Portal:Energy
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Energy is most often used in the context of energy resources, their development, consumption, depletion, and conservation. Since economic activities such as manufacturing and transportation can be energy intensive, energy efficiency, energy dependence, energy security and price are key concerns. Increased awareness of the effects of global warming has led to international debate and action for the reduction of greenhouse gases emissions. In the context of natural science, energy can take several different forms: thermal, chemical, electrical, radiant, nuclear, etc. These are often grouped as being either kinetic energy or potential energy. Many of these forms can be readily transformed into another with the help of a device; from chemical energy to electrical energy using a battery, for example. Most of our available energy comes from the sun. The enormous potential for energy is expressed by the famous equation E = mc2. The concepts of energy and its transformations are useful in explaining natural processes. Meteorological phenomena like wind, rain, lightning and tornadoes all result from energy transformations brought about by solar energy on the planet. Life itself is critically dependent on biological energy transformations; organic chemical bonds are constantly broken and made to make the exchange and transformation of energy possible. Read more...  Due to the accumulation of evidence, the report goes further than previous reports by stating that 'warming of the climate system is unequivocal'. It goes on to say that 'most of the observed increase in globally averaged temperatures since the mid-20th century is 'very likely' due to the observed increase in anthropogenic greenhouse gas concentrations'. Fossil fuel use is given as the primary source of the increase in atmospheric carbon dioxide, with the increase in methane being very likely caused by a combination of agricultural practices and fossil fuel use. Based on an analysis of computer climate models, the report states that average surface temperatures will rise during this century, most likely between 1.1 to 4.3°C (5.2 to 11.5 °F), depending on the mitigation actions taken. Excluding the effects of ice sheet flow, they also predict a sea level rise of 18 to 26 cm (7 to 23 inches), more heat waves and more heavy rain. An increase in areas affected by droughts, in the intensity of tropical cyclones and in extreme high tides is also likely. The IPCC believe that stabilization of greenhouse gas concentrations is possible at a reasonable cost, with stabilization between 445 and 535 ppm costing less than 3% of global GDP. They do warn, however, that a 'large shift in the pattern of investment' is required. Read more...  Photo credit: Johnson Space Center/NASA 
 In recognition of Watt's achievements, the SI unit of power, the watt, is named after him. James Watt was born on 19th of January, 1736 in Greenock, a seaport on the Firth of Clyde. His father was a shipwright, shipowner and contractor, while his mother, Agnes Muirhead, came from a distinguished family and was well-educated. Both were Presbyterians and strong Covenanters. Watt attended school irregularly and instead was mostly schooled at home by his mother. After studying instrument-making for a year in London, the University of Glasgow offered him the opportunity to set up a small workshop within the university. It was established in 1757. After four years, Watt began to experiment with steam, finally producing a working model steam engine in 1765. Strapped for resources to develop a full-scale engine, Watt was forced to take up employment as a surveyor for eight years. Finally, in 1776, the first engines were installed and working in commercial enterprises. After further improvements, Watt and foundry owner Matthew Boulton established Boulton and Watt in 1794 to exclusively manufacture steam engines. By 1824 it had produced 1,164 steam engines having a total nominal horsepower of about 26,000. Read more...
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