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General Chemistry I
QUANTUM MECHANICSAND ATOMIC STRUCTURE
5.1 The Hydrogen Atom
5.2 Shell Model for Many-Electron Atoms
5.3 Aufbau Principle and Electron Configurations
5.4 Shells and the Periodic Table:Photoelectron Spectroscopy
5.5 Periodic Properties and Electronic Structure
5CHAPTER
General Chemistry I
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General Chemistry I
Colors ofFireworks
from atomic emission
red from Sr
orange from Ca
yellow from Na
green from Ba
blue from Cu
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General Chemistry I
Key question 1: what is the quantum mechanical atomic model?
Key question 2: what is the origin of the periodicity of atomic properties?
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General Chemistry I
5.1 THE HYDROGEN ATOM195
- The hydrogen atom is the simplest example of a one-electron atomor ion. (i.e. He+, Li2+, …)
- Schrödinger equation
no angular dependence
2 2 2 2
2 2 2 2 ( , , ) ( , , ) ( , , )8
h V x y z x y z E x y zm x y z
ψ ψπ
− ∂ ∂ ∂+ + + = ∂ ∂ ∂
- For a hydrogen atom, V(r) = Coulomb potential energy
the isotropic symmetry
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General Chemistry I
Energy Levels195
Solutions of the Schrödinger equation
𝑬𝑬 = 𝑬𝑬𝒏𝒏 = − 𝒁𝒁𝟐𝟐𝒆𝒆𝟒𝟒𝒎𝒎𝒆𝒆
𝟖𝟖𝜺𝜺𝟎𝟎𝟐𝟐𝒏𝒏𝟐𝟐𝒉𝒉𝟐𝟐
𝒏𝒏 = 1, 2, 3, …
𝑬𝑬𝒏𝒏 = −𝒁𝒁𝟐𝟐
𝒏𝒏𝟐𝟐(rydberg) 𝒏𝒏 = 1, 2, 3, …
1 rydberg = 2.18×10-18 J
Principal quantum number n: indexing the individual energy levels.
No angular dependence due to the isotropic symmetry
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General Chemistry I
Wave Functions197
𝝍𝝍𝓷𝓷ℓ𝓶𝓶 𝒓𝒓,𝜽𝜽,𝝓𝝓 = 𝑹𝑹𝓷𝓷ℓ 𝒓𝒓 𝐘𝐘ℓ𝓶𝓶(𝜽𝜽,𝝓𝝓)
radial part angular part: spherical harmonics
- The physically significant quantity, 𝝍𝝍2, is the probability density for locating theelectron at a particular point in the atom.
(𝝍𝝍𝓷𝓷ℓ𝓶𝓶)𝟐𝟐𝒅𝒅𝒅𝒅 = 𝑹𝑹𝓷𝓷ℓ 𝒓𝒓 𝟐𝟐 𝐘𝐘ℓ𝓶𝓶 𝜽𝜽,𝝓𝝓 𝟐𝟐𝐝𝐝𝐝𝐝
𝑑𝑑𝑑𝑑 = 𝑟𝑟2 sin𝜃𝜃𝑑𝑑𝑟𝑟𝑑𝑑𝜃𝜃𝑑𝑑𝜙𝜙
However, the wave function has angular dependence
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General Chemistry I
Quantization of the Angular Momentums196
Angular momentum quantum number ℓ : from the quantization of L2
any integral value from 0 to n-1
𝑳𝑳𝟐𝟐 = ℓ(ℓ + 𝟏𝟏) 𝒉𝒉𝟐𝟐
𝟒𝟒𝝅𝝅𝟐𝟐 ℓ = 0, 1, …, n-1
0 1 2 3s p d f orbitals
Magnetic quantum number 𝓶𝓶 : from the quantization of Lz
𝑳𝑳𝒛𝒛 = 𝓶𝓶 𝒉𝒉𝟐𝟐𝝅𝝅
𝓶𝓶 = −ℓ, −ℓ + 𝟏𝟏, …, ℓ − 𝟏𝟏, ℓ
i.e.) 𝓃𝓃 = 1, ℓ = 0 : 1s state; 𝓃𝓃 = 4, ℓ = 3 : 4f state;
# 𝑜𝑜𝑜𝑜𝓂𝓂 = 2ℓ + 1
value of ℓorbital type
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General Chemistry I
For n = 1 (the ground state), (ℓ = 0, 𝓂𝓂 = 0)
For n = 2, 𝓃𝓃2 = 4 allowed sets(ℓ = 0, 𝓂𝓂 = 0), (ℓ = 1, 𝓂𝓂 = 1), (ℓ = 1, 𝓂𝓂 = 0), (ℓ = 1, 𝓂𝓂 = -1)
For every value of n, n2 sets of quantum numbers
196
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General Chemistry I
Each set (𝓃𝓃, ℓ, 𝓂𝓂) identifies a specific quantum state of the atom.
