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Concept explainers
(a)
Interpretation:
The compound classes listed in Table 1-6 that have an IHD of 1 are to be identified.
Concept introduction:
Saturated compound is one which has maximum possible number of hydrogen atoms consistent with the number and type of other atoms and the octet and duet rules.
In a saturated hydrocarbon containing n carbon
A fully saturated compound has only singly bonded atoms, one per H, four per C, 2 per O, and 3 per N. Each double bond contributes 1, a triple bond contributes 2, and a ring contributes 1 toward IHD.
(b)
Interpretation:
The compound classes listed in Table 1-6 that have an IHD of 2 are to be identified.
Concept introduction:
Saturated compound is one which has maximum possible number of hydrogen atoms consistent with the number and type of other atoms and the octet and duet rules.
In a saturated hydrocarbon containing n carbon atoms, the number of hydrogen atoms is equal to
A fully saturated compound has only singly bonded atoms, one per H, four per C, 2 per O, and 3 per N. Each double bond contributes 1, a triple bond contributes 2, and a ring contributes 1 toward IHD.
(c)
Interpretation:
The compound classes listed in Table 1-6 that have an IHD of 3 are to be identified.
Concept introduction:
Saturated compound is one which has maximum possible number of hydrogen atoms consistent with the number and type of other atoms and the octet and duet rules.
In a saturated hydrocarbon containing n carbon atoms, the number of hydrogen atoms is equal to
A fully saturated compound has only singly bonded atoms, one per H, four per C, 2 per O, and 3 per N. Each double bond contributes 1, a triple bond contributes 2, and a ring contributes 1 toward IHD.
(d)
Interpretation:
The compound classes listed in Table 1-6 that have an IHD of 4 are to be identified.
Concept introduction:
Saturated compound is one which has maximum possible number of hydrogen atoms consistent with the number and type of other atoms and the octet and duet rules.
In a saturated hydrocarbon containing n carbon atoms, the number of hydrogen atoms is equal to
A fully saturated compound has only singly bonded atoms, one per H, four per C, 2 per O, and 3 per N. Each double bond contributes 1, a triple bond contributes 2, and a ring contributes 1 toward IHD.
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Chapter 4 Solutions
EBK GET READY FOR ORGANIC CHEMISTRY
- PROBLEM Give IUPAC names for the following compounds. 4-28 (a) CH3 (b) H3C (c) н (e) H3C CH3 CH3 CH3 H (d) H Cara CH3 CH3 CH3arrow_forward(iii) Draw the lowest energy conformer for the following compound.arrow_forwardPRACTICE PROBLEM 2.12 Write bond-line structural formulas for (a) two primary alcohols, (b) a secondary alcohol, and (e) a tertiary alcohol-all having the molecular formula C,H190. • PRACTICE PROBLEM 2.13 One way of naming alcohols is to name the alkyl group that is attached to the -OH and add the word alcohol. Write bond-line formulas for (a) propyl alcohol and (b) isopropyl alcohol.arrow_forward
- Problem: Use the molecules below to answer the questions. (a) List one pair of enantiomers, if any. (b) List one pair of diastereomers, if any. (c) List one meso compound, if any. (d) How many total configurational isomers are possible for compound 2? онно CH 3 он но H QH H CH3 CH 3 CH3 H OH но. „CH3 H он H H. "CH 3 H H "CH3 H H3C H3C 4 3 1arrow_forwardProblem Give the systematic name for each of the following compounds: a. CH3CHCH=CHCH3 d. BRCH,CH2CH=CCH3 CH3 CH,CH3arrow_forwardDraw and name two constitutional isomers that have only one stereocenter and are named “ ...ethyl ...hexane”.arrow_forward
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