Electronegativity can be used to determine the strength of this force. This force is stronger in colder molecules than in warmer molecules This force is stronger in molecules which have a larger dipole moment This force is stronger in molecules which have more electrons than in molecules which have fewer electrons. This force exists only in molecules which are both polar and which have a H 1. Induced dipole 2. Dipole dipole 3. Hydrogen bonding

Principles of Modern Chemistry
8th Edition
ISBN:9781305079113
Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Chapter3: Atomic Shells And Classical Models Of Chemical Bonding
Section: Chapter Questions
Problem 67P
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O***
✓molecules which have a
larger dipole moment
This force is stronger in
molecules which have more
electrons than in molecules
which have fewer electrons.
This force exists only in
molecules which are both
polar and which have a H
bonded directly to an O, N,
F, CI or S atom
This force is stronger in
molecules which are hot
dog shaped than in those
which are spherical shaped
1. Induced dipole
2. Dipole dipole
3. Hydrogen bonding
Transcribed Image Text:Attempt O*** ✓molecules which have a larger dipole moment This force is stronger in molecules which have more electrons than in molecules which have fewer electrons. This force exists only in molecules which are both polar and which have a H bonded directly to an O, N, F, CI or S atom This force is stronger in molecules which are hot dog shaped than in those which are spherical shaped 1. Induced dipole 2. Dipole dipole 3. Hydrogen bonding
V
>
>
Electronegativity
can be
used to determine the
strength of this force.
This force is stronger in
colder molecules than in
warmer molecules
This force is stronger in
molecules which have a
larger dipole moment
This force is stronger in
molecules which have more
electrons than in molecules
which have fewer electrons.
This force exists only in
molecules which are both
polar and which have a H
1. Induced dipole
2. Dipole dipole
3. Hydrogen bonding
Transcribed Image Text:V > > Electronegativity can be used to determine the strength of this force. This force is stronger in colder molecules than in warmer molecules This force is stronger in molecules which have a larger dipole moment This force is stronger in molecules which have more electrons than in molecules which have fewer electrons. This force exists only in molecules which are both polar and which have a H 1. Induced dipole 2. Dipole dipole 3. Hydrogen bonding
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