Write the structure of different isomeric alkanes corresponding to the molecular formula `C_(6)H_(14)`. Also give their `IUPAC` names.
Strategy: Start with the longest contionous chain with no branching and go on increasing the number of branching by removing one, two, etc, `C` atoms from the longest chain and reattaching them, but do not attach them to the terminal `C` atoms.

Write structure of different chain isomers of alkanes corresponding to the molecular formula C_(6)H_(14) Also write IUPAC names.

Write structures of different isomers corresponding to the molecular formula, C_(3)H_(9)N. Write IUPAC names of the isomers which will liberate nitrogen gas on treatment with nitrous acid.

(i) Write structures of different isomeric amines corresponding to the molecular formula, C_(4)H_(11)N. ii) Write IUPAC names of all the isomers. (iii) What type of isomerism is exhibited by different pairs of amines?

Write the structural formula and IUPAC names of all isomeric amines with molecular formula C_3 H_9 N . Which out of these will give carbylamine reaction ?

An aldehyde as well as a ketone can be represented by the same molecular formula, say C_(3)H_(6)O . Write their structures and name them. State the relation between the two in the Language of science.

Work out all possible structural isomeric alkenes corresponding to C_(5)H_(10) and also give their IUPAC names. Strategy: Alkene isomers are deduced by writing the different C skeletons and then introducing the double bond at different locations. The possible skeletons are C-C-underset((I))C-C-C,C-underset((II))underset(C)underset(|)C-C-C,C-underset((III))underset(C )underset(|)overset(C )overset(|)C-C

An organic compound A of molecular formula C_2H_6O on oxidation with alkaline KMnO_4 gives a compound B with the same number of carbon atoms as in the molecule of A. Compound A is often used for sterilization of skin by doctors. Name the compounds A and B. Write the chemical equation involved in the formation of B from A.

When boromobenze is monochlorinated. Two isomeric compounds (A) and (B) are obtained. Monobromination of (A) gives several isomeric products of molecular formula C_(6) H_(3)ClBr_(2) . While mononbromination of (B) yields only two isomers (C) and (D) . Compound (C) is identiacla to one of the compounds obtained from the bromination of (A) . However, (D) is totally different form any of the isomeric compounds obtained from the bromination of (A) . Give the sturctures of (A),(B),(C) and (D) , and also the structers of the four isomeric mononbrominated products of (A) . Support your answer wtih resoning.

An organic compound [A], whose molecular formula is C_(3)H_(6)O , gives iodoform reaction and forms compound [B]. Compound [B], when heated with silver powder, converts into compound [C}. Compound [C] reacts with dil. Sulphuric acid and mercuric sulphate to obtain compound [D], which gives Aldol condensation reaction. Write down the names of all compounds from [A] to [D] and also write the chemical equations for each step.

Borane is an electron deficient compound. It has only six valence eletons, so the boron atom lacks an octet. Acquiring an octet is the driving force for the unusual bonding structure found in boron compounds. As an electron deficient compound, BH_(3) is a strong electrophile, capable of adding to a double bond. This hydroboration of double bond is though to oC Cur in one step, with the boron atom adding to the less highly substituted end of the double bond. In transition state, the boron atom withdraws electrons from the pi bond and the carbon at theother end of the double bond acquires a partial positive charge. This positive charge is more stable on the more highly subsituted carbon atom. The second step is the oxidation of boron atom, removing it from carbon and replacing it with hydroxyl group by using H_(2)O_(2)//OH^(bar(..)) . The simultaneous addition of boron and hydrogen to the double bond leads to a syn addition. Oxidation of the trialkyl borane replaces boron with a hydroxyl group in the same stereochemical position. Thus, hydroboration of alkenen is an example of steropecific reaction, in which different steroisomers of starting compounds react to give different steroisomers of the product. CH_(3)-underset(CH_(3))underset(|)overset(CH_(3))overset(|)C-CH=CH_(2) underset((ii)H_(2)O_(2)//OH^(bar(..)))overset((i)BH_(3)//THF)rarrZ . Z is :