Free Huckleberry Finn Essays - Inappropriate for Children :: Adventures Huckleberry Huck Finn Essays

The Adventures of Huckleberry Finn - Inappropriate for Children The Adventures of Huckleberry Finn by Mark Twain is, not and should not, be considered a child's story. A story like this may corrupt a young child's mind. It deals with adult themes and concepts that are generally not suitable for young children. Als o, if used as a child's story it may confuse them or give them the wrong idea about slavery and the terminology of the time. First of all, The Adventures of Huckleberry Finn is extremely inappropriate for children because it may put bad ideas into a young impressionable mind. At the young age of about twelve, Huck is roaming around the woods all by himself and later on is flo ating aimlessly down the Mississippi River with a bunch of criminals. Huck is living what may appear to the children to be a very exciting and glamorous life. Most parents would never steer their children the wrong way in life, don't want to tell childr en about a kid around their age or little older than they are that is homeless and basically cheating and stealing to survive. This novel explains in depth about various scams such as the Wilks brothers scam, and the teaching schools like the dancing sch ool or "yellow cution". In addition to the royal nonesuch plays which teach children that all you need to do is take the money and run like the King and the Duke did. After reading this novel the majority of children won't go out and try to scam their n eighbors. However, it may seem like an appealing lifestyle for them. It may also give them the impression that being a con man for a living, or being homeless and wandering is a wonderful and glorious carefree lifestyle, and because your Mommy or Daddy tells it to you, it must not be the wrong thing to do. In addition to giving the wrong idea about life, it is a brutal and vulgar book that children should not be exposed to. There are a couple of deaths like when Colonel Sherburn kills a harmless town drunk named Boggs. Earlier on Huck is staying with a the Grangerford family that is in the middle of a feud with the Shepherdson family.

Why Was Vindolanda Built?

