chemical bonding chapter 12 gcc chm 130. 12.1 chemical bonding atoms want to be like noble gases...
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Chemical Bonding
Chapter 12
GCC
CHM 130
12.1 Chemical Bonding Atoms want to be like noble gases (stable and happy) Goal = 8 outer valence electrons =Octet Rule (except H, He)
Metals lose electrons and become (+) cationsNonmetals gain electrons and become (-) anions
A metal / nonmetal compound is IONIC w/ IONIC bond (the + and – attract each other)
Who makes a good partner for Ca? Br? Li? Ionic Examples: KCl, CaBr2
Nonmetals can also share electrons with each other A nonmetal / nonmetal compounds is COVALENT
w/COVALENT bonds. Example: diatomic elements (H2, N2, F2…) Covalent Examples: H2O, CO2
Why is the formula CaBr2? Why one Ca per two Br? Any ideas?
Because Ca ion is +2 and Br ion is -1. So need two Br -1 ions to balance with one Ca +2 ion. +2-1-1=0 (Br-1Ca2+Br-1)
The answer is NOT because Br is diatomic
Note, Br is diatomic BY ITSELF (Br2) but when in a compound the Br ‘s break apart to bond with other atoms! The diatomic elements are NOT diatomic anymore once bonded with others.
Which compounds are Ionic?
• KBr
• SO3
• HCl
• Br2
• CO2
• MgCl2
Answer: The ones with a metal and a nonmetal.
KBr and MgCl2
12.2 Ionic BondingElectrons are completely transferred from metal to
nonmetal.
Draw electron dot structures for Mg and S atoms then Mg2+ and S2- ions in MgS. How many protons and electrons in Mg2+
and S2- ions?
Notice that Mg2+ and S2- are “like” noble gases. They are isoelectronic with Ne and Ar, and that is what makes them happy and stable. While the number of electrons changed, the number of protons did NOT. # Protons never change in chemical reactions.
Ionic Radius
• Cations have lost electrons, so there are more protons, so pull the electron orbits in closer to nucleus (smaller than the atom)
• Anions have gained electrons, so there are more electrons, they repel and push orbits farther from nucleus (larger than the atom)
True or False regarding an ionic bondbetween aluminum and iodine?
1. The aluminum atom loses electrons, and the
iodine atom gains electrons.
2. The aluminum atom is larger in radius than
the aluminum ion.
3. The iodine atom is smaller in radius than the
iodine ion.
4. The aluminum and iodine ions form a bond
by attraction.
True
True
True
True
…is when nonmetals share electrons.Single = 2, double = 4, triple = 6 e- shared
Note the bond length is less than r1+r2 due to orbital overlap
12.3 Covalent Bonding
Bond Energy
•=Energy required to break a bond.• •Breaking bonds always requires E.
• E is a reactant, it is absorbed.•Forming bonds always releases E.
• E is a product, it is produced.
H (g) + Cl (g) HCl (g) + heat
HCl (g) + heat H (g) + Cl (g)
Endothermic
Exothermic
True or False regarding H2S?
1.Electrons are shared in H2S.
2.The bond between H and S is
ionic.
3.The H-S bond length is less than
the sum of the two atomic radii.
4.Breaking the H-S bond releases
energy.
True
False
True
False
12.4 Draw electron dot structures for H2 and HCl
12.4 Electron Dot Structures
1. Add up the total number of valence electrons.
2. Surround the central atom with the other atoms and draw single bonds to them.
3. All atoms want octet 8e- except H wants 2 e-.
4. Final Check: Make SURE you use the total # of e-, no more or less.
bonding e-= shared e-
lone pairs = unshared e-
If single bonds don’t work, try double, then triple.
H2OTotal = 8e-
O::. .. .
H
H
• HCN
• CHCl3
• CO2
• NH3
Examples to put on
board:
The central atom is in bold.
12.5 Electron Dots of Polyatomic Ions
Add electrons for anions and subtract electrons for cations. Put brackets around the ion and charge in the right corner.
NH4+
+1 charge means one less e-
Total = 5 + 4(1) – 1 = 8 e-
Examples for the board:• BrO3
-
• SO42-
• CN-
The central atom is in bold.
12.10 Valence Shell Electron Pair Repulsion Theory
VSEPR
• Electron pairs (bonded and lone pairs)
repel each other and move as far away from
each other as possible.
• Molecular Shape or Geometry – the 3 D
arrangement of the atoms.
