CH.6 - ELECTRONIC STRUCTURE AND PERIODIC PROPERTIES OF...
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CHEMISTRY - OPENSTAX 2015E
CH.6 - ELECTRONIC STRUCTURE AND PERIODIC PROPERTIES OF ELEMENTS INTRODUCTION
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CONCEPT: THE NATURE OF LIGHT
Visible light represents a small portion of the continuum of radiant energy known as _______________________________.
The visible light spectrum ranges from ______________ to ______________ .
Its wave properties of electromagnetic radiation are described by two independent variables:
_________ (ν, Greek mu) is the number of waves you have per second and is expressed in units of ______ or ________.
__________ (λ, Greek lambda) is the distance from one crest of a wave to the other and is expressed in units of _______.
Relationship between frequency & wavelength
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PRACTICE: THE NATURE OF LIGHT
A. Based on the images of different electromagnetic waves, answer each of the following questions.
I. II.
III.
a) Which electromagnetic wave has the longest wavelength?
b) Which electromagnetic wave has the greatest energy?
c) Which electromagnetic wave has the lowest frequency?
d) Which electromagnetic wave has the largest amplitude?
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CONCEPT: INTERCONVERSION OF LIGHT UNITS
The speed of a wave, is the product of ν and λ. In a vacuum, all forms of electromagnetic radiation travel at 3.00 x 108 ,
which is a physical constant called the _________________________________ (c).
c = ν · λ
EXAMPLE: Even the music we listen to deals with how energy travels to get to our car radio. If Power 96 broadcasts its
music at 96.5 MHz (megahertz, or 106 Hertz) find the wavelength in μm and Ao
of the radio waves.
PRACTICE: Calculate the frequency of the red light emitted by a neon sign with a wavelength of 663.8 nm.
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CONCEPT: ENERGY AND MATTER
Light travels at different speeds as it passes through different media in a phenomenon known as _____________________.
Light passing through the opening of a slit creates a semicircular wave in a phenomenon known as ___________________.
If the light wave passes through two adjacent slits then the semicircular waves can interact with one another .
• ___________________ inteference ______ amplitude. � ___________________ inteference ______ amplitude.
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CONCEPT: THE PARTICLE NATURE OF LIGHT
The physicists Max Planck and Albert Einstein theorized that light was made of small “packets” of electromagnetic energy.
• Each “packet” of energy referred to as a ________________ .
• The energy could be expressed with the following equation: ∆E = hv
_____________________ constant is represented by the variable of h and is equal to 6.626 x 10-34 J · s.
EXAMPLE: After a night out last Halloween dressed up as Charlie Sheen I came home and microwaved some day old
pizza. If the microwave I used emitted a wavelength of 3.25 cm, answer the following questions.
a) What is the energy of one photon of this microwave radiation?
b) What is the energy of one mole of this photon?
PRACTICE: Rank the following in terms of decreasing energy: Gamma energy, visible light 1 (∆E = 4.39 x 10-19 J),
microwave and visible light 2 (λ = 595 nm).
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CONCEPT: THE PHOTOELECTRIC EFFECT
Albert Einstein theorized that light was quantized into small “packets” or “bundles” of energy.
• A single particle of this quantized “packet” of electromagnetic energy was later named a ________________.
According to the Photoelectric effect, when photons with enough energy hit the surface of a metal electrons are emitted.
– Energy is directly proportional to ____________________ rather than its ____________________.
– The Photoelectric Effect only happens with photons over a certain _______________ frequency.
EXAMPLE: Illustrate what happens when a photon of sufficient energy strike the surface of a metal.
Real-life Application:
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CONCEPT: THE WAVE NATURE OF LIGHT
Up to this point we have discussed light as “packets” or particles of energy that travel through a given space, now we will
look at light as it travels as a uniform wave through a given space.
According to the ______________________ equation matter behaves as though it moves in a wave. To calculate the
wavelength of matter we simply use the following equation:
EXAMPLE: Find the wavelength (in nm) of a proton with a speed of 7.33 x 109 . (Mass of an proton = 1.67 x 10-27 kg)
PRACTICE: What is the speed of an electron that has a wavelength of 895 μm? (Mass of a electron = 9.11 x 10-31 kg)
λ =hmν
λ =
h =
m =
ν =
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CONCEPT: HEISENBERG’S UNCERTAINTY PRINCIPLE
The nature of an electron is both unique and difficult to understand because it can behave as both a(n) _____________ and a(n) _____________.
• The _____________ of an electron is related to its wave nature, while its _____________ is related to its particle nature.
• Weiner Heisenberg introduced the term of _________________________ to describe how an electron could be observed as either a particle or wave, but not both.
• By extension we also couldn’t know both the _____________ or _____________ of an electron.