Vindolanda Vindolanda was one of a series of Roman forts built in northern England (Northumberland) in the last quarter of the 1st Century AD. It became an auxiliary fort which also had a substantial element of civilian accommodation. The forts stretched from east to west, and are considered to have been a consolidation of the frontier of the Roman Empire. The Romans invaded southern Britain in AD43, and slowly moved north. At one point, they had hoped to conquer all of Britain, but never succeeded. Roman armies had advanced far into Scotland in the 70s AD.But either by choice or necessity, they abandoned these gains and formed a frontier stretching roughly from modern Newcastle in the east to modern Carlisle in the west. The forts, together with the east-west road now known as the Stanegate connecting them, formed this frontier for 40 years. Then Hadrian's Wall was built just to the north, and the Stanegate forts either went out of use or changed their purpose. Vindolanda remained i n use, though the ultimate purpose of its garrison (whether support for the Wall forts or protection in an unruly hinterland) isn't fully understood.Vindolanda is permanently under investigation by archaeologists and it is estimated that there is sufficient work, for them for the next 150 years to complete the sites excavation. This Roman Auxiliary Fort guarded the Stanegate Road, which ran from the River Tyne, this would also have made it important in providing supplies to wall forts, maintaining a safe supply chain, as well as reinforcements either way if needed. Other smaller forts and matching camps would have been every days march, about 13 miles along the road. Roman soldiers needed to march from one part of the country to another quickly.So the Romans built roads. Roman roads were made from stones, and were better than muddy tracks for travel on foot or in carts. So they made travelling around Britain easier for everyone. You can still see the remains of some Roman roads toda y. All the roads they built were remarkably straight. The Romans knew that the shortest distance from one place to another is a straight line, but their roads did zigzag sometimes, to make going uphill easier. The road sloped from the middle to ditches either side, so rain water drained off.Romans made these roads were wide enough for two armies to go past without having to stop and to waste time. The Stanegate was the road closest to the fort Vindolanda. The Romans would always build a fort near a road, which made it easier for transport. The road was very useful; it was used for trading with the other tribes. In 54 BC Caesar had captured a hill-fort. Then, again, he went away. He did not think Britain was worth a long war, and he wanted to get back to Rome. Nearly a hundred years later, in AD 43, the Romans returned. Claudius sent an army to invade Britain. The army had four legions.This time the Romans conquered the southern half of Britain, and made it part of the Roman Empire. One of the main reasons why the Roman’s wanted to invade was the Britain’s wealth and the goods they owned and  he wanted to make Britain part of Rome's  empire. The Picts and Brigantes are two of the oldest pre-roman inhabitants of Great Britain. Both inhabited and battled the Romans and each other for the lands of Northern England and Scotland. The picts were really rich and Romans wanted to take an advantage and take over. They invaded the south of Britain and they used the picts to trade with the Brigantes.The picts were the people from Caledonia (modern day Scotland). Some picts made friends with the Romans in return for keeping their land. The picts agreed to obey the Roman laws, pat the Roman taxes and to behave. The tribe agreed to give their land to the Romans unlike the Brigantes. Another tribe apart from the picts were the Brigantes which were a divided group from the Northern England. Most of these would not like each other due to any reason and had hat red against the Romans. The Brigantes fought, and eventually the Romans fell back to the more defensible Hadrian's Wall.When the Roman Emperor Hadrian visited Britain in 122 AD he recognised the difficulties in establishing control in Caledonia and saw that it would be impossible to introduce the Picts to the Roman way of life. The Emperor therefore ordered the construction of a great defensive wall which would mark the northern limits of his empire and consolidate the hold on those parts of Britain already subdued. Hadrian's empire would not include Caledonia. The Romans also had to defend Hadrian's Wall, against attacks by Picts and other tribes these people lived in northern Britain, outside the Roman part.Soldiers sent to defend the wall lived in forts and camps. Vindolanda was a very well planned fort that was constructed on a flat hill at Northumberland at approximately 122AD. The fort itself was a playing-card shape which allowed the soldiers to see round the corner. The main site is on the top of a hill with much able to be viewed, plus a full size reproduction of a section of wall. It was one of the most important forts in Northern England, because it was continuously getting repaired and rebuilt. Vindolanda was built first in timber and earth; it was later built in stone.Archaeologists believe that there are the remains of ten forts in all. Buildings found so far include the fort walls, bath houses, granaries, officers, accommodation, barracks, a temple, and civilian housing, all served by paved roads. The fort had a hypocaust system visible under the stone floor to allow flow of air to keep food or metal items dry, preventing rotting or rust. The fort has four gateways north, east, south, west. The main part of the fort was the head quarters building which was always located at the centre of the fort.The building would always contain a well, and a strong room which would contain the valuables of the Roman soldiers. This was very important to a soldi er and if they lost anything this meant that they’d lost their ago. The headquarters would also contain the weapons and equipment they would need. The mansio was an accommodation place for travellers from other armies, tribes and also for traders. The bathhouses were always outside the forts because they were a fire risk and it also made it easier for the civilians to use the bath as well as the soldiers.Another reason of the construction of Vindolanda was the geographical location, it was based on a flat hill which makes it very hard to attack and very easy to defend, because it is on a steep hill which makes the Romans see very easily over miles. The Romans used a very basic way to communicate during battles. They used a flag system which based a soldier miles away on a mountain and used green for safety and red for attack. This was very useful; the Romans were pre-warned if they were being attacked.The remains of a large roman bath house are south of the fort, and next to the fort is the remains of a civilian settlement (or vicus). A civilian settlement was next to the fort and these continued to be in use until the end of the Roman period around 410AD. The settlement was used for retired soldiers; local traders, smiths, tavern keepers, etc. liked both the protection and trade a fort could offer. Much of the civilian settlement has still not been uncovered, but its existence is apparent due to the unevenness and irregularity of the bumps and ridges in the ground.There was also the Tyne River by the fort which supplied the soldiers in the fort with clean water to use. They would throw the sewage out into the river. Vindolanda was one of the many forts in England, and it is the most common for wooden tablets discoveries. The tablets provide the best insight into life in the Roman army found anywhere in the world. There is a list of how many troops were present, the commanding officer’s cook’s diary, listing who he had to dinner and what t hey ate, and even a birthday greeting, with the commanders wife inviting the wife of another commander to her birthday party.

