Concept explainers
(a)
Interpretation:
The product formed should be determined on the reaction of following
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 known as a product. Both reactants and products must be separated by an arrow.
Hydration reaction is an addition reaction in which the hydrogen and hydroxyl group (-OH) are bonded on un-statured carbon atoms of alkene to form alcohol.
Answer to Problem 13.62P
Explanation of Solution
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 product is:
.
(b)
Interpretation:
The product formed should be determined on the reaction of following alkene with
(CH3)3 -C =C -(CH3)2
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 known as a product. Both reactants and products must be separated by an arrow.
Hydration reaction is an addition reaction in which the hydrogen and hydroxyl group (-OH) are bonded on un-statured carbon atoms of alkene to form alcohol.
Answer to Problem 13.62P
Explanation of Solution
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 product is:
(c)
Interpretation:
The product formed should be determined on the reaction of following alkene with
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 known as a product. Both reactants and products must be separated by an arrow.
Hydration reaction is an addition reaction in which the hydrogen and hydroxyl group (-OH) are bonded on un-statured carbon atoms of alkene to form alcohol.
Answer to Problem 13.62P
Explanation of Solution
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 product is:
(d)
Interpretation:
The product formed should be determined on the reaction of following alkene with
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 known as a product. Both reactants and products must be separated by an arrow.
Hydration reaction is an addition reaction in which the hydrogen and hydroxyl group (-OH) are bonded on un-statured carbon atoms of alkene to form alcohol.
Answer to Problem 13.62P
Explanation of Solution
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 product is:
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Chapter 13 Solutions
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