Basic Concepts of Organic Chemistry
Basic techniques to extract and purify Organic Compounds.
What you will learn
The students will get a wide picture of Organic Compounds.
The students will learn about the compounds found naturally in environment like sugar starch etc.
The students will have a deep knowledge about the extraction processes of Organic Compounds.
The students will know about the importance of Organic Compounds like Urea and Sugar.
Why take this course?
Organic compounds appear in materials like clothing, fuels, polymers dyes and medicines. F. Wohler synthesised an organic compound, urea from an inorganic compound, ammonium cyanate.
The three-dimensional (3-D) structure of organic molecules can be represented on paper by using certain conventions. For example, by using solid and dashed wedge formula, the 3-D image of a molecule from a two-dimensional picture can be perceived. In these formulas the solid-wedge is used to indicate a bond projecting out of the plane of paper, towards the observer. The dashed-wedge is used to depict the bond projecting out of the plane of the paper and away from the observer. Wedges are shown in such a way that the broad end of the wedge is towards the observer. The bonds lying in plane of the paper are depicted by using a normal line (—). 3-D representation of methane molecule on paper.
The elements present in organic compounds are carbon and hydrogen. In addition to these, they may also contain oxygen, nitrogen, sulphur, halogens and phosphorus. The sodium fusion extract is boiled with iron(II) sulphate and then acidified with concentrated sulphuric acid. The formation of Prussian blue colour confirms the presence of nitrogen. Sodium cyanide first reacts with iron(II) sulphate and forms sodium hexacyanoferrate(II). On heating with concentrated sulphuric acid some iron(II) ions are oxidised to iron(III) ions which react with sodium hexacyanoferrate(II) to produce iron(III) hexacyanoferrate(II) (ferriferrocyanide) which is Prussian blue in colour.