Write the reaction of sodium with air and water
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Answer:
Reaction with air, water, and hydrogen:
Sodium is ordinarily quite reactive with air, and the reactivity is a function of the relative humidity, or water-vapour content of the air. The corrosion of solid sodium by oxygen also is accelerated by the presence of small amounts of impurities in the sodium. In ordinary air, sodium metal reacts to form a sodium hydroxide film, which can rapidly absorb carbon dioxide from the air, forming sodium bicarbonate. Sodium does not react with nitrogen, so sodium is usually kept immersed in a nitrogen atmosphere (or in inert liquids such as kerosene or naphtha). It is significantly more reactive in air as a liquid than as a solid, and the liquid can ignite at about 125 °C (257 °F). In a comparatively dry atmosphere, sodium burns quietly, giving off a dense white caustic smoke, which can cause choking and coughing. The temperature of burning sodium increases rapidly to more than 800 °C (1,500 °F), and under these conditions the fire is extremely difficult to extinguish. Special dry-powder fire extinguishers are required, since sodium reacts with carbon dioxide, a common propellant in regular fire extinguishers.
Sodium monoxide (Na2O) is ordinarily formed upon oxidation of sodium in dry air. The superoxide (NaO2) can be prepared by heating metallic sodium to 300 °C (570 °F) in an autoclave (a heated pressure vessel) containing oxygen at high pressure. Another route to the superoxide is oxidation of sodium peroxide, Na2O2, treated to have a large surface area.
Sodium that is heavily contaminated with the monoxide may be readily purified by filtration, since the solubility of the oxide in molten sodium is low. This low solubility is utilized to a considerable extent in continuous purification processes of the sodium in large liquid-metal reactor systems. A second technique for removing the oxide, called cold trapping, involves running the molten sodium through a cooled packed bed of material, upon which the oxide can precipitate. Filtration and cold trapping also are effective in removal of gross quantities of carbonate, hydroxide, and hydride.
The reaction with water of liquid sodium having a high surface area can be explosive. The sodium-water reaction is highly exothermic (that is, heat is given off):
Chemical reaction.
Na+H2O------>NaOH+1/2H2+33.67 Kilocalories per mole at 25° C.
Tests have indicated, however, that sodium and water cannot be mixed fast enough to produce the shock waves characteristic of high explosives. The explosive hazards of the reaction are associated primarily with the hydrogen gas that is formed.
Pure sodium begins to absorb hydrogen appreciably at about 100 °C (212 °F); the rate of absorption increases with temperature. Pure sodium hydride can be formed at temperatures above 350 °C (660 °F) by exposing sodium to hydrogen gas at a high flow rate. At higher temperatures the dissociation of sodium hydride to produce hydrogen and molten sodium is considerably greater than that of lithium hydride but slightly less than that of potassium hydride.
Explanation:
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Answer:
Reaction with air, water, and hydrogen
In ordinary air, sodium metal reacts to form a sodium hydroxide film, which can rapidly absorb carbon dioxide from the air, forming sodium bicarbonate. ... It is significantly more reactive in air as a liquid than as a solid, and the liquid can ignite at about 125 °C (257 °F).
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Sodium metal reacts rapidly with water to form a colourless basic solution of sodium hydroxide (NaOH) and hydrogen gas (H2). The reaction continues even when the solution becomes basic. The resulting solution is basic because of the dissolved hydroxide. The reaction is exothermic.