tutorial#2 - chapter 5-8 exercises
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Tutorial #2 – Chapters 5-8
Dr. Truong Thanh Tu
Department of Physical Chemistry
Faculty of Chemistry
19 Le Thanh Tong, Hoan Kiem, Hanoi
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Chapter 5 – Some types of chemical reactions
Periodic table of the elements Reactions in aqueous solutions: formula, total ionic, and
net ionic equations Oxidation numbers Naming inorganic compounds Classification of chemical reactions:
• Oxidation-reduction reactions• Combination reactions• Decomposition reactions• Displacement reactions• Metathesis reactions
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Exercise
Assign oxidation numbers to the element specified in each group of ions
(a) P in PCl5, P4O6, P4O10, HPO3, H3PO3, POCl3, H4P2O7, Mg3(PO4)2
(b) Mn in MnO, MnO2, Mn(OH)2, K2MnO4, KMnO4, Mn2O7.
(c) O in OF2, Na2O, Na2O2, KO2
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Exercise
Write each of the following formula unit equations as net ionic equation if the two differ? For the redox reactions, identify the oxidizing agent, the reducing agent, the species oxidized and the species reduced
(a) AgNO3(aq) + Cu(s) Cu(NO3)2(aq) + Ag(s)
(b) KClO3(s) KCl(s) + KClO4
(c) AgNO3(aq) + K3PO4(aq) Ag3PO4(s) + KNO3(aq)
heat
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Exercise
Balancing and Classifying reactions
(a) Zn(s) + AgNO3(aq) Zn(NO3)2(aq) + Ag(s)
(b) Ca(OH)2(s) CaO(s) + H2O(g)
(c) HI(g) H2(g) + I2(g)
(d) Cu(NO3)2(aq) + Na2S(aq) CuS(s) + NaNO3(aq)
(e) SO2(g) + H2O(l) H2SO3(aq)
(f) H2SO3(aq) + KOH(aq) K2SO3(aq) + H2O(l)
heat
heat
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Naming compounds
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Precipitation reactions
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Acid-Base reactions
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Oxidation-reduction reactions
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LEO SAYS GER
Lose Electrons = Oxidation
Sodium is oxidized
Gain Electrons = Reduction
Chlorine is reduced
eNaNa10
10 CleCl
Reducing agent
Oxidizing agent
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Chapter 6 – Structure of atoms
Atom = Nucleus (protons + neutrons) + Electrons
Element symbolMass number, A (p+ + no)
Atomic number, Z(number of p+)
XAZ
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Chapter 6
Isotopes
Electron orbital = wave function (characterized by quantum numbers (n, l, m, ms) energy level and 3-D shape of the region in space occupied by a given electron
Quantum numbers:• Principal (n) energy levels• Angular-momentum (l): n values of l, from 0…n-1 3-D shape
• Magnetic (ml): 2l+1 values of ml, from –l…+l spatial orientation
• Spin (ms): +1/2 or -1/2 interaction to a magnetic field
C14
6C12
6
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EnergyLevel
(n)
Sublevels inmain energy
level (n sublevels)
Number oforbitals per
sublevel
Number ofElectrons
per sublevel
Number ofelectrons
permain energylevel (2n2)
1 s 1 2 2
2 sp
13
26
8
3 spd
135
26
10
18
4 spdf
1357
26
1014
32
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Electron configurations of multielectron atoms
Aufbau Principle (“building up”): A guide for determining the filling order of orbitals.
1s
2s 2p
3s 3p 3d
4s 4p 4d 4f
5s 5p 5d 5f6s 6p 6d 6f7s 7p 7d 7f
1s2
2 electrons
2s2
4
2p6 3s2
12
3p6 4s2
20
3d10 4p6
5s2
38
4d10 5p6 6s2
56
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Orbital filling table
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Exercise 1
What is the maximum number of electrons in an atom that have the following quantum numbers? (a) n=2
(b) n=3 and l=1; (c) n=3, l=0 and ml=0; (d) n=3, l=1, ml =-1, and ms=-1/2
What are the values of n and l for the following subshells? (a) 1s; (b) 3s; (c) 5p; (d) 3d; (e) 4f
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Exercise 2
Write the subshell notation that correspond to (a) n=3, l=0; (b) n=3, l=1; (c) n=6, l=1; (d) n=3, l=2
How many individual orbitals are there in the third shell? Write out n, l and ml quantum numbers for each one, and label each set by the s, p, d, f designation
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Exercise 4
Determine the number of electrons in the outer occupied shell of each of the following elements, and indicate the principal quantum of that shell (a) Na; (b) S; (c) Sr; (e) Ba; (f) Br
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Exercise
State Pauli Exclusion principle. Would any of the following electron configuration violate this rule: (a) 1s3; (b) 1s22s22px
2 Explain?
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Chapter 7 – Chemical bonding
Ionic bonds: electron(s) is transferred from one atom to another electrostatic attraction (a cation and an anion)
Covalent bonds: two atoms share several electrons Polar and non-polar covalent bonds Octet rule Lewis structures (electron-dot) S = N – A
• S = # shared electrons• N = # valence shell electrons needed
(N = 8 x #atom + 2 x #H)• A = # available electrons in valence shells
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Exercises
1
2
3
4
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Lewis dot symbols
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Ionic bond
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Ionic bond
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Ionic bond
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Lewis structure
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Exceptions to the octet rule
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Chapter 8 – Molecular structure and covalent bonding theories
VSEPR (Valence Shell Electron Pair Repulsion) theory Electrons in bonds and lone pairs can be thought as
“charge clouds” (regions of high electron density) that repel one another and stay as far apart as possible
Count the number of “charge clouds” and determine the molecular shapes
Predict the molecular polarity based on the molecular shape and individual bond polarities
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Chapter 7/34
Molecular Shapes: the VSEPR Model
Two Charge Clouds
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Chapter 7/35
Molecular Shapes: the VSEPR Model
Three Charge Clouds
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Chapter 7/36
Molecular Shapes: the VSEPR Model
Four Charge Clouds
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Chapter 7/37
Molecular Shapes: the VSEPR Model
Four Charge Clouds
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Chapter 7/38
Molecular Shapes: the VSEPR Model
Five Charge Clouds
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Chapter 7/39
Molecular Shapes: the VSEPR Model
Five Charge Clouds
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Chapter 7/40
Molecular Shapes: the VSEPR Model
Six Charge Clouds
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Chapter 7/41
Molecular Shapes: the VSEPR Model
Six Charge Clouds
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Valence bond (VB) theory
Covalent bonds are formed by overlap of atomic orbitals, each of which contains one electron of opposite spin.
Each of the bonded atoms maintains its own atomic orbitals, but the electron pair in the overlapping orbitals is shared by both atoms.
The greater the amount of overlap, the stronger the bond.
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Sigma bonds
Sigma () bonds exist in the region directly between two bonded atoms.
p orbital p orbital
Sigma bondingmolecular orbital
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Pi bonds
Pi () bonds exist in the region above and below a line drawn between two bonded atoms.
Pi bondingmolecular orbital
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Hybridization of orbitals
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Hybridization of orbitals
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Exercise
Write the Lewis formula for each of the following. Indicate which bonds are polar. Indicate which molecules are polar. (a) CS2; (b) AlF3; (c) H2S; (d) SnF2.
Write Lewis formulas and three dimensional structures for the following (a) BrF3; (b) BrF; (c) BrF5.
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Exercise
What is the hybridization of the central atom in each of the following? (a) NCl3; (b) molecular AlCl3; (c) CF4; (d) SF6; (e) IO4
-
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