.Print out Shape Table from the web page
Linear – AB and AB2
Examples: H2, HCl, CO2
A = Central Atom B = Outer Atom
E = Lone Pair on central atom
Bond Angle is 180
Trigonal Planar – AB3
Example: Formaldehyde, CH2O
C
O
H H
120°
Tetrahedral – AB4
Example: CH4, CF4, CH2F2
Bent – AB2E
Example: SO2
SO O
<120°
Trigonal Pyramidal – AB3E
Example: ammonia, NH3
Bent – AB2E2
Example: water, H2O
Summary
• Given any molecule or polyatomic ion you should be able to– Draw the Electron dot structure– Determine the shape and bond angles
Get used to the Table of Shapes online – you will get it on the exam over this chapter!!!
Practice: PH3 and ozone O3
12.6&7 Polar and Nonpolar Covalent Bonds
• A covalent bond where electrons are shared equally is a nonpolar bond. (no poles, no magnet)
• A covalent bond where electrons are shared unequally is a polar bond. (has poles like a magnet)
Symbols used to indicate polarity:Partially positive atom
Partially negative atom
points toward more EN atom
What does partial charge mean?• The atoms in ions are completely +1, +2,
-3, -2 and such
• Polar bonds make the atoms just a little bit + and -, like maybe +0.001 and -0.001
• So ions are WAY more + and – than polar covalent bonded atoms
• Ionic bond Na-Cl is completely +1 and -1
• Polar Covalent bond N-F is a little bit + and -
Electronegativity (EN) is the ability of a BONDED atom to attract electrons.
Noble Gases don’t have an ENWhy? Any ideas?
• EN = ability of an atom to pull BONDED electrons close
Well noble gases don’t BOND! So they can’t pull bonded electrons close. So what is the atom with the highest EN???
Yep, F. F pulls electrons closer than anything! F is an electron hog. Nothing holds electrons tighter than F.
•Note C and H are about the SAME in EN so also make nonpolar covalent bonds.
Example:C-H bond in CH4
Nonpolar covalent bonds•When an atom is bonded to itself, that bond is nonpolar because the electrons are shared equally between them. •Diatomic molecules have nonpolar covalent bonds.
Examples:H2, N2, F2, O2, I2, Cl2 , Br2
Polar covalent bonds
•In general, when two different nonmetal atoms are bonded, the bond is polar because the more EN atom pulls the electrons closer so they are shared unequally.
Examples of polar bonds:C-O, H-F, S-F, C-N
Examples:(a) Add the delta notation(b) Add the polarity arrow
C-F O-C C-Cl O-H
Ionic, polar covalent, or nonpolar covalent???
C=O bond
Cl-Cl bond
Na-O bond
C=C bond
Polar covalentNonpolar covIonicNonpolar cov
C-H
Polarity - Review
• This is really important and will come up later again and again and again.
• Think of this as a tug-of-war for bonded electrons. The more EN atom pulls them closer, and since e- are negative, that makes that atom a little bit -. By default the other atom is a little bit +. The bond is thus polar. If the atoms have the same EN, like C and H, then it is a tie (nonpolar).
Ionic, Polar, or Nonpolar Bonds?
• Na-Cl • H-Cl
• H-H
• Cl-C• C-H• O=O• K-O• P-F
IonicPolar CovalentNonpolar CovalentPolar CovalentNonpolar CovalentNonpolar CovalentIonicPolar Covalent
Metallic Bonding
• Pure metals have a freely moving “sea of electrons”.
• The electrons are shared among all the metal atoms.
• This is why they conduct heat and electricity so easily.
12.10 Polarity of Molecules
• All nonpolar bonds = nonpolar molecule.
• Polar bonds that don’t cancel out = polar molecule.
• Polar bonds that do cancel out = nonpolar molecule.
Polar Bonds BUT Nonpolar Molecule
Polar bonds cancel out = nonpolar molecule.
Summary
Draw the electron dot structure, determine shape, bond angle, determine if bonds are polar and if molecule is polar.
• Water
• Ammonia
• Carbon dioxide
Yes, we skipped sections 8 and 9
For Fun if time
• Why care about molecular shape? Well look at what cis-platin can do thanks to its shape! http://www.youtube.com/watch?v=Wq_up2uQRDo&feature=related
• Antioxidants and free radicals – what are they? Free radicals are when a molecule has an unpaired electron. They are considered bad for you. http://www.youtube.com/watch?v=KVyjmt10CH0&feature=related
Self Test
• Page 352
• Try 1-6, 10, 12, 14 (shape only), 16-17 (don’t worry about when it says electron geometry, worry about shape)
• Answers in Appendix J