EBK ORGANIC CHEMISTRY-PRINT COMPANION (
EBK ORGANIC CHEMISTRY-PRINT COMPANION (
4th Edition
ISBN: 9781119776741
Author: Klein
Publisher: WILEY CONS
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Chapter 8.3, Problem 2CC

(a)

Interpretation Introduction

Interpretation: The bond-line structure of 3-isopropyl-2,4-dimethyl-2-pentene is to be interpreted.

Concept Introduction: The bond-line structure of a hydrocarbon represents the bond between carbon atoms by lines and C and H atoms are not shown as symbols. The intersection of lines shows the C atoms. The presence of a double or triple bond must be shown as multiple lines.

(b)

Interpretation Introduction

Interpretation: The bond-line structure of 4-ethyl-2-methyl-2-hexene is to be interpreted.

Concept Introduction: The bond-line structure of a hydrocarbon represents the bond between carbon atoms by lines and C and H atoms are not shown as symbols. The intersection of lines shows the C atoms. The presence of a double or triple bond must be shown as multiple lines.

(c)

Interpretation Introduction

Interpretation: The bond-line structure of 1,2-dimethylcyclobutene is to be interpreted.

Concept Introduction: The bond-line structure of a hydrocarbon represents the bond between carbon atoms by lines and C and H atoms are not shown as symbols. The intersection of lines shows the C atoms. The presence of a double or triple bond must be shown as multiple lines.

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C. Alkenes 1. Construct a model of ethene (C₂H4) by joining two carbon atoms with a double bond. Toggle between skeletal and full Lewis structures by clicking the C-H tool. Note the trigonal planar geometry of the bonds around each carbon atom, and that the carbon-carbon double bond has restricted rotation. Observe that the six atoms in ethene all lie in the same plane, and the double bond is a fixed geometry within the molecule. 2. Add a CH3- group to each of the doubly-bonded carbons to create a four-carbon alkene with the double bond between carbons 2 and 3. Note that the CH3- groups can be attached in two different ways: Both CH3- groups on the same side of the fixed geometry of the double bond. The two CH3- groups on opposite sides of the double bond. Click the broom to tidy up the structures; convert each to a ball-and-stick model clicking the 2D to 3D tool. Take scr prints of your MolView structures, showing both the Lewis structure and 3D model. ● Below, draw structures for…
3. How many valence electron does carbon have? А. 1 В. 2 С. 4 D. 6 4. Which of the following is INCORRECT about the number of bonds one C atom can form? A. 2 double bonds B. 1 triple bond, 3 single bonds C. 2 single bonds, 1 double bond D. 3 single bonds, 1 double bond
8. Draw the line bond structural formula, the condensed structural formula, and the skeletal structural formula for 2-pentene. Line bond structure: Condensed structure: Skeletal formula: 9. Draw the line bond structural formula, the condensed structural formula, and the skeletal structural formula for 2-methyl-3-heptene. Line bond structure: Condensed structure: Skeletal formula:
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