a.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
b.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
c.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
d.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
e.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
f.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
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General, Organic, and Biological Chemistry (3rd Edition)
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