Differences between Covalent Bonding and Ionic Bonding.

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Presentation transcript:

Differences between Covalent Bonding and Ionic Bonding

Major difference Covalent bonding is a sharing of electrons, Ionic bonding is a transfer of electrons. Covalent bonding is a sharing of electrons, Ionic bonding is a transfer of electrons. Covalent bonds are stronger than ionic bonds because there is actually an electron going between them. Covalent bonds are stronger than ionic bonds because there is actually an electron going between them. Therefore, it is harder to break a covalent bond than it is to break an ionic bond. Therefore, it is harder to break a covalent bond than it is to break an ionic bond. This is why we didn’t dissociate the polyatomic ions, they are held together with covalent bonds. This is why we didn’t dissociate the polyatomic ions, they are held together with covalent bonds.

Shortcut to determining type of bond When a metal and nonmetal bond you get an ionic bond When a metal and nonmetal bond you get an ionic bond ~ something from the left excluding H bonds with something from the right = ionic bond. ~ something from the left excluding H bonds with something from the right = ionic bond. When two nonmetals bond you get a covalent bond When two nonmetals bond you get a covalent bond ~things from the right bond with each other =covalent bond. ~things from the right bond with each other =covalent bond. Metals don’t bond with each other. Metals don’t bond with each other.

Why this works Electronegativity- ability of an atom to attract and hold bonding electrons. Electronegativity- ability of an atom to attract and hold bonding electrons. Elements with a large difference in electronegativity will form an ionic bond, elements with a small difference will form covalent bonds. Elements with a large difference in electronegativity will form an ionic bond, elements with a small difference will form covalent bonds.

Using the periodic table to determine electronegativity electronegativity generally increases up and to the right excluding noble gases. electronegativity generally increases up and to the right excluding noble gases. Fluorine is the most electronegative element (4.0) followed by oxygen (3.5) and chlorine (3.0). Fluorine is the most electronegative element (4.0) followed by oxygen (3.5) and chlorine (3.0). A full chart is on page 344. A full chart is on page 344.

Electronegativity Chart

What about the middle ground? What if the difference in electronegativity isn’t large or small but in the middle? What if the difference in electronegativity isn’t large or small but in the middle? For example H (2.1) and O (3.5) For example H (2.1) and O (3.5) These elements form a polar covalent bond. These elements form a polar covalent bond. Polar Covalent Bond- unequal sharing of electrons in the bond Polar Covalent Bond- unequal sharing of electrons in the bond so the electrons stay around oxygen more than hydrogen so the electrons stay around oxygen more than hydrogen

Polar covalent 4 electrons occupy this cloud. 4 electrons occupy this cloud. Notice how much larger the cloud is around oxygen as compared to hydrogen. Notice how much larger the cloud is around oxygen as compared to hydrogen.

Do any bonds have an equal sharing? Yes, (normally the same element) when elements are equally electronegative like O 2 Yes, (normally the same element) when elements are equally electronegative like O 2 In fact, anything with a very slim difference (less than 0.5) in electronegativity will pretty much equally share electrons. In fact, anything with a very slim difference (less than 0.5) in electronegativity will pretty much equally share electrons. Nonpolar covalent bonding- equal sharing of electrons in a bond Nonpolar covalent bonding- equal sharing of electrons in a bond

Bonds

Why it is called polar polar implies different ends have different charges similar to a magnet. Oxygen H Water has 2 polar covalent bonds, meaning the electrons stay around oxygen more than H That makes this side negative and this side positive

Denoting positive and negative Oxygen HH  + The symbol  (lower case delta) means partial  + Neither side is completely positive or negative, they are only partially positive and partially negative.  2-

Dipole Moment Dipole moment- property of a molecule where the charge distribution can be represented by a center of a positive charge and a center of negative charge. Dipole moment- property of a molecule where the charge distribution can be represented by a center of a positive charge and a center of negative charge. It is represented by this symbol It is represented by this symbol Positive center Negative center Positive center Negative center

So the dipole moment for water… Oxygen HH is represented like this. Note the center of the positive charge is in between the two hydrogen atoms.