Organic Chemistry

Organic chemistry is the branch of chemistry that studies hydrocarbons and their derivatives. Forms of carbon compounds:

Shapes

Organic or carbon compounds, s, and p are involved in orbital hybridization. The result is three-way hybridization of Y which is sp3 (in alkanes) - Tetrahedral in form sp2 (in alkenes) - Planar structure SP (in alkenes) - Linear molecules

Functional group

Functional group: A functional group is an atom or a group of atoms joined in a particular way that determines the chemical properties of a compound. Examples are hydroxyl (—OH), aldehyde radical (HOCHO), an acid group (—COOH).

Homologous series

A homogeneous series also can be defined as a family of organic compounds that have an equal functional group, also as chemical properties, and thus differ from each other in formulas by formula CH2 units. Members of the homologous series are often represented by an equivalent general formula.

Organic Compounds Name

Common Name: Before the IUPAC system of names, organic compounds were named after the source, for instance, urea was named because it had been derived from the urine of mammals. The acid was named because it had been called pharmaceutics from red ants.

(i) Suffix:

There are two types of suffix, primary suffix, secondary suffix. (a) Initial suffix: It refers to the sequence between carbon atoms. Organic Chemistry for Class 11-Chemistry-4 Some Basic Principles and Techniques CBC Note (b) Secondary suffix: A secondary suffix is used to represent the active group.

(ii) Preposition:

A preposition may be a part of the name IUPAC which appears before the word root. Previous There are two types (a) Basic Section: For example, the primary pre-cycle work is performed to differentiate the compounds of the cycle. (b)Secondary antecedents: Some functional groups are considered as alternatives and are indicated by secondary antecedents.

Name of compounds consisting of functional groups:

The longest chain of carbon atoms in a functional group is arranged in such a way that a functional group is attached to carbon atoms with the smallest number in the chain. In the case of polyfunctional compounds, one of the functional groups is selected as the principal functional group hence this compound is known as its base. The selection of the principal functional the group is based on the order of priority.

Isomerism

When there are two or more compounds that have the same formula but different molecular formulas and different physical and chemical properties, this phenomenon is called an isomorphism. Such compounds are called isomers. There are two types. (1) Structural isomerism (2) The stereotype (1) Structural osmosis: Structural isomerism is represented by compounds that have an equal formula but differ from different structural formulas in the management of atoms. (2) Stereoisomerism: When ischemia is caused by different arrangements of atoms or groups in space, this phenomenon is called stereoisomerism. Stereoisomers have the same molecular formula but differ in the arrangement of atoms in space. Stereotypes come in two forms. (i) Geometric or Cis Trans Isomerism (ii) Optical isomerism Basic Concepts in Organic Reaction Mechanisms Issue of chemical bonds: A covalent bond can go through fashion in two ways: (i) By homolytic fission or homolysis (ii) By heterolytic fission or heterolysis

Organic chemistry types

Carbohydrates

Carbohydrates are organic compounds produced from climatic carbon, hydrogen, and oxygen. The ratio of hydrogen atoms to oxygen atoms in carbohydrate molecules is 2: 1. Biologists use carbohydrates for energy sources, structural units, and other purposes. Carbohydrates are the most important class of organic compounds found in organisms. Carbohydrates are sorted by what percentage they contain. Common carbohydrates are called sugars. One unit of sugar can be a monosaccharide. If two units are joined together, a discharge is formed. When these small units interact with each other to form polymers, they form more complex structures. Samples of these large carbohydrate compounds include starch and chain. Examples of carbohydrates:
  1. Glucose
  2. Fructose
  3. Sucrose (table sugar)
  4. Cellulose

Lipids

Lipids are made up of carbon, hydrogen, and oxygen atoms. Lipids found in carbohydrates contain better hydrogen than oxygen. The three major groups of lipids are triglycerides (fats, oils, waxes), steroids, and phospholipids. Triglycerides contain three fatty acids that were incorporated into glycerol molecules. Each of the steroids contains 4 carbon rings. Phospholides are similar to triglycerides except that the phosphate group is present in 1 of the carboxylic acid chains. Lipids are used for signal storage molecules to store energy, build structures and help cells communicate with each other. Lipid examples:
  1. Cholesterol
  2. Paraffin
  3. Olive Oil
  4. Margarine
  5. Cortisol

Proteins

Proteins contain chains of amino acids called peptides. A protein can also, be made from a polypeptide chain or it can have a more complex structure where the polypeptide exerts sub the pressure to form a unit. Proteins contain atoms of hydrogen, oxygen, carbon, and nitrogen. Some proteins contain other atoms, such as sulfur, phosphorus, iron, copper, or magnesium. Proteins do many things in cells. They will not help in the construction of structures, biochemical reactions, immune reactions, package and transport materials, and replication of genetic material. Examples of proteins:
  1. Collagen
  2. Keratin
  3. Album
  4. Hemoglobin

Nucleic acid

A macromolecule can be a type of biological polymer made up of chains of nucleotide monomers. Nucleotides, in turn, are formed from nitrogenous bases, sugar molecules and phosphate groups. Cells use nucleic acids to encode genetic information. Examples of nucleic acids:
  1. DNA
  2. RNA