Kids Research Express

. Nucleic Acids, extremely complex molecules produced by living cells and viruses. Their name comes from their initial isolation from the nuclei of living cells. Certain nucleic acids, however, are found not in the cell nucleus but in cell cytoplasm. Nucleic acids have at least two functions: to pass on hereditary characteristics from one generation to the next, and to trigger the manufacture of specific proteins. How nucleic acids accomplish these functions is the object of some of the most intense and promising research currently under way. The nucleic acids are the fundamental substances of living things, believed by researchers to have first been formed about 3 billion years ago, when the most elementary forms of life began on earth. The origin of the so-called genetic code they carry has been accepted by researchers as being very close in time to the origin of life itself (see Evolution ; Genetics ). Biochemists have succeeded in deciphering the code, that is, determining how the

. Silicon, symbol Si, semimetallic element that is the second most common element on earth, after oxygen . The atomic number of silicon is 14. Silicon is in group 14 (or IVa) of the periodic table . It was first isolated from its compounds in 1823 by the Swedish chemist Baron Jöns Jakob Berzelius . PROPERTIES AND OCCURRENCE Silicon is prepared as a brown amorphous powder or as gray-black crystals. It is obtained by heating silica, or silicon dioxide (SiO2), with a reducing agent, such as carbon or magnesium, in an electric furnace. Crystalline silicon has a hardness of 7, compared to 5 to 7 for glass. Silicon melts at about 1410° C (about 2570° F), boils at about 2355° C (about 4271° F), and has a specific gravity of 2.33. The atomic weight of silicon is 28.086. Silicon is not attacked by nitric, hydrochloric, or sulfuric acids, but it dissolves in hydrofluoric acid, forming the gas, silicon tetrafluoride. It dissolves in sodium hydroxide, forming sodium silicate and hydrogen gas. At o

. Silicon is used in the steel industry as a constituent of silicon-steel alloys . In steelmaking, molten steel is deoxidized by the addition of small amounts of silicon; ordinary steel contains less than 0.03 percent of silicon. Silicon steel, which contains from 2.5 to 4 percent silicon, is used in making the cores of electrical transformers because the alloy exhibits low hysteresis (see Magnetism ). A steel alloy, known as duriron, containing about 15 percent silicon, is hard, brittle, and resistant to corrosion; duriron is used in industrial equipment that comes in contact with corrosive chemicals. Silicon is also used as an alloy in copper, brass, and bronze. Silicon is a semiconductor , in which the resistivity to the flow of electricity at room temperature is in the range between that of metals and that of insulators. The conductivity of silicon can be controlled by adding small amounts of impurities, called dopants. The ability to control the electrical properties of silicon, a

. Sodium, symbol Na, highly reactive, silvery-white, extremely soft metallic element. In group 1 (or Ia) of the periodic table , sodium is one of the alkali metals . The atomic number of sodium is 11. It was discovered in 1807 by the British chemist Sir Humphry Davy . PROPERTIES AND OCCURRENCE Elemental sodium is metal that is soft enough to be cut with a knife. It has a hardness of 0.4. It oxidizes immediately on exposure to air and reacts violently with water, forming sodium hydroxide and hydrogen . Sodium melts at about 98° C (208° F), boils at about 883° C (about 1621° F), and has a specific gravity of 0.97. The atomic weight of sodium is 22.99. Sodium is found in nature only in the combined state. It occurs in the ocean and in salt lakes as sodium chloride, NaCl, and less often as sodium carbonate and sodium sulfate. Sodium is prepared commercially by the electrolytic decomposition of fused sodium chloride. Sodium ranks seventh in order of abundance of the elements in the earth&#

. Alkali Metals, series of six chemical elements in group 1 (or Ia) of the periodic table . They are soft compared to other metals , have low melting points, and are so reactive that they are never found in nature uncombined with other elements. They are powerful reducing agents, that is, they give up an electron easily, and react violently with water to form hydrogen gas and hydroxides, or strong bases. The alkali metals are, in order of increasing atomic number, lithium , sodium , potassium , rubidium , cesium , and francium . Francium exists only in a radioactive form.

. Strontium, symbol Sr, chemically reactive, malleable, ductile metallic element. In group 2 (or IIa) of the periodic table , strontium is one of the alkaline earth metals . The atomic number of strontium is 38. Metallic strontium was first isolated by the British chemist Sir Humphry Davy in 1808; the oxide had been known as early as 1790. Strontium has a silvery color when freshly cut. It oxidizes readily upon exposure to air, and reacts with water to produce strontium hydroxide and hydrogen gas. Like the other alkaline earth metals, it is prepared by transforming the carbonate or sulfate into the chloride, which, upon electrolysis, yields the metal. Strontium melts at about 769° C (about 1416° F), boils at about 1384° C (about 2523° F), and has a specific gravity of 2.6. The atomic weight of strontium is 87.62. Strontium is never found in the elemental state, occurring chiefly as strontianite and celestite. Strontium ranks about 15th among the elements in natural abundance in the ea

. Sugar Metabolism, process by which the body uses sugar for energy. Carbohydrates, one of the three principal constituents of food, form the bulk of the average human diet. The end product of the digestion and assimilation of all forms of carbohydrate is a simple sugar, glucose , commonly called grape sugar when found in food, or blood sugar when found in the human body. The metabolism of fats and of certain protein substances also sometimes leads to the production of glucose. Glucose is the principal fuel that the muscles and other portions of the body consume to produce energy. It is present in every cell and almost every fluid of the body, and its concentration and distribution are among the most important processes in human physiology. A few other sugars are of comparatively minor importance in human physiology, notably lactose, or milk sugar, which is formed in the mammary glands of all lactating animals and is present in their milk. See Metabolism ; Sugar .