To illustrated this dual nature of an electron Heisenberg created his Uncertainty or Indeterminacy Principle and its associated formula:
Δx ⋅ Δp ≥ h4π
h =
Δx =
Δp =
EXAMPLE: An electron has an uncertainty in its position of 630 pm. What is the uncertainty in its velocity?
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CONCEPT: THE ATOMIC MODEL
An atom is composed of __________ subatomic particles.
In the center of an atom there is the ________________ .
• It contains the subatomic particles: _____________ and _____________.
• Spinning around it we find the third subatomic particle: the _____________.
• PROTONS are _________________ charged subatomic particles.
• ELECTRONS are _________________ charged subatomic particles.
• NEUTRONS are _________________ charged subatomic particles.
________ Model helped to explain what happened when an electron absorbed or released energy within a hydrogen atom.
After the hydrogen electron absorbed sufficient energy and becomes __________ it would jump to a higher energy level.
• Eventually it would return to its _____________________ and release the energy it absorbed as heat or light.
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PRACTICE: THE ATOMIC MODEL
EXAMPLE: Calculate the energy of the 4th electron found in the n = 2 state of the boron atom in kilojoules per mole.
PRACTICE 1: Which of the following transitions (in a hydrogen atom) represents emission of the longest wavelength?
a) n = 4 to n = 2 b) n = 3 to n= 4 c) n = 1 to n = 2 d) n = 6 to n = 5 e) n = 2 to n = 5
PRACTICE 2: Which of the following transitions represents absorption of a photon with the largest energy?
a) n = 3 to n = 1 b) n = 2 to n = 4 c) n = 1 to n = 2 d) n = 6 to n = 3 e) n = 1 to n = 4
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CONCEPT: ATOMIC EMISSION
When an electron absorbs enough energy it goes from a ___________ numbered shell to a ___________ numbered shell.
• The electron eventually releases or emits the energy it took in and goes from a ___________ numbered shell to a
___________ numbered shell.
If the electron goes from a higher numbered shell to the 1st shell it is referred to as a _____________________ Series.
1
∞
If the electron goes from a higher numbered shell to the 2nd shell it is referred to as a _____________________ Series.
2
∞
If the electron goes from a higher numbered shell to the 3rd shell it is referred to as a _____________________ Series.
3
∞
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PRACTICE: ATOMIC EMISSION
EXAMPLE: What is the wavelength of a photon (in nanometers) emitted during a transition from n = 4 to n = 2 state in the
hydrogen atom?
PRACTICE: Classify each of the following transitions as either a Lyman, Balmer or Paschen series.
a) n = 3 to n = 1 b) n = 6 to n = 1 c) n = 3 to n = 2 d) n = 6 to n = 3 e) n = 4 to n = 2
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CONCEPT: QUANTUM MECHANICAL PICTURE OF THE ATOM
The main atomic sub-levels are the s, p, d and f. Each atomic sub-level has a set number of atomic or electron orbitals.
Each electron orbital can hold up ________ electrons.
The s sub-level contains one electron orbital _______
The p sub-level contains three electron orbitals
_______ _______ _______
The d sub-level contains five electron orbitals
_______ _______ _______ _______ _______
The f sub-level contains seven electron orbitals
_______ _______ _______ _______ _______ _______ _______
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CONCEPT: QUANTUM NUMBERS OF AN ATOMIC MODEL
An atomic orbital is characterized by three quantum numbers.
The __________________ quantum number deals with the atomic orbital’s size and energy. It tells us the relative distance
of the electron from the nucleus. It uses the variable ___________ and provides the shell number of the electron.
EXAMPLE: Calculate the principal quantum number of each atomic sublevel.
a. 7p b. 5s c. 3d d. 4f
The electron capacity of each shell can be determined by using the formula: ____________________ .
Electron Shell (n) Maximum Number of Electrons
1
2
3
4
The _______________________ quantum number deals with the shape of the atomic orbital. Each atomic orbital has a
specific shape.
• It uses the variable ___________ and formula _______________________.
Each atomic sub-level has an L value associated with it.
Sublevel s p d f g
L value 0 1 2 3 4
The ________________________________ quantum number deals with the orientation of the orbital in the space around
the nucleus. It is a range of the previous quantum number: -l to +l. It uses the variable ___________.
Sublevel s p d f
L value 0 1 2 3
ML value
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PRACTICE: QUANTUM NUMBERS OF AN ATOMIC MODEL
EXAMPLE 1: What l or ml values are allowed if n = 2? How many orbitals exist for n = 2?
EXAMPLE 2: How many electrons can have the following quantum sets?
a) n = 4
b) n = 3, l = 1
c) n = 4, mL = -2
d) n = 5, l = 2, mL = -2
PRACTICE 1: Provide the n, l and ml value for each of the given orbitals.
a. 6p n = l = mL =
b. 4d n = l = mL =
c. 5f n = l = mL =
PRACTICE 2: State all the l and mLvalues possible if the principle quantum number is equal to 3.
