Writing a Term Paper


Writing a Term Paper

Writing a term paper, you should pay special attention to the format.  While it is a well-known rule that your term paper has to have at least an introduction, body, and paragraph, not every student thinks about inner formatting such as length of paragraphs and flow of ideas.  In particular, one page should contain minimum 250 words, three paragraphs on average, and 7 sentences in each paragraph. provides three types of term paper writing services:  1) free paper samples; 2) free paper writing guide; and 3) custom term paper writing help.  Essay help if your change to get a professionally written paper deadline!

Writing a Term Paper on Free Sample

One of the suggestions for using nuclear energy to produce fresh water is to explode an H-bomb far underground. This would produce the equivalent heat of burning between five and ten million tons of coal, and could be used to operate a distillation plant. The nuclear-bomb technique has also been seriously suggested for an ocean-based fresh-water plant. In this technique, a bomb would be exploded beneath the sea floor to create a huge cavern lined with molten salt. Heat from this cavern would distill sea water fed by gravity to the cavern. Again, there is the big question mark about radioactivity. Late in 1965, scientists of the Geological Survey Water Resources Division suggested the use of nuclear explosions for creating "king-sized" inland wells in the form of underground rubble-filled "chimneys." These wells would receive water from surrounding rocks as much as one-hundred times faster than conventionally drilled wells.

A one-kiloton nuclear explosion 400 feet or more below the surface of the earth would blast out a well about 90 feet in diameter and 270 feet high, the Geological Survey study reports. This would store about three million gallons of water. On a larger scale, a 100-kiloton blast set off about 2000 feet beneath the surface would create a storage area of 30 million gallons, with an inflow from surrounding aquifers five hundred times as fast as in a drilled well. Such large nuclear-dug wells would depend, of course, on precise knowledge of the structure of the underground area and on observance of safety measures to guard against the danger of radioactivity.

There are many problems involved in nuclear desalting of water, of course, or desalting by any artificial means. It has been estimated that all the electric power available by 1980 would furnish only enough to desalinate 38 percent of the amount of fresh water needed by the world. Another problem is what to do with the brine left over. One scientist envisions the coast of Southern California surrounded by a "thick algal soup" as warm brine stimulates the growth of marine vegetation in the area. More serious, perhaps, is the matter of radioactive contamination. Like brine, this waste must be disposed of. Unlike brine, it is an immediate and deadly hazard to health and even to life itself. It has been estimated that a 100-watt light bulb powered by nuclear electricity would require the use of 5500 acre-feet of water per year safely to dissipate the radioactive waste generated in providing that little power!