Why having a large vocabulary is good Essay Example | Topics and Well Written Essays - 250 words

Why having a large vocabulary is good - Essay Example A bewildering vocabulary entraps aghast and paranoid occupants of the society and provides them with a most comfortable place to live. The elegant and charismatic words, help in evading disputes. Proper use of vocabulary helps people in integrating their dispersed thoughts in an efficient way. Moreover, to properly utilize the liberty of thoughts and expression a person needs to have a large vocabulary. Having a large vocabulary stops people from lament over the lack of words to explain their thoughts. An efficient use of vocabulary ensembles the ideas and produces a long-lasting effect on people. Hence, the beauty of words is the most powerful weapon against the prejudices, disputes, arguments and literary wars that exist today. Having a large vocabulary for the cause of sharing ideas, sympathizing people, literary expressionism and a tool to fight against the vices of society is a great success of an individual. Hence, large vocabulary not only helps in good academic outcomes but a lso affect the social order and perceptions of people if used

The History of Nuclear Power Research Paper Example | Topics and Well Written Essays - 2500 words

The History of Nuclear Power - Research Paper Example As a general rule, most of these crucial factors actually denote natural phenomena, whether discovered by sheer chance or due to meticulous research, possessing enormous potential for both destruction and creation; while others appear a genuinely human invention. Notwithstanding their origin, however, the way these factors have been mastered and harnessed to humanity’s advantage reflects the very human nature to test, to observe, and to dream (US Department of Energy/US DOE/, n.d.). Having played their crucial part in the development of Egypt’s ancient societies – the Old, Middle and New Kingdoms – the Nile River annual floods could be considered, beyond any doubt, one of the above-mentioned core phenomena; while the institution of slavery in ancient Rome brought about that little-known settlement on the River Tiber to be transformed into the hub of the then world. Without the driving force of spice trade in medieval times, there might have not come about the Age of Discovery, and neither would the Industrial Revolution without the steam engine. In turn, the commercial drilling for petroleum, which had started at some point in the mid-nineteenth century, not only drove the world into the modernity, but also became the mainspring of present-day geopolitics of the world. The late 1890s, however, witnessed the discovery of a natural phenomenon, which have been given the name ‘radioactivity’ by Marie and Pierre Curie, and later defined by Ernest Rutherford as a spontaneous event emitting alpha or beta particles from the atomic nuclei, and creating a different element (World Nuclear Association /WNA/, 2010). The consequent exploration of this phenomenon had involved many scientists from different countries across the world – from Niels Bohr, Frederick Soddy, James Chadwick, and Enrico Fermi, to Otto Frisch, etc. – and produced major breakthroughs, including the discovery of radionuclides and neutron, as well as the experimental conformation of Albert Einstein’s concept of mass-energy equivalence (WNA, 2010). Exploration of the Atom The idea that invisible particles constitute all matter in the universe is being first developed by ancient Greek philosophers (US DOE, n.d.). The name of those particles – atoms – comes from one of the meanings of the Greek word (atomos), or indivisible (US DOE, n.d.; Liddell and Scott, 1940). This idea reigned supreme at least until the late eighteenth century, but it was not earlier than the late nineteenth and early twentieth centuries when the concept had been revised by scientific experiments (US DOE, n.d.). Following the discovery of Uranium in 1789 by the German chemist Martin Klaproth, who named it after the recently discovered planet Uranus (Herschel and Hoskin, 2003; WNA, 2010), there was a gap of nearly 100 years during which nothing in this field of science was to get excited about. In November 1895, Professor Wilhelm Conrad Ro ntgen of the Wurzburg University had unintentionally produced â€Å"a hitherto unknown form of radiant energy that was invisible, could cause fluorescence, and passed through objects opaque to light†, which he named x-rays (Novelline, 2004); six years later Wilhelm Rontgen was awarded the first Nobel Prize in physics for the discovery of ionizing