A total of 𝓃𝓃2 specific quantum statescorrespond to the single En.
This set of state is to be degenerate.
197
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General Chemistry I
Orbital198
A wave function 𝜓𝜓𝓃𝓃ℓ𝓂𝓂 𝑟𝑟, 𝜃𝜃,𝜙𝜙 for a one-electron atom in the state(𝓃𝓃, ℓ, 𝓂𝓂) is called an orbital.
EXAMPLE 5.1
Give the names of all the orbitals with 𝓃𝓃 = 4, and state how many 𝓂𝓂values correspond to each type of orbital.
𝓃𝓃 = 4 ℓ = 0 4sℓ = 1 4pℓ = 2 4dℓ = 3 4f
# of 𝓂𝓂 = 1 # of 𝓂𝓂 = 3 # of 𝓂𝓂 = 5 # of 𝓂𝓂 = 7
total 𝓃𝓃2 = 16 orbitals
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General Chemistry I
199
wave function
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General Chemistry I
Sizes and Shapes of Orbitals200
Graphical representation of the orbitals
1) Slicing up 3D space into various 2D and 1D regions and examining the value of wave function at each point.
𝝍𝝍𝓷𝓷ℓ𝓶𝓶 𝒓𝒓,𝜽𝜽,𝝓𝝓 = 𝑹𝑹𝓷𝓷ℓ 𝒓𝒓 𝐘𝐘ℓ𝓶𝓶(𝜽𝜽,𝝓𝝓)
- Three spatial dimensions 𝒓𝒓,𝜽𝜽,𝝓𝝓 with the value of wave function.
𝝍𝝍𝟏𝟏𝟎𝟎𝟎𝟎 𝒓𝒓,𝜽𝜽,𝝓𝝓
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General Chemistry I
2002) Looking only at the radial behavior. “vertical slice”
𝝍𝝍𝟏𝟏𝟎𝟎𝟎𝟎 𝒓𝒓,𝜽𝜽,𝝓𝝓
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General Chemistry I
- 𝜓𝜓𝓃𝓃ℓ𝓂𝓂 2, probability density of finding the electron in a small volumeelement dV
201
[𝑹𝑹𝟏𝟏𝟎𝟎𝟎𝟎 𝒓𝒓 ]2
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General Chemistry I
s orbitals201
s orbital:
𝝍𝝍𝓷𝓷ℓ𝓶𝓶 with ℓ = 0𝓂𝓂 = 0
constant Y
All s orbitals arespherically symmetric.
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General Chemistry I
a function of r only* spherically symmetric* exponential decaying* no nodes
- 1s (n = 1, ℓ = 0, m = 0) → R10(r) and Y00(θ,Ф)
- 2s (n = 2, ℓ = 0, m = 0)
zero at r = 2a0 = 1.06Å nodal sphere or radial node [r<2ao: Ψ>0, positive] [r>2ao: Ψ<0, negative]
201
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General Chemistry I
203isosurface1s
2s3s
wave function
radialprobability
density
A surface of pointswith the same value
of wave functions
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General Chemistry I
p orbitals204
p orbitals: Yℓ𝓂𝓂(𝜃𝜃,𝜙𝜙) has separate lobes withpositive and negative phase, witha node between them.
