Concept explainers
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(a)
Interpretation:
The IUPAC name of the given molecule is to be written. It is to be determined if the compound could be named using ortho, meta, or para as a prefix.
Concept introduction:
Benzene derivatives have one or more substituents attached to the benzene ring. In these type of compounds, the root name is benzene. The ring is numbered so that the substituents attached to it get the lowest locator numbers. Prefixes and locator numbers are used for writing the number and type of substituents.
Disubstituted benzenes can be named using the ortho, meta, or para prefixes to indicate the relative position of the two substituents attached to the benzene.
(b)
Interpretation:
The IUPAC name for the given molecule is to be written. It is to be determined if the compound could be named using ortho, meta, or para as a prefix.
Concept introduction:
Benzene derivatives have one or more substituents attached to the benzene ring. In these type of compounds, the root name is benzene. The ring is numbered so that the substituents attached to it get the lowest locator numbers. Prefixes and locator numbers are used for writing the number and type of substituents.
Disubstituted benzenes can be named using the ortho, meta, or para prefixes to indicate the relative position of the two substituents attached to the benzene.
(c)
Interpretation:
The IUPAC name for the given molecule is to be written. It is to be determined if the compound could be named using ortho, meta, or para as a prefix.
Concept introduction:
Benzene derivatives have one or more substituents attached to the benzene ring. In these type of compounds, the root name is benzene. The ring is numbered so that the substituents attached to it, get the lowest locator numbers. Prefixes and locator numbers are used for writing the number and type of substituents.
Disubstituted benzenes can be named using the ortho, meta, or para prefixes to indicate the relative position of the two substituents attached to the benzene.
(d)
Interpretation:
The IUPAC name for the given molecule is to be written. It is to be determined if the compound could be named using ortho, meta, or para as a prefix.
Concept introduction:
Benzene derivatives have one or more substituents attached to the benzene ring. In these type of compounds, the root name is benzene. The ring is numbered so that the substituents attached to it get the lowest locator numbers. Prefixes and locator numbers are used for writing the number and type of substituents.
Disubstituted benzenes can be named using the ortho, meta, or para prefixes to indicate the relative position of the two substituents attached to the benzene.
(e)
Interpretation:
The IUPAC name for the given molecule is to be written. It is to be determined if the compound could be named using ortho, meta, or para as a prefix.
Concept introduction:
Benzene derivatives have one or more substituents attached to the benzene ring. In these type of compounds, the root name is benzene. The ring is numbered so that the substituents attached to it get the lowest locator numbers. Prefixes and locator numbers are used for writing the number and type of substituents.
Disubstituted benzenes can be named using the ortho, meta, or para prefixes to indicate the relative position of the two substituents attached to the benzene.
(f)
Interpretation:
The IUPAC name for the given molecule is to be written. It is to be determined if the compound could be named using ortho, meta, or para as a prefix.
Concept introduction:
Benzene derivatives have one or more substituents attached to the benzene ring. In these type of compounds, the root name is benzene. The ring is numbered so that the substituents attached to it get the lowest locator numbers. Prefixes and locator numbers are used for writing the number and type of substituents.
Disubstituted benzenes can be named using the ortho, meta, or para prefixes to indicate the relative position of the two substituents attached to the benzene.
(g)
Interpretation:
The IUPAC name for the given molecule is to be written. It is to be determined if the compound could be named using ortho, meta, or para as a prefix.
Concept introduction:
Benzene derivatives have one or more substituents attached to the benzene ring. In these type of compounds, the root name is benzene. The ring is numbered so that the substituents attached to it get the lowest locator numbers. Prefixes and locator numbers are used for writing the number and type of substituents.
Disubstituted benzenes can be named using the ortho, meta, or para prefixes to indicate the relative position of the two substituents attached to the benzene.
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Chapter B Solutions
Organic Chemistry: Principles and Mechanisms (Second Edition)
- Write a molecule with a total of 16 carbons (by express formula) in each of the following classes of organic compounds, with at least one aromatic group and one alkyl group in their structure. Every structure you write name according to the IUPAC system g) Write down and name a dithiol molecule.h) Write down and name a lactone molecule.i) Write and name a 3,4-unsaturated aldehyde molecule.arrow_forwardIn each of the following classes of organic compounds, write a molecule with a total of 16 carbons (by express formula) with at least one aromatic group and one alkyl group in its structure. Name each structure you write according to the IUPAC system. a) Write and name a heteroaromatic molecule. b) Write and name a benzaldehyde derivative.arrow_forwardPlease name the following molecule according to IUPAC naming system and use the two ones that look like a circle for the longest carbon chain. (the W ish shape is the parent carbon chain).arrow_forward
- Question 1 - Nomenclature QUESTION 1 - Nomenclature and Drawing of Organic Molecules Nomenclature Provide the proper IUPAC name for the following molecules. a) b) H C-タ Н-С TH. H. Draw Draw the organic molecule (structural, condensed or line diagram) based on the given IUPAC name. Cis-6-chlorohept-2-enearrow_forwardQuestion is attachedarrow_forwardComplete the following table to show what functional groups are present in each of the reagents and products in the reaction of ? (The first reagent has been filled in for you) Reagent / Product Functional group octanoic acidarrow_forward
- Name the molecules with the explicit structures given below according to the IUPAC nomenclature system.arrow_forwardIn each of the organic compound classes given below, write a molecule with a total of 16 carbons (by express formula), with at least one aromatic group and one alkyl group in its structure. Name each structure you write according to the IUPAC system.g) Write down and name a dithiol molecule.h) Write down and name a lactone molecule.i) Write and name a 3,4-unsaturated aldehyde molecule.arrow_forwardWrite structural formulas for all of the possible isomers of n-pentyne that can be formed by moving the position of the triple bond.arrow_forward
- Name the organic molecules using IUPAC nomenclaturearrow_forwardGive the correct IUPAC name and spelling of the following compounds. Note proper notations (like hyphen and commas)arrow_forward1-Propylamine, propan-1-ol, acetic acid, and butane have about the same molar masses. Which would you expect to have the (a) highest boiling point, (b) lowest boiling point, (c) least solubility in water, and (d) least chemical reactivity? Have each member of your group chose a part to answer, andthen discuss with each other why those answers were chosen.arrow_forward
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