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Covalent Bonding. Molecular Polarity. Shape and Geometry Review. Covalent Bonds involve sharing electrons But Just like in real life, not all sharing Is equal !!!. / Electronegativity. Electronegativity is the ability of an atom to Attract electrons to itself in a covalent bond.
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Covalent Bonding Molecular Polarity
Covalent Bonds involve sharing electrons But Just like in real life, not all sharing Is equal !!!
/Electronegativity Electronegativity is the ability of an atom to Attract electrons to itself in a covalent bond Large Electronegavity Small Electronegativity
So, the atoms in a covalent bond are engaged in a tug-of-war over electrons electrons
The atom that “wins” will be the one that is more electronegative. Because this atom gets the electrons more of the time, it becomes slightly negative The atom that “loses” becomes slightly positive
The Periodic Table allows us To predict differences in electronegavity F is the most electronegative
+ - H Cl A. Dipole Moment • Means the direction of the polar bond in a molecule. • Arrow points toward the more electronegative atom. (The direction the electrons will flow
B. Determining Molecular Polarity • Depends on: • Electronegativity differences • dipole moments • molecular shape
O net dipole moment H2O H H B. Determining Molecular Polarity • Polar Molecules • Dipole moments are asymmetrical or have lone pairs,and don’t cancel .
F BF3 B F F B. Determining Molecular Polarity • Nonpolar Molecules • Dipole moments are symmetrical and cancel out.
H net dipole moment CHCl3 Cl Cl Cl B. Determining Molecular Polarity • Therefore, polar molecules have... • asymmetrical shape (lone pairs) or • asymmetrical atoms
Linear molecules can be nonpolar . . . Example: CO2 What makes the difference? No Net Dipole Moment Or Polar… Example: HCN Net Dipole Moment Towards N N has a pair of unshared electrons here
Trigonal Planar molecules are usually nonpolar Example: BF3 But, what makes this one polar? Example: BF2Cl
Trigonal Pyramidal Molecules are Polar. Example: NH3 Net Dipole Toward N
Tetrahedral Molecules can be polar Example: CH3F Or non polar Example: CF4 Explain this!
Can a Molecule be Both Polar and NonPolar? Trigonal planar with Asymmetric atoms Tetrahedral with symmetric atoms Polar End Non Polar End
So, polarity can be more of a spectrum than a black and white determination Polar------------------------------------------------------nonpolar
Ionic, Polar, Nonpolar: A Continuum Ionic------------ ------------Polar-------- --------Nonpolar Electrons transferred E- shared unequally E- shared Huge charge separation no charge sep. some charge separation High MP/BP Low MP/BP Solids at STP Liquids at STPGas at STP STP is Standard Temperature and Pressure (273 K and 1 atm)
More Nonpolar Molecules • Share electrons the “best” • Have the closest electronegativities (or smallest differences) • Have lower boiling and melting points • . . .so More likely to be gases at room temperature • Like dissolves like . . . • Use a nonpolar solvent to dissolve a nonpolar solute
More Polar Molecules • Do not share well at all! • Their electronegativity differences are great • Are more like ionic compounds • Have higher melting and boiling points • Most likely to be liquids at room temperature • Like dissolves like . . . • Use a polar/ionic solvent to dissolve a polar/ionic solute