Covalent bondingCovalent bond: A chemical bond formed when two atoms share electrons.

Covalent bondingCovalent bond: A chemical bond formed when two atoms share electrons.

Co means “together, joint, jointly.”

Covalent bondingCovalent bond: A chemical bond formed when two atoms share electrons.

Co means “together, joint, jointly.”

Double bond: When two pairs of electrons are shared between atoms.

Covalent bondingCovalent bond: A chemical bond formed when two atoms share electrons.

Co means “together, joint, jointly.”

Double bond: When two pairs of electrons are shared between atoms.

Molecular compounds: Molecules formed through covalent bonding.

Electron dot diagram

C O H NF

Electron dot diagram

C O H NF

Review: What number of valence electrons do atoms want in order to be stable?

Electron dot diagram

C O H NF

Review: What number of valence electrons do atoms want in order to be stable?

Answer: 0 or 8

Electron dot diagram

C O H N F

Atoms want 0 or 8 valence electrons to be stable.

However, there are two exceptions: hydrogen and helium. They are stable when their inner shell of 2 is filled.

Atoms want 0 or 8 valence electrons to be stable. However, there are two exceptions: hydrogen and helium. They are stable when their inner shell of 2 is filled.

Helium

Helium

Thus hydrogen only needs one more valence electron to be stable. Helium is already stable.

F

Examples of covalent bonds/molecular compounds

Examples of covalent bonds/molecular compounds

F F

F2

Examples of covalent bonds/molecular compounds

F F O

F2

Examples of covalent bonds/molecular compounds

F F O HHF2

Examples of covalent bonds/molecular compounds

F F O HH

Water moleculeH20

F2

Examples of covalent bonds/molecular compounds

O

Examples of covalent bonds/molecular compounds

O O

Examples of covalent bonds/molecular compounds

O OOxygen molecule O2

(double bond)

Examples of covalent bonds/molecular compounds

O OOxygen molecule H20(double bond)

H3N

Examples of covalent bonds/molecular compounds

O OOxygen molecule H20(double bond)

NH3N

Examples of covalent bonds/molecular compounds

O OOxygen molecule H20(double bond)

N HH3N

H

H

Examples of covalent bonds/molecular compounds

C02

Examples of covalent bonds/molecular compounds

C02 C

Examples of covalent bonds/molecular compounds

OC02 C

Examples of covalent bonds/molecular compounds

OC02 C O

Examples of covalent bonds/molecular compounds

OC02 C O

double bond

Examples of covalent bonds/molecular compounds

NN2

Examples of covalent bonds/molecular compounds

NN2

Examples of covalent bonds/molecular compounds

NN2 N

Examples of covalent bonds/molecular compounds

NN2

triple bond(this is the maximum numberof bonds possible)

N

More aboutmolecular compounds

• Atoms in molecular compounds do not have strong plus-minus charges.

• Thus less heat is needed to melt or boil molecular solids.

• Salt (an ionic compound) melts at 801° C. Sugar (a molecular compound) melts at 185° C.

• Because electrons do not move between the atoms, molecular compounds do not conduct electricity well.

• Because electrons do not move between the atoms, molecular compounds do not conduct electricity well.

• This includes compounds such as rubber and water, which do not conduct electricity.

Polar molecular compounds• Some atoms pull more strongly on the shared electrons than other atoms do.

Polar molecular compounds• Some atoms pull more strongly on the shared electrons than other atoms do.

• As a result, the valence electrons move closer to the stronger atoms.

Polar molecular compounds• Some atoms pull more strongly on the shared electrons than other atoms do.

• As a result, the valence electrons move closer to the stronger atoms.

• Since electrons have a negative charge, the strong atom will now have a slightly negative charge, and the weaker atom a slightly positive charge.

Nonpolar bond

F F

Equal pull

Polar bond

H F

Unequal pull

+ -

Water is a polar bond

Electrons are

pulled toward

the oxygen

atom.

Water is a polar bond

Electrons are

pulled toward

the oxygen

atom.

This causes cohesion: The attraction that occurs between particles of the same substance.

Can you think of examples of water’s cohesion (holding together)?

Can you think of examples of water’s cohesion (holding together)?

Water droplets

Can you think of examples of water’s cohesion (holding together)?

Surface tension

Can you think of examples of water’s cohesion (holding together)?

Water transport in plants

http://www.youtube.com/watch?v=CT4pURpXkbY

Why don’t oil and water mix?

Why don’t oil and water mix?• The polar water molecules are attracted more

strongly to each other than they are to the nonpolar oil molecules.

Why don’t oil and water mix?• The polar water molecules are attracted more

strongly to each other than they are to the nonpolar oil molecules.

• Soap molecules are polar on one end and nonpolar on the other.

Why don’t oil and water mix?• The polar water molecules are attracted more

strongly to each other than they are to the nonpolar oil molecules.

• Soap molecules are polar on one end and nonpolar on the other.