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UNIT: BONDING TIER 5. - Determine if a molecule is polar or nonpolar -Evaluate the type of intermolecular forces that occurs between covalent molecules based on the structural features of the molecules -Evaluate how the intermolecular forces affect the boiling points of substances.
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UNIT: BONDINGTIER 5 • -Determine if a molecule is polar or nonpolar • -Evaluate the type of intermolecular forces that occurs between covalent molecules based on the structural features of the molecules • -Evaluate how the intermolecular forces affect the boiling points of substances
Determine if a molecule is polar or nonpolar TUTORIAL : http://www.youtube.com/watch?v=uYtwU0uRK7o
Polar Molecules A polar molecule • contains polar bonds • has a separation of positive and negative charge called a dipole, indicated with + and – • has dipoles that do not cancel + – • • H–Cl H—N—H dipole H dipoles do not cancel
Ammonia has a trigonal pyramidal shape. The one unshared pair of electrons give that side of the molecule a partial negative charge and the other side a partial positive side. p. 380
Nonpolar Molecules A nonpolar molecule • contains nonpolar bonds Cl–Cl H–H • or has a symmetrical arrangement of polar bonds
Boron trifluoride has a trigonal planar shape with each bond having a 120o angle and no unshared electrons so it is nonpolar. If the shape of any molecule is trigonal planar and the central atom is surrounded by the same three atoms, then it will always be nonpolar p. 380
Determining Molecular Polarity Determine the polarity of the H2O molecule. Solution: The four electron groups of oxygen are bonded to two H atoms. Thus the H2O molecule has a net dipole, which makes it a polar molecule.
Carbon dioxide is linear and has symmetry so it is nonpolar Water has a bent shape with two unshared pair of electron on oxygen so it is polar
Methane (CH4) is nonpolar because the carbon is surrounded by the same atom on all sides. However for CH3Cl, CH2Cl2 & CHCl3 have the chlorine and hydrogen attached to the carbon in various ratios, they are polar. Even though they are all have a tetrahedral shape, they are not all nonpolar. However the rule is if the molecule is tetrahedral where the central atom is surrounded by the same for atoms, it will be nonpolar.
Evaluate the type of intermolecular forces that occurs between covalent molecules based on the structural features of the molecules TUTORIAL ON INTERMOLECULAR FORCES: http://www.youtube.com/watch?v=90q7xl3ndJ8&safe=active
between Intermolecular ForcesTopic 4.3
Intra vs. Inter molecular forces • Intra- • strong forces (ionic or covalent) that hold the atoms in a molecule together • takes 464 kJ/mol to break the H-O bonds within a water molecule • responsible for chemical properties
Inter- • weak forces that holds molecules to one another • takes only 19 kJ/mol to break the bonds between water molecules • the strength of the intermolecular forces determines the physical properties of the substance • melting, boiling, reacting, solubility, conductivity, volatility
3 main “types” of intermolecular forces • temporary/induced/instantaneous dipole-dipole forces called Van der Waals’ • permanent dipole-dipole forces (polar molecules) • a stronger type of dipole-dipole bonding called hydrogen bonding strength increases
VAN DER WAAL FORCES • also known as London Dispersion Forces • even nonpolar molecules have forces that hold them together • the distribution of electrons around an individual atom, at a given instant in time, may not be perfectly symmetrical • this can produce temporary/instantaneous dipoles (polar molecule) • this can then induce a nearby molecule to be polar and therefore a very weak attraction between the two molecules • the more electrons in an atom, the greater the Van der Waals’ forces
Sticky secret. Tiny hairs on geckos' feet help maximize contact with surfaces, allowing van der Waals forces to go to work.
Dipole-Dipole Forces • attractive forces between the positive end of one polar molecule and the negative end of another polar molecule • must be in close proximity for the dipole-dipole forces to be significant • the more polar the molecule, the greater the dipole-dipole force • stronger than van der Waals’ forces
HYDROGEN BONDING • a specific type of dipole-dipole type interactions • stronger than other dipole-dipole and Van der Waals’ • the hydrogen (H) in a molecule is bonded to a small, highly electronegative element (usually an N, O or F atom) on another molecule H-NOF
Evaluate how the intermolecular forces affect the boiling points of substances TUTORIAL: http://www.youtube.com/watch?v=S4-lAq2IH-8&safe=active
Intermolecular forces affect on boiling point (4.3.2) • the greater polarity of a molecule, the higher the boiling point • In HF, His 2.1 and F is 4.0, difference of 1.9 • In HCl, H is 2.1 and Cl is 3.0, difference of 0.9 BP is 20°C BP is -85°C
H-NOF ? • H2O vs. H2S? • In H2O, H is 2.1 and O is 3.5, difference of 1.4 • water molecules can hydrogen bond to each other • BP is 100°C • In H2S, H is 2.1 and Cl is 2.5, only a difference of 0.4 • H2S can only dipole-dipole bonding to each other • BP is -60°C H-NOF ? no H-NOF ? yes
H-NOF ? • CH3OCH3 vs. CH3CH2OH ? • -24°C 78°C only dipole – dipole has hydrogen bonding • NH3vs. PH3? • -33°C -87°C • has hydrogen bondingonly dipole – dipole
CH3CH2 CH3 vs. CH3CHO vs. CH3CH2OH ? only van der Waals’ low BP dipole-dipole medium BP hydrogen bonding highest BP