Biography of Joseph Louis Lagrange, Mathematician

Joseph Louis Lagrange (1736–1813) is considered to be one of the greatest mathematicians in history. Born in Italy, he made his home in France before, during, and after the French Revolution. His most important contributions to modern mathematics related to number theory and celestial mechanics, and analytic mechanics; his 1788 book Analytic Mechanics is the foundation for all later work in the field. Fast Facts: Joseph-Louis Lagrange Known For: Major contributions to mathematicsAlso Known As: Giuseppe Lodovico LagrangiaBorn: January 25, 1736 in Turin,  Piedmont-Sardinia (present-day Italy)Parents: Giuseppe Francesco Lodovico Lagrangia, Maria Teresa GrossoDied: April 10, 1813 in Paris,  FranceEducation: University of TurinPublished Works:  Letter to Giulio Carlo da Fagnano, Analytical Mechanics, Miscellany of Philosophy and Mathematics, Mà ©langes de Philosophie et de Mathà ©matique, Essai sur le Problà ¨me des Trois CorpsAwards and Honors:  Member of the Berlin Academy, Fellow of the  Royal Society of Edinburgh, foreign member of the  Royal Swedish Academy of Sciences, Grand Officer of Napoleons  Legion of Honour  and a  Count of the Empire, Grand Croix of the  Ordre Impà ©rial de la Rà ©union, 1764 prize of the  French Academy of Sciences  for his memoir on the  libration  of the Moon, commemorated on a plaque in the  Eiffel Tower, namesake for the  lunar crater  LagrangeSp ouse(s): Vittoria Conti, Renà ©e-Franà §oise-Adà ©laà ¯de Le MonnierNotable Quote: I will deduce the complete mechanics of solid and fluid bodies using the principle of least action. Early Life Joseph Louis Lagrange was born in Turin, the capital of the kingdom of Piedmont-Sardinia, to a well-to-do family on January 25, 1736. His father was treasurer of the Office of Public Works and Fortifications in Turin, but he lost his fortune as a result of bad investments. Young Joseph was intended to be a lawyer and attended the University of Turin with that goal; it wasnt until the age of 17 that he became interested in mathematics. His interest was piqued by a paper he came across by the astronomer Edmond Halley, and, entirely on his own, Lagrange dove into mathematics. In just a year, his course of self-study was so successful that he was appointed to be an assistant professor of mathematics at the Royal Military Academy. There, he taught courses in calculus and mechanics until it became clear that he was a poor educator (though a highly talented theorist). At the age of 19, Lagrange wrote to Leonhard Euler, the worlds greatest mathematician, describing his new ideas for calculus. Euler was so impressed that he recommended Lagrange for membership in the Berlin Academy at the extraordinarily young age of 20. Euler and Lagrange continued their correspondence and, as a result, the two collaborated on developing the calculus of variations. Before leaving Turin, Lagrange and friends founded the Turin Private Society, an organization intended to support pure research. The Society soon began publishing its own journal and, in 1783, it became the Turin Royal Academy of Sciences. During his time at the Society, Lagrange began applying his new ideas to several areas of mathematics: The theory of sound propagation.The theory and notation of the calculus of variations, solutions to dynamics problems, and deduction of the principle of least action.Solutions to dynamics problems such as the motion of three bodies mutually attracted by gravity. Work in Berlin Leaving Turin in 1766, Lagrange went to Berlin to fill a position recently vacated by Euler. The invitation came from Frederick the Great, who believed Lagrange to be the greatest mathematician in Europe. Lagrange spent 20 years living and working in Berlin. Though his health was sometimes precarious, he was extremely prolific. During this time he developed new theories about the three-body problem in astronomy, differential equations, probability, mechanics, and the stability of the solar system. His groundbreaking 1770 publication, Reflections on the Algebraic Resolution of Equations† launched a new branch of algebra. Work in Paris When his wife passed away and his patron Frederick the Great died, Lagrange accepted an invitation to Paris extended by Louis XVI. The invitation included luxurious rooms at the Louvre as well as every type of financial and professional support. Depressed because of his wifes death, he soon found himself married again to a much younger woman who found the gentle mathematician fascinating. While in Paris, LaGrange published Analytical Mechanics, an astonishing treatise and a still-classic mathematics text, which synthesized 100 years of research in mechanics since Newton, and led to the Lagrangian equations, which detailed and defined the differences between kinetic and potential energies. Lagrange was in Paris when the French Revolution began in 1789. Four years later, he became the head of the revolutionary weights and measures commission and helped establish the metric system. While Lagrange continued as a successful mathematician, the chemist Lavoisier (who had worked on the same commission) was guillotined. As the revolution came to a close, Lagrange became a professor of mathematics at the École Centrale des Travaux Publics (later renamed the  Ãƒâ€°cole Polytechnique), where he continued his theoretical work on calculus. When Napoleon came into power, he, too honored Lagrange. Before his death, the mathematician became a senator and count of the empire. Contributions Most Significant Contributions and Publications Lagranges most important publication was The Mà ©canique Analytique, his monumental work in pure math.His most prominent influence was his contribution to the metric system and his addition of a decimal base, which is in place largely due to his plan. Some refer to Lagrange as the founder of the Metric System.Lagrange is also known for doing a great deal of work on planetary motion. He was responsible for developing the groundwork for an alternate method of writing Newtons Equations of Motion, referred to as Lagrangian Mechanics. In 1772, he described the Lagrangian points, the points in the plane of two objects in orbit around their common center of gravity at which the combined gravitational forces are zero and where a third particle of negligible mass can remain at rest. This is why Lagrange is referred to as an astronomer/mathematician.The Lagrangian Polynomial is the easiest way to find a curve through points. Death Lagrange died in Paris in 1813 during the process of revising Analytical Mechanics. He was buried in the Panthà ©on in Paris.   Legacy Lagrange left behind an incredible array of mathematical tools, discoveries, and ideas which have had a profound impact on modern theoretical and applied calculus, algebra, mechanics, physics, and astronomy. Sources . Joseph Louis Lagrange | A Short Account of the History of MathematicsUniversity of South Florida.Joseph-Louis Lagrange. Famous Scientists.Joseph-Louis Lagrange. Stetson.edu.Struik, Dirk Jan. â€Å"Joseph-Louis Lagrange, Comte De LEmpire.†Ã‚  Encyclopà ¦dia Britannica, 18 Apr. 2019.