Chapter 13, Problem 13.104P

Interpretation Introduction

(a)

Interpretation:

Structure of the molecule B should be converted to a condensed structure and IUPAC name of the molecule should be given.

  

= ( $C_{10}{H}_{20}$ )

Concept Introduction:

Alkenes are hydrocarbon molecules that consist a carbon-carbon double bond which has the general formula of $C_n{H}_{2n}$ .Structure of a chemical compound is the arrangement of atoms and bonds in the space.

In alkene nomenclature longest C chain will be considered as the parent/ main C chain. At the end of the alkane suffix -ene is added. Longest chain which includes the carbon-carbon double bond will considered as the main carbon chain. Numbering of the main C chain is starting from the first substituent by giving the lower number to that substituent and as well as the double bond should get the lower number. All the substituents should be numbered and named. Two or more identical substituents should be indicated by using appropriate prefixes as di-. Names of the substituents should be alphabetized. Each substituent should have a position number which is mentioned in the main C chain.

Answer to Problem 13.104P

Condensed structure -

  

IUPAC name −Decene

Explanation of Solution

In alkenes there is a carbon-carbon double bond and different groups are connected to the two carbons. In most of the alkenes; out of four binding positions of carbon-carbon double bond, two of them are binds with two hydrogen atoms and other two binding positions are binds with two different alkyl groups.In this molecule, carbon atoms are represented in black and hydrogen atoms are represented in white color.Structure of a chemical compound is the arrangement of atoms and bonds in the space.

Condensed structure -

  

In this molecule, main carbon chain which contains the carbon-carbon double bond is a ten membered chain and there are no substituents in this molecule. According to the numbering of the main chain double bond gets the lowest number and it is number 1.Hence, IUPAC name of the molecule is decene.

Interpretation Introduction

(b)

Interpretation:

The resulting product should be identified after reacting $C_{10}{H}_{20}$ with $H_2$ in the presence of $Pd$.

Concept Introduction:

Alkenes are hydrocarbon molecules that consist a carbon-carbon double bond which has the general formula of $C_n{H}_{2n}$ . Alkanes are hydrocarbon molecules which do not have any functional group.

Reaction of alkene with $H_2$ in the presence of $Pd$ will form saturated alkanes and the reaction is called as hydrogenation reaction.

Answer to Problem 13.104P

  $C{H}_3-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_{{}_3}$

Explanation of Solution

Unsaturated ( $C_{10}{H}_{20}$ )alkene molecule react with $H_2$ in the presence of $Pd$ and form saturated alkanes. Bond between two H in the $H_2$ , is broken and also a one bond between two carbon-carbon bond is broken, meanwhile new two bonds of $C-H$ are formed in the presence of $Pd$ metallic catalyst, which reduce the activation energy of the reaction. Refer to the below reaction;

  $\begin{array}{l}C{H}_2=CH-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_3\\ \downarrow H_2/Pd\\ C{H}_3-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_3\end{array}$

Interpretation Introduction

(c)

Interpretation:

The resulting product should be identified after reacting $C_{10}{H}_{20}$ with $H_{2}O$ and $H_{2}S{O}_4$.

Concept Introduction:

Alkenes are hydrocarbon molecules that consist a carbon-carbon double bond which has the general formula of $C_n{H}_{2n}$ . Alcohols are the hydrocarbon molecules which contains OH group in the molecule.

Reaction of alkene with $H_{2}O$ and $H_{2}S{O}_4$ will form saturated alcohols and the reaction is called as hydration reaction.

Hydration reaction of alkenes follows the Markovnikov's rule.

Answer to Problem 13.104P

  $C{H}_3-CHOH-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_2-C{H}_3$

Explanation of Solution

Unsaturated ( $C_{10}{H}_{20}$ ) alkene molecule react with $H_{2}O$ and $H_{2}S{O}_4$ , form alcohols. One bond between a hydrogen atom and an oxygen atom in the $H_{2}O$ , is broken and also a one bond between two carbon-carbon bond is broken, meanwhile new two bonds of $C-OH$ and $C-H$ are formed. Hydrogenation occurs only in the presence of a strong acid such as $H_{2}S{O}_4$ . Hydration reaction of alkenes follows the Markovnikov's rule. When addition of $H_{2}O$ molecule to an unsymmetrical alkene, H atom binds to the less substituted carbon atom is known as Markovnikov's rule. This molecule also falls into the unsymmetrical alkene category, hence; Markovnikov's rule is applied to this molecule.

Refer to the below reaction;

  $C{H}_2=CH-{(C{H}_2)}_7-C{H}_3\stackrel{H_{2}S{O}_4/H_{2}O}{\to }C{H}_3-CHOH-{(C{H}_2)}_7-C{H}_3$

Interpretation Introduction

(d)

Interpretation:

The resulting polymer should be identified after polymerization of $C_{10}{H}_{20}$.

Concept Introduction:

Alkenes are hydrocarbon molecules that contain a carbon-carbon double bond inside a molecule.

Polymers are high molecular weight macromolecules which formed from covalently bonded monomer molecules.

Answer to Problem 13.104P

  

Explanation of Solution

Polymers are high molecular weight macromolecules which formed from covalently bonded monomer molecules. When forming polymers from alkene monomers, the weak bond which is in the carbon-carbon double bond is broken and new strong bond will form to connect the monomer molecules together. Hence; weak bond of the carbon-carbon double bond of $C{H}_2=CH-{(C{H}_2)}_7-C{H}_3$ will break and new strong bond will form to create polydecane. 'n' number of monomers will together make polydecane polymer with 'n' number of decenemonomers. Refer to the below diagram;