1. describe the behavior of the molecules in a liquid. explain this behavior in terms of intermolecular forces.
2. how to intermolecular forces determine molecular arrangement in solids?
true or false
1. chemical bonds are the forces between molecules
2. covalent bonds result from electrons being shared between atoms in a molecule
3.intermolecular forces result from the electron interactions between neighboring molecules
4.when the electron cloud is not distributed symmetrically a molecule has a polarity
5. chemical bonds include ionic bonds , metallic bonds , and atomic bonds.
which of the following statements could be used to explain why water has an unusually high boiling point? make a check mark on the line for all that apply.
a.__ water molecules have a strong intermolecular force
b.__ there are no nitrogen atoms in water
c.__oxygen is more electronegative than hydrongen
d.__wter is an angular molecule.
E.__oxygen atoms are smaller than hydrogen atoms
f.__water does not contain metallic bonds
g__ there is a large difference in electronegativity between oxygen and hydrogen.
2. how to intermolecular forces determine molecular arrangement in solids?
true or false
1. chemical bonds are the forces between molecules
2. covalent bonds result from electrons being shared between atoms in a molecule
3.intermolecular forces result from the electron interactions between neighboring molecules
4.when the electron cloud is not distributed symmetrically a molecule has a polarity
5. chemical bonds include ionic bonds , metallic bonds , and atomic bonds.
which of the following statements could be used to explain why water has an unusually high boiling point? make a check mark on the line for all that apply.
a.__ water molecules have a strong intermolecular force
b.__ there are no nitrogen atoms in water
c.__oxygen is more electronegative than hydrongen
d.__wter is an angular molecule.
E.__oxygen atoms are smaller than hydrogen atoms
f.__water does not contain metallic bonds
g__ there is a large difference in electronegativity between oxygen and hydrogen.