- n = 2, ℓ =1, m = 0 → 2p0 orbital : R21 Y10
· Ф = 0 → cylindrical symmetry about the z-axis· R21(r) → r/a0 no radial nodes except at the origin· cos θ → angular node at θ = 90o, x-y nodal plane· r cos θ → z-axis 2p0 → labeled as 2pz
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General Chemistry I
(real functions using Euler’s formula)
- n = 2, ℓ = 1, m = ±1 → 2p+1 and 2p-1
· Y11(θ,Ф) → e±iФ = cosФ ± i sinФ ← Euler’s formula was used · taking linear combinationstwo real orbitals → constructed 2px and 2py
- px and py differ from pz only in the angular factors (orientations).
204
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General Chemistry I
𝑹𝑹𝓷𝓷ℓ 𝒓𝒓205
𝓷𝓷− ℓ − 𝟏𝟏 radial nodes
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General Chemistry I
𝝍𝝍𝓷𝓷ℓ𝓶𝓶 = 𝑹𝑹𝓷𝓷ℓ𝐘𝐘ℓ𝓶𝓶𝝍𝝍𝟐𝟐𝟐𝟐𝒛𝒛 = 𝑹𝑹𝟐𝟐𝟏𝟏𝐘𝐘𝟐𝟐𝟐𝟐𝒛𝒛
206
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General Chemistry I
d orbitals207
d-orbitals
ℓ = 2 & 𝓂𝓂 = 0: 𝒅𝒅𝒛𝒛𝟐𝟐ℓ = 2 & linear combination of 𝓂𝓂 = +2, +1, -1, -2 𝒅𝒅𝒙𝒙𝒙𝒙,𝒅𝒅𝒙𝒙𝒛𝒛,𝒅𝒅𝒙𝒙𝒛𝒛,𝒅𝒅𝒙𝒙𝟐𝟐−𝒙𝒙𝟐𝟐
- Each d orbital has two angular nodes.i.e.) 𝑑𝑑𝑥𝑥𝑥𝑥 orbital: nodal surfaces of the xz
and yz planes
- The radial functions, 𝑹𝑹𝓷𝓷𝟐𝟐 𝒓𝒓 , have n - 3 radial nodes, giving n - 1 total nodes.
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General Chemistry I
207
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General Chemistry I
Orbital Shapes and Sizes207
1. For a given value of ℓ, and increase in 𝓷𝓷 leads to an increase in theaverage distance of the electron from the nucleus, and therefore inthe size of the orbital.
2. An orbital with quantum numbers 𝓃𝓃 and ℓ has ℓ angular nodes and𝓷𝓷− ℓ − 𝟏𝟏 radial nodes, giving a total of 𝓷𝓷 – 1 nodes. An angular node isdefined by a plane. A radial node is defined by a spherical surface. Fora one-electron atom or ion, the energy depends only on the number ofnodes - that is, on 𝓃𝓃 but not ℓ or 𝓂𝓂. The energy increases as thenumber of nodes increases.
3. As 𝒓𝒓 approaches 0, 𝝍𝝍𝓷𝓷ℓ𝓶𝓶 𝒓𝒓,𝜽𝜽,𝝓𝝓 vanishes for all orbitals excepts orbitals; thus, only an electron in an s orbital can “penetrate to thenucleus,” that is, have a finite probability of being found right at thenucleus.
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General Chemistry I
The average value of the distance of the electron from the nucleusin that orbital, �𝒓𝒓𝓷𝓷ℓ
�𝒓𝒓𝓷𝓷ℓ = 𝒏𝒏𝟐𝟐𝒂𝒂𝟎𝟎𝒁𝒁
𝟏𝟏 + 𝟏𝟏𝟐𝟐𝟏𝟏 − ℓ(ℓ+𝟏𝟏)
𝒏𝒏𝟐𝟐
208
�𝒓𝒓𝓷𝓷ℓ
�𝒓𝒓𝓷𝓷ℓ
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General Chemistry I
Electron Spin
- An electron has two spin states, as ↑(up) and ↓(down), or a and b.
ms, spin magnetic quantum number
- the values of ms, only +1/2 and -1/2
210
- discovered by Stern and Gerlach experiment (1926)
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General Chemistry I
5.2 SHELL MODEL FOR MANY-ELECTRON ATOMS
210
- In many-electron atoms, Coulomb potential energy equals the sum ofnucleus-electron attractions and electron-electron repulsions.
