File:97. Горење сулфур во азот субоксид.webm

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English: A small amount of elemental sulfur is placed in the combustion spoon. Sulfur is heated and ignited using a gas burner. At first, the sulfur melts, and then it catches fire and burns. The burning sulfur is fed into the combustion chamber. Compared to the burning of sulfur in air, it can be noticed that the burning in an atmosphere of N2O is more vigorous. The reason for this is that nitrogen(I) oxide has pronounced oxidizing properties. Air consists of 21% oxygen and 78% nitrogen. Nitrogen does not burn nor does it support burning, so even though there is oxygen in the air, its volume fraction does not allow a higher intensity of burning. Unlike in air, in an atmosphere of pure N2O, burning is more intense. During combustion, the reaction taking place can be described by the equation:
2N2O(g) + S(s) = SO2(g) + 2N2(g)

The sulfur dioxide that is a product of this reaction is water soluble and in the gas bubbler forms sulfurous acid that neutralizes the base. The excess acid lowers the pH value of the solution resulting in discoloration of the phenolphthalein solution:

SO2(g) + H2O(l) = H2SO3(aq)
The experiment was performed by Prof. PhD Miha Bukleski. The planning of the experiment also included the Prof. Emeritus PhD Vladimir Petruševski, Prof. PhD Marina Stojanovska and the student Mihail Trajkov, Department of Chemistry, FNSM, Ss. Cyril and Methodius University, Skopje, Macedonia.
Македонски: Во лажичката за согорување се става малку сулфур. Слуфурот се загрева на гасна греалка. На почетокот сулфурот се топи, a во следниот момент се пали. Така запалениот сулфур се внесува во комората за согорување и се следат промените. Во однос на горењето на сулфурот во атмосфера од воздух, се забележува дека интензитетот на пламенот во атмосфера од N2O е поголем. Причината за тоа е што азот(I) оксидот има оксидациони својства. Воздухот се состои од 21 % кислород и 78 % азот. Азотот не го поддржува горењето, па и покрај тоа што во воздухот има кислород, неговиот удел е мал за да се овозможи поголем интензитет на горење. За разлика од воздухот, во атмосфера на чист N2O, горењето е поинтензивно. При горењето се одвива реакцијата која може да се претстави со равенката:
2N2O(g) + S(s) = SO2(g) + 2N2(g)

Сулфур диоксидот кој е продукт при оваа реакција, се раствора во водата во микропромивалката образувајќи сулфуреста киселина, која ја неутрализира базата, а вишокот образувана киселина ја намалува рН вредноста на средината, како резултат на што се обезбојува растворот на фенолфталеинот:

SO2(g) + H2O(l) = H2SO3(aq)

Веројатно, дел од ЅО2 е само физички растворен во водата (слично како кај СО2).

Експериментот е изведен од проф. Миха Буклески. Во планирањето на опитот исто така биле вклучени пензионираниот проф. д-р Владимир Петрушевски, проф. д-р Марија Стојановска и студентот Михаил Трајков, Институт за хемија, ПМФ, УКИМ, Скопје, Македонија.
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Author Deni Ingilizovski


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