Concept explainers
(a)
Interpretation:
The reagent needed to convert 2-methylpropene to
Concept Introduction:
A
In a chemical reaction, the substance which is involved in conversion is said to be reactant, whereas, the newly formed substance is called a product. Both reactants and products must be separated by an arrow.
Hydrohalogenation reaction is an addition reaction in which the hydrogen and halogen atoms like Cl, Br are bonded on un-statured carbon atoms of

Answer to Problem 13.67P
Explanation of Solution
The conversion of 2-methylpropene to
To get the hydrohalogenation product of any alkene, three steps must be followed;
- Locate the position of C=C in the molecule.
- Break the H-Cl bond of the reagent.
- Add one Cl atom to double-bonded C atom to form new C−Cl single bonds in the molecule.
- Add one H atom to another double-bonded C atom to form new C−H single bonds in the molecule.
- The reaction follows the Markovnikov rule which states that the H atom of H-X will bond to that double-bonded C atom which has more number of H atoms.
Hence, the hydrohalogenation of 2-methylpropene can be written as follows
(b)
Interpretation:
The reagent that is needed to convert 2-methylpropene to
Concept Introduction:
A chemical reaction is the symbolic representation of the conversion of substances to new substances.
In a chemical reaction, the substance which is involved in conversion is said to be reactant, whereas, the newly formed substance is called a product. Both reactants and products must be separated by an arrow.
Hydrohalogenation reaction is an addition reaction in which the hydrogen and halogen atoms like Cl, Br are bonded on un-statured carbon atoms of alkene to form alkyl halide.

Answer to Problem 13.67P
Explanation of Solution
The conversion of 2-methylpropene to
To get the hydrogenated product of any alkene, three steps must be followed;
- Locate the position of C=C in the molecule.
- Break the H−H bond of the reagent.
- Add one H atom to double-bonded C atom to form two new C−H single bonds in the molecule.
Hence the hydrogenation of 2-methylpropene can be written as:
(c)
Interpretation:
The reagent that is needed to convert 2-methylpropene to
Concept Introduction:
A chemical reaction is the symbolic representation of the conversion of substances to new substances.
In a chemical reaction, the substance which is involved in conversion is said to be reactant, whereas, the newly formed substance is called a product. Both reactants and products must be separated by an arrow.
Hydrohalogenation reaction is an addition reaction in which the hydrogen and halogen atoms like Cl, Br are bonded on un-statured carbon atoms of alkene to form alkyl halide.

Answer to Problem 13.67P
Explanation of Solution
The conversion of 2-methylpropene to
To get the hydration product of any alkene, three steps must be followed;
- Locate the position of C=C in the molecule.
- Break the H-OH bond of the reagent.
- Add the -OH group atom to double-bonded C atom to form new C−OH single bonds in the molecule.
- Add one H atom to another double-bonded C atom to form new C−H single bonds in the molecule.
- The reaction follows the Markovnikov rule which states that the H atom of H-OH will bond to that double-bonded C atom which has more number of H atoms.
Hence, the hydration of 2-methylpropene can be written as:
(d)
Interpretation:
The reagent that is needed to convert 2-methylpropene to
Concept Introduction:
A chemical reaction is the symbolic representation of the conversion of substances to new substances.
In a chemical reaction, the substance which is involved in conversion is said to be reactant, whereas, the newly formed substance is called a product. Both reactants and products must be separated by an arrow.
Hydrohalogenation reaction is an addition reaction in which the hydrogen and halogen atoms like Cl, Br are bonded on un-statured carbon atoms of alkene to form alkyl halide.