- No exact solutions of Schrödinger equation
- In a helium atom,
r1 = the distance ofelectron 1 fromthe nucleus
r2 = the distance ofelectron 2 fromthe nucleus
r12 = the distancebetween thetwo electrons
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General Chemistry I
The Shell Model of the Atom82
For Li with Z = 3,
V = 𝑍𝑍𝑍𝑍2
4𝜋𝜋𝜋𝜋0− 1𝑟𝑟1− 1
𝑟𝑟2− 1
𝑟𝑟3+ 𝑍𝑍2
4𝜋𝜋𝜋𝜋0
1𝑟𝑟12
+ 1𝑟𝑟13
+ 1𝑟𝑟23
Effective potential energyTaking into account both the attractiveelectron-nuclear forces and the averageof the repulsive force among the electrons.
Veff(r) = - 𝑍𝑍𝑍𝑍𝑒𝑒𝑒𝑒𝑍𝑍2
4𝜋𝜋𝜋𝜋0𝑟𝑟
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General Chemistry I
Shielding Effects213
- Energy-level diagrams for many-electron atoms
1) The degeneracy of the p, d, and f orbitals is removed, due tothe non-isotropic potential angular dependency
The energy levels depend on both 𝓃𝓃 and ℓ
2) Energy values are distinctly shifted from the values of correspondingH orbitals due to the strong attraction by nuclei with Z > 1.
- Each electron attracted by the nucleus, and repelled by the otherelectrons.
→ shielded from the full nuclear attraction by the other electrons.
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General Chemistry I
215
𝝐𝝐𝒏𝒏𝒏𝒏 < 𝝐𝝐𝒏𝒏𝟐𝟐 < 𝝐𝝐𝒏𝒏𝒅𝒅
𝑬𝑬𝒏𝒏 = −𝒁𝒁𝒆𝒆𝒆𝒆𝒆𝒆𝟐𝟐
𝒏𝒏𝟐𝟐
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General Chemistry I
5.3 AUFBAU PRINCIPLE AND ELECTRON CONFIGURATIONS
215
Electronic configuration of the atoma list of all its occupied orbitals, with the numbers of electrons that eachone contains.i.e. Li: 1s2 2s1
Pauli exclusion principle
No two electrons in an atom can have the same set of four quantumnumbers, (𝓃𝓃, ℓ, 𝓂𝓂, 𝓂𝓂𝑠𝑠).
or
Each atomic orbital with (𝓃𝓃, ℓ, 𝓂𝓂) holds at most twoelectrons, one with spin up and the other with spin down.
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General Chemistry I
Hund’s rule
When electrons are added to orbitals of equal energy,a single electron enters each orbital before a second one entersany orbital.In addition, the lowest energy configuration is the one with parallelspins.
H, 1s1
He, 1s2
Li, 1s22s1 or [He]2s1
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General Chemistry I
Be, 1s22s2 or [He]2s2
B, 1s22s22p1 or [He]2s22p1
C, 1s22s22p2 or [He]2s22p2
parallel spinsby Hund’s rule→ 1s22s22px
12py1
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General Chemistry I
Magnetic properties for a test of electronic configurations
- paramagnetic: a substance attracted into a magnetic fieldwith one or more unpaired electrons
- diamagnetic: a substance pushed out of a magnetic fieldwith all electrons paired
i.e.) paramagnetic: H, Li, B, Cdiamagnetic: He, Be
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C
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General Chemistry I
- Elements in Period 2 (from Li to Ne), the valence shell with n = 2.