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CONCEPT: ELECTRON CONFIGURATIONS
In this chapter we will focus on how an element’s ________________________________________ - the distribution of
electrons within the orbitals of its atoms – relates to its chemical and physical properties.
History Lesson: In 1870, Dmitri Mendeleev arranged 65 elements into a ___________________________________ .
• He summarized their behavior in the _______________________________.
• When arranged by atomic mass, the elements exhibit a periodic recurrence of similar properties.
The Electron Configuration
According to the _______________ Principle you first have to totally fill in the lowest energy level before moving to the next.
1s 2s 2p
1s 2s 2p
Hund’s Rule states that electron orbitals that are _______________________ are first half-filled before they are totally filled.
F (9 electrons)
1s2s$$$$$$2p3s$$$$$$3p$$$$$$3d4s$$$$$$4p$$$$$$4d$$$$$4f5s$$$$$$5p$$$$$$5d$$$$$5f$$$$$5g6s$$$$$$6p$$$$$$6d$$$$$6f$$$$$6g$$$$6h$7s$$$$$$7p$$$$$$7d$$$$$7f$$$$$7g$$$$7h
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CONCEPT: CONDENSED ELECTRON CONFIGURATION
EXAMPLE: Write the condensed configuration for each of the following elements:
a. Co (27 electrons)
b. Se (34 electrons)
PRACTICE: Write the condensed configuration for each of the following elements:
a. Ag (47 electrons)
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CONCEPT: INNER CORE & VALENCE ELECTRONS
EXAMPLE: How many core (inner) and valence electrons are present in each of the following elements?
a. P
b. Al
c. Mn
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CONCEPT: PARAMAGNETISM Vs. DIAMAGNETISM
EXAMPLE: Write the condensed electron configuration of each ion and state if the ion is paramagnetic or diamagnetic.
a. Ni3+
b. S2-
PRACTICE: Write the condensed electron configuration of each ion and state if the ion is paramagnetic or diamagnetic.
a. Cu+
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CONCEPT: EFFECTIVE NUCLEAR CHARGE & SLATER’S RULES
When looking at any particular electron within an atom it experiences two major forces.
• A(n) ________________ force from the nucleus and a(n) _______________ force from the surrounding electrons.
Now the electron can become shielded from the full force of the nucleus because of the other surrounding electrons.
• Effective Nuclear Charge (Zeff) measures the force exerted onto an electron by the nucleus, and can be calculated
using Slater’s Rules.
e-
e-
e-e-
e-
e-
e-
e-e-
e-
e-
Guidelines for Determining S for an electron: 1. The atom’s electronic configuration is grouped as follows, in terms of increasing n and l quantum numbers:
(1s) (2s,2p) (3s,3p) (3d) (4s,4p) (4d) (4f) (5s,5p) (5d) etc. 2. Electrons in groups to the right of a given electron do not shield electrons to the left. 3. The shielding constant S for electrons in certain groups. For ns and np valence electrons:
a) Each electron in the same group will contribute ______ to the S value. A 1s electron contributes ______ to the S value for another 1s electron.
b) Each electron in n – 1 group contributes ______ to the S value. c) Each electron in n – 2 group or greater contributes ______ to the S value. For nd and nf valence electrons: a) Each electron in the same group will contribute ______ to the S value. b) Each electron in groups to the left will contribute ______ to the S value.
EXAMPLE: Using Slater’s Rules calculate the effective nuclear charge of a 3p electron in argon.
Zeff = Z – S
Z = Nuclear Charge
S = Shielding Constant
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PRACTICE: EFFECTIVE NUCLEAR CHARGE & SLATER’S RULES 1
EXAMPLE 1: Using Slater’s Rules calculate the effective nuclear charge of the 4s electron in potassium.
EXAMPLE 2: Using Slater’s Rules calculate the effective nuclear charge of a 3d electron in bromine.
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CONCEPT: THE FOURTH QUANTUM NUMBER
An electron in an atom is described completely by a set of four quantum numbers.
• The first three describe its ____________________ and the fourth describes its ________________.
• The ____________ quantum number (mS) helps to discuss the rotational spin of the electron and has values of
either _________ and _________.
!
!
According to the _________________________________: no two electrons in the same atom can have the same four quantum numbers.
EXAMPLE: State the electron configuration of boron and list the four quantum numbers of the 1st and the 5th electron.
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CONCEPT: ATOMIC ORBITAL SHAPE The _______________________ quantum number deals with the shape of the atomic orbital. Each atomic orbital has a
specific shape.
• It uses the variable ___________ and formula _______________________.
Each atomic sub-level has an L value associated with it.
