Chapter 2 Polar Covalent Bonds; Acids and Bases

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John E. McMurry http://www.cengage.com/chemistry/mcmurry Chapter 2 Polar Covalent Bonds; Acids and Bases Richard Morrison University of Georgia, Athens 2.1 Polar Covalent Bonds: Electronegativity Chemical bonds Ionic bonds Ions held together by electrostatic attractions between unlike charges Bond in sodium chloride Sodium transfers an electron to chlorine to give Na + and Cl - Nonpolar Covalent bonds Two electrons are shared equally by the two bonding atoms Carbon-carbon bond in ethane Symmetrical electron distribution in the bond Most bonds are neither fully ionic or covalent Polar Covalent Bonds: Electronegativity Polar covalent bonds A covalent bond in which the electron distribution between atoms is unsymmetrical Bond polarity is due to difference in electronegativity (EN)

Polar Covalent Bonds: Electronegativity Electronegativity (EN) The ability of an atom to attract shared electrons in a covalent bond Generally increases across the periodic table from left to right and from bottom to top Polar Covalent Bonds: Electronegativity Bonds between atoms whose electronegativities differ by less than 0.5 are nonpolar covalent Bonds between atoms whose electronegativities differ by 0.5 to 2.0 are polar covalent Bonds between atoms whose electronegativities differ by more than 2.0 are largely ionic Carbon hydrogen bonds are nonpolar. Bonds between carbon (EN = 2.5) and more electronegative elements, such as oxygen (EN = 3.5) and nitrogen (EN = 3.0) are polar covalent bonds with the bonding electrons drawn towards the more electronegative atoms Polar Covalent Bonds: Electronegativity Electrostatic potential maps Show calculated charge distributions Colors indicate electron-rich (red; -) and electron-poor (blue; +) regions Methanol, CH 3 OH, has a polar covalent C-O bond, and methyllithium has a polar covalent C-Li bond A crossed arrow is used to indicate direction of bond polarity Electrons are displaced in the direction of the arrow

Polar Covalent Bonds: Electronegativity An atom s ability to polarize a bond is known as the inductive effect Inductive effect The electron-attracting or electron-withdrawing effect transmitted through bonds. Electronegative elements have an electron-withdrawing inductive effect Metals inductively donate electrons Reactive nonmetals inductively withdraw electrons Inductive effects play a major role in understanding chemical reactivity 2.2 Polar Covalent Bonds: Dipole Moments Molecules as a whole are often polar Molecular polarity results from the vector summation of all individual bond polarities and lone-pair contributions in the molecule Strongly polar substances are soluble in polar solvents like water Dipole moment ( ) Magnitude of charge Q at either end of molecular dipole times distance r between charges = Q r, in debyes (D) 1 D = 3.336 10 30 coulomb meter (C m) A measure of the net polarity of a molecule Arises when the centers of mass of positive and negative charges within a molecule do not coincide 2.2 Polar Covalent Bonds: Dipole Moments Example calculation: If one positive and one negative charge were separated by just less than the length of an average covalent bond (100 pm), the dipole moment would be calculated as follows = (1.60 10 19 C)(100 10-12 m)( 1 D / 3.336 10-30 C m) = 4.80 D

Polar Covalent Bonds: Dipole Moments Polar Covalent Bonds: Dipole Moments Factors Affecting Dipole Moments Lone-pair electrons on oxygen and nitrogen project out into space away from positively charged nuclei giving rise to a considerable charge separation and contributing to the dipole moment Symmetrical structures of molecules cause the individual bond polarities and lone-pair contributions to exactly cancel Worked Example 2.1 Predicting the Direction of a Dipole Moment Make a three-dimensional drawing of methylamine, CH 3 NH 2, and show the direction of its dipole moment ( = 1.31)

2.3 Formal Charges Formal charge The difference in the number of electrons owned by an atom in a molecule and by the same atom in its elemental state Formal charges do not imply the presence of actual ionic charges Device for electron bookkeeping Assigned to specific atoms within a molecule Dimethyl sulfoxide CH 3 SOCH 3 Sulfur atom has three bonds rather than the usual two and has a formal positive charge Oxygen atom has one bond rather than the usual two and has a formal negative charge Formal Charges Formal Charge Determination Formal Charges

Formal Charges

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