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- p-block elements: B to Ne, filling of p orbitals
s-block elements: H to Be, filling of s orbitals
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General Chemistry I
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General Chemistry I
n = 3: Na, [He]2s22p63s1 or [Ne]3s1 to Ar, [Ne]3s23p6
n = 4: from Sc (scandium, Z = 21) to Zn (zinc, Z = 30)the next 10 electrons enter the 3d-orbitals. d-block elements
The (n+ℓ) ruleOrder of filling subshells in neutral atoms isdetermined by filling those with the lowestvalues of (n+ℓ) first. Subshells in a group withthe same value of (n+ℓ) are filled in the orderof increasing n, due to the orbital screening.
order: 1s < 2s < 2p < 3s < 3p < 4s < 3d< 4p < 5s < 4d < …
n = 5: 5s-electrons followed by the 4d-electrons
n = 6: Ce (cerium, [Xe]4f15d16s2)
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General Chemistry I
Anomalous ConfigurationsExceptions to the Aufbau principle
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General Chemistry I
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General Chemistry I
All atoms in a given period have the same type of core with the same n.
All atoms in a given group have analogous valance electron configurationsthat differ only in the value of n.
Period 2
Period 3Period 4
Group 1 Group 18/VIII
Period 5
Period 6
Period 7
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General Chemistry I
5.4 SHELLS AND THE PERIODIC TABLE: PHOTOELECTRON SPECTROSCOPY
220
A shell is defined precisely as a set of orbitals that have the sameprincipal quantum number.
Photoelectron spectroscopy (PES)determining the energy level of each orbital by measuring theionization energy required to remove each electron from the atom
𝐈𝐈𝐈𝐈 = 𝐡𝐡𝝂𝝂 − 𝟏𝟏𝟐𝟐𝒎𝒎𝒆𝒆𝒗𝒗𝒆𝒆𝒆𝒆𝒆𝒆𝒆𝒆𝒆𝒆𝒓𝒓𝒆𝒆𝒏𝒏𝟐𝟐
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General Chemistry I
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General Chemistry I
- For Ne excited by X-rays with 𝜈𝜈 = 9.890 × 10-10 m,
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General Chemistry I
- Koopmans’s approximation,
𝑰𝑰𝑬𝑬𝜶𝜶 = −𝝐𝝐𝜶𝜶
- with the frozen orbitalapproximation
The orbital energies are the samein the ion, despite the loss of an e-.
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i.e.) for Ne with 1s2 2s2 2p6
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General Chemistry I
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General Chemistry I
5.5 PERIODIC PROPERTIES AND ELECTRONIC STRUCTURE
224
Atomic radius: defined as half the distance between the centers ofneighboring atoms
- r decreases from left to right acrossa period(effective nuclear charge increases)
- r increases from top to bottom downa group(change in n and size of valence shell)
General trends
Ionic radius: its share of the distance between neighboring ions in anionic solid
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General Chemistry I
225
- The rate of increase changesconsiderably.
i.e.) Li+ ,Na+, to K+
substantial changeto Rb+, Cs+
small change due tofilling d-orbitals
Lanthanide contraction
filling of the 4f orbitals
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General Chemistry I
225
Molar volumes (cm3 mol-1) of atoms in the solid phase
= size of the atoms + geometry of the bonding
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General Chemistry I
Periodic Trends in Ionization Energies226
From He to Li, a large reduction in IE1
2s e- father than 1s e-, and 2s e- seesa net +1 charge
From Be to B, slight reduction in IE1
fifth e- in a higher energy 2p orbital
From N to O, slight reduction in IE1
2 e- in the same 2p orbital leading togreater repulsion
From left to right, generally increase in IE1 due to the increase of Zeff
From top to bottom, generally decrease in IE1 due to the increase of n
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General Chemistry I
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General Chemistry I
Electron Affinity
(kJ mol-1)
- The periodic trends in EA parallel those in IE1 with one unit lower shifti.e. ) F to F-, large EA because of its closed-shell configuration
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General Chemistry I
Key question 1: what is the quantum mechanical atomic model?
Key question 2: what is the origin of the periodicity of atomic properties?
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General Chemistry I
Comparison of atomic models
(A) The Classical Model (B) Bohr’s Model (C) The Quantum Mechanics Model
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General Chemistry I
Problem Sets
For Chapter 5,
6, 18, 22, 28, 32, 46, 48, 56