Answer to Problem 13.67P
Explanation of Solution
The conversion of 2-methylpropene to
To get the hydrohalogenation product of any alkene, three steps must be followed;
- Locate the position of C=C in the molecule.
- Break the H-Br bond of the reagent.
- Add one Br atom to double-bonded C atom to form new C−Cl single bonds in the molecule.
- Add one H atom to another double-bonded C atom to form new C−H single bonds in the molecule.
- The reaction follows the Markovnikov rule which states that the H atom of H-X will bond to that double-bonded C atom which has more number of H atoms.
Hence, the hydrohalogenation of 2-methylpropene can be written as:
(e)
Interpretation:
The reagent that is needed to convert 2-methylpropene to
Concept Introduction:
A chemical reaction is the symbolic representation of the conversion of substances to new substances.
In a chemical reaction, the substance which is involved in conversion is said to be reactant, whereas, the newly formed substance is called a product. Both reactants and products must be separated by an arrow.
Hydrohalogenation reaction is an addition reaction in which the hydrogen and halogen atoms like Cl, Br are bonded on un-statured carbon atoms of alkene to form alkyl halide.

Answer to Problem 13.67P
Explanation of Solution
The conversion of 2-methylpropene to
To get the halogenation product of any alkene, three steps must be followed:
- Locate the position of C=C in the molecule.
- Break the Br-Br bond of the reagent.
- Add one Br atom to double-bonded C atom to form two new C−Br single bonds in the molecule.
Hence, the halogenation of 2-methylpropene can be written as:
(f)
Interpretation:
The reagent that is needed to convert 2-methylpropene to
Concept Introduction:
A chemical reaction is the symbolic representation of the conversion of substances to new substances.
In a chemical reaction, the substance which is involved in conversion is said to be reactant, whereas, the newly formed substance is called a product. Both reactants and products must be separated by an arrow.
Hydrohalogenation reaction is an addition reaction in which the hydrogen and halogen atoms like Cl, Br are bonded on un-statured carbon atoms of alkene to form alkyl halide.

Answer to Problem 13.67P
Explanation of Solution
The conversion of 2-methylpropene to
To get the halogenation product of any alkene, three steps must be followed:
- Locate the position of C=C in the molecule.
- Break the Cl-Cl bond of the reagent.
- Add one Cl atom to double-bonded C atom to form two new C−Cl single bonds in the molecule.
Hence the halogenation of 2-methylpropene can be written as follows:
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Chapter 13 Solutions
ALEKS 360 ACCESS CARD F/GEN. ORG.CHEM
- H-Br Energy 1) Draw the step-by-step mechanism by which 3-methylbut-1-ene is converted into 2-bromo-2-methylbutane. 2) Sketch a reaction coordinate diagram that shows how the internal energy (Y- axis) of the reacting species change from reactants to intermediate(s) to product. Brarrow_forward2. Draw the missing structure(s) in each of the following reactions. The missing structure(s) can be a starting material or the major reaction product(s). C5H10 H-CI CH2Cl2 CIarrow_forwardDraw the products of the stronger acid protonating the other reactant. དའི་སྐད”“ H3C OH H3C CH CH3 KEq Product acid Product basearrow_forward
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- 2. Draw the missing structure(s) in each of the following reactions. The missing structure(s) can be a starting material or the major reaction product(s). C5H10 Br H-Br CH2Cl2 + enant.arrow_forwardDraw the products of the stronger acid protonating the other reactant. KEq H₂C-O-H H3C OH Product acid Product basearrow_forwardDraw the products of the stronger acid protonating the other reactant. OH KEq CH H3C H3C `CH3 Product acid Product basearrow_forward
- 2. Draw the missing structure(s) in each of the following reactions. The missing structure(s) can be a starting material or the major reaction product(s). Ph H-I CH2Cl2arrow_forward3 attempts left Check my work Draw the products formed in the following oxidative cleavage. [1] 03 [2] H₂O draw structure ... lower mass product draw structure ... higher mass productarrow_forward2. Draw the missing structure(s) in each of the following reactions. The missing structure(s) can be a starting material or the major reaction product(s). H-Br CH2Cl2arrow_forward
- Chemistry by OpenStax (2015-05-04)ChemistryISBN:9781938168390Author:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark BlaserPublisher:OpenStax
