Chemistry
12th Edition
ISBN: 9780078021510
Author: Raymond Chang Dr., Kenneth Goldsby Professor
Publisher: McGraw-Hill Education
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Textbook Question
Chapter 10, Problem 10.1QP
How is the geometry of a molecule defined and why is the study of molecular geometry important?
Expert Solution & Answer
Interpretation Introduction
Interpretation:
Molecular geometry and its importance should be explained.
Concept Introduction:
Molecular geometry is the spatial arrangement of the bonded atoms around the central atom. Molecular geometry influences many properties of a molecule.
Explanation of Solution
Molecular geometry is the spatial arrangement of atoms on a molecule and/ or ions.
It is the three dimensional arrangement of the bonded atoms with its central atom.
Several chemical and physical properties like polarity, color, reactivity etc. of a molecule depends on its geometry. Even the biological activity of a drug depends on the molecular geometry.
The geometry of a molecule can be found out by different methods like IR, Raman spectroscopy etc.
Here the position of each atom is determined by the nature of chemical bonding with its neighboring atoms.
We can predict the geometry by using Lewis structure and VSEPR (Valence-Shell Electron Pair Repulsion) model.
Molecular formula alone is not enough for the prediction of molecular geometry. Type of bonding, lone pair etc. depends on its prediction.
For example, the geometry of a molecule with formula
Conclusion
Molecular geometry and its importance was explained
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Students have asked these similar questions
There are 48 pairs of students in the following table. Each pair has quantitatively determined the mass of taurine in a 250 mL can of the popular energy drink marketed as “Munster” using High Performance Liquid Chromatography (HPLC). The class results are presented below:
QUESTION: Calculate the measurement of uncertainty and provide the data in a spreadsheet table.
Mass of Taurine (mg)
Mass of Taurine (mg)
(Table continued)
152.01
152.23
151.87
151.45
154.11
152.64
152.98
153.24
152.88
151.45
153.49
152.48
150.68
152.33
151.52
153.63
152.48
151.68
153.17
153.40
153.77
153.67
152.34
153.16
152.57
153.02
152.86
151.50
151.23
152.57
152.72
151.54
146.47
152.38
152.44
152.54
152.53
152.54
151.32
152.87
151.24
153.26
152.02
152.90
152.87
151.49
152.46
152.58
1. Predict the organic product(s) of the following reactions. Assume excess of reagents unless
otherwise noted.
a)
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BH3 •THF
b)
1) NaOH
2) H3O+
solve
d)
ala
1) EtMgBr
2) H3O+
e)
H2N
سكر
CuLi
NH2
1) SOCI2
2) EtMgBr
3) H3O+
NC
H3O+
Δ
There are 48 pairs of students in the following table. Each pair has quantitatively determined the mass of taurine in a 250 mL can of the popular energy drink marketed as “Munster” using High Performance Liquid Chromatography (HPLC). The class results are presented below:
QUESTION: Summarise and report these results including an indication of measurement uncertainty.
In both calculation samples calculate if an outlier is present, max value, number of samples, mean, standard deviation, g (suspect), g (critical) and t (critical).
Mass of Taurine (mg)
Mass of Taurine (mg)
(Table continued)
152.01
152.23
151.87
151.45
154.11
152.64
152.98
153.24
152.88
151.45
153.49
152.48
150.68
152.33
151.52
153.63
152.48
151.68
153.17
153.40
153.77
153.67
152.34
153.16
152.57
153.02
152.86
151.50
151.23
152.57
152.72
151.54
146.47
152.38
152.44
152.54
152.53
152.54
151.32…
Chapter 10 Solutions
Chemistry
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