Sublevel s p d f g
L value 0 1 2 3 4
EXAMPLE: Based on the following atomic orbital shape, which of the following set of quantum numbers is correct:
a) n = 8, l = 1, ml = 12
b) n = 8, l = 2, ml = -2
c) n = 8, l = 0, ml = 1
d) n = 8, l = 0, ml = 0
PRACTICE: Based on the following atomic orbital shape, which of the following set of quantum numbers is correct:
a) n = 2, l = 1, ml = +1 , ms = - 1
b) n = 4, l = 1, ml = - 2 , ms = +12
c) n = 3, l = 1, ml = - 1, ms = 0
d) n = 2, l = 1, ml = + 1 , ms = – 12
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CONCEPT: TRENDS IN ATOMIC RADIUS
Atomic radius is defined as half the distance between the nuclei in a molecule of two identical elements.
• Generally, it ____________ going from left to right across a period and ______________ going down a group.
ATOMIC RADIUS
EXAMPLE: If the sum of the atomic radii of diatomic carbon is 154 pm and of diatomic chlorine is 198 pm, what is the sum
of the atomic radii between a carbon and a chlorine atom.
PRACTICE: Which one of the following atoms has the largest atomic radius?
A) K B) Rb C) Y D) Ca E) Sr
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CONCEPT: TRENDS IN IONIC RADIUS
Ionic Size estimates the size of an ion in an ionic compound.
__________________ (POSITIVE IONS) tend to be smaller than their parent atoms.
Lithium ( 3 Electrons)
1s 2s 1s 2s
__________________ (NEGATIVE IONS) tend to be larger than their parent atoms.
Fluorine ( 9 Electrons)
1s 2s 2p 1s 2s 2p
The pattern for ionic size correlates with the following trend when comparing ions with the same number of electrons:
-3 > -2 > -1 > 0 > +1 > +2 > +3
EXAMPLE: Rank each set of ions in order of increasing ionic size.
a) K+ , Ca2+, Ar
b) Sr2+, Na+, I –
c) V5+, S2-, Cl –
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CONCEPT: TRENDS IN IONIZATION ENERGY
Metals tend to lose electrons to become positive ions called ____________ .
• Therefore they have ____________ ionization energies.
Nonmetals tend to gain electrons to become negative ions called ___________ .
• Therefore they have ______________ ionization energies.
Ionization energy (IE) is the energy (in kJ) required to remove an electron from a gaseous atom or ion.
• Generally, it ________________ going from left to right of a period and ________________ going down a group.
Atom (g) ion+ (g) + e – ∆E = IE1 > 0
Exceptions:
• When in the same period, Group ______ elements have lower ionization energy than elements in Group ______ .
O 1s 2s 2p 1s 2s 2p
N 1s 2s 2p 1s 2s 2p
• When in the same period, Group ______ elements have lower ionization energy than elements in Group ______ .
B 1s 2s 2p 1s 2s 2p
Be 1s 2s 1s 2s
IONIZATION ENERGY
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PRACTICE: TRENDS IN IONIZATION ENERGY
EXAMPLE: Of the following atoms, which has the smallest second ionization energy?
a. Al b. Li c. Rb d. Mg e. Be
PRACTICE 1: Of the following atoms, which has the smallest third ionization energy?
a. Al b. Ca c. K d. Ga e. Cs
PRACTICE 2: Which of the following statements is/are true?
a. Sulfur has a larger IE1 than phosphorus
b. Boron has a lower IE1 than Magnesium
c. Magnesium has a higher IE1 than Aluminum
PRACTICE 3: Shown below are the numerical values for ionization energies (IE’s). Match the numerical values with each of
the following elements provided in the boxes.
Na Mg Al Si P S Cl Ar
Numbers: 496, 578, 738, 786, 1000, 1012, 1251 & 1521.
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CONCEPT: TRENDS IN ELECTRON AFFINITY
Electron Affinity (EA) is the energy change (in kJ) from the addition of 1 mole of e – to 1 mol of gaseous atoms or ions.
• Generally, it ________________ going from left to right across a period and ______________ going down a group.
Atom (g) + e – ion – (g) ∆E = - EA1
ELECTRON AFFINITY
EXAMPLE: Rank the following elements in order of increasing electron affinity.
a. Cs, Hg, F, S
b. Se, S, Si
PRACTICE: Shown below are the numerical values for electron affinities (EA’s). Match the numerical values with each of the following elements provided in the boxes.
Li Be B C N O F Ne
Numbers: - 328, -141, -122, -60, -27, > 0, > 0, > 0.
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8. Which of the following transitions (in a hydrogen atom) represent emission of the smallest or shortest wavelength?
a. n = 4 to n = 2
b. n = 3 to n= 4
c. n = 1 to n = 2
d. n = 7 to n = 5
e. n = 2 to n = 5
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9. Which of the following transitions represent absorption of a photon with the highest frequency? a. n