Intermolecular Forces in O2

Analyzing the boiling point

Measuring the density

Checking for the presence of ions

Examining the color of the gas

Because it has a negative charge

Because it has a positive charge

Because it is a metal

Because it lacks any charge

It contains ions

It has a triple bond

It is a non-polar molecule

It is a polar molecule

It causes O2 to be an ionic compound

It makes O2 a polar molecule

It results in a difference in electronegativity

It makes O2 a non-polar molecule

Ionic bonding

London dispersion forces

Dipole-dipole interactions

Hydrogen bonding

Metallic compounds

Ionic compounds

Non-polar molecules

Polar molecules

They induce temporary dipoles

They decrease the melting point

They increase the boiling point

They create permanent dipoles

It becomes a solid

It remains a gas

It turns into a liquid

It becomes an ionic compound

They are permanent

They are temporary

They involve strong ionic bonds

They require high temperatures

Due to dipole-dipole interactions

Due to strong ionic bonds

Because of hydrogen bonding

Because of London dispersion forces