating marriage when an accident again turned his thoughts to religious life. He was driving a four-in-hand carriage on November 23, 1654, when the horses ran away. The two leaders dashed over the parapet of the bridge at Neuilly, and Blaise Pascal was saved only by the traces breaking. Death Always somewhat of a mystic, Pascal considered this a special summons to abandon the world. He wrote an account of the accident on a small piece of parchment, which for the rest of his life he wore next to his heart to perpetually remind him of his covenant. He moved to Port-Royal shortly after, where he continued to live until his death in Paris on August 19, 1662. Constitutionally delicate, Pascal had injured his health by his incessant study; from the age of 17 or 18 he suffered from insomnia and acute dyspepsia, and at the time of his death he was physically worn out. He neither married nor had children, and at the end of his life he became an ascetic. Modern scholars have attributed his illness to a variety of possible ailments, including gastrointestinal tuberculosis, nephritis, rheumatoid arthritis, fibromyalgia, and/or irritable bowel syndrome. Legacy Blaise Pascals contribution to computing was recognized by computer scientist Nicklaus Wirth, who in 1972 named his new computer language Pascal (and insisted that it be spelled Pascal, not PASCAL). The Pascal (Pa) is a unit of atmospheric pressure named in honor of Blaise Pascal, whose experiments greatly increased knowledge of the atmosphere. A pascal is the force of one newton acting on a surface area of one square meter. It is the unit of pressure designated by the International System.100,000 Pa 1000 mb or 1 bar. Sources OConnell, Marvin Richard. Blaise Pascal: Reasons of the Heart.  Grand Rapids, Michigan: William B. Eerdmans Publishing Company, 1997.  OConnor, J. J. and E. F. Robertson. Blaise Pascal. School of Mathematics and Statistics, University of St Andrews, Scotland, 1996. WebPascal, Blaise. Pensà ©es. Trans. W.F. Trotter. 1958. Intro. T.S. Eliot. Mineola, NY: Dover, 2003. Print.Simpson, David. Blaise Pascal (1623–1662). Internet Encyclopedia of Philosophy, 2013. Web.  Wood, William.  Blaise Pascal on Duplicity, Sin, and the Fall: The Secret Instinct. Oxford: Oxford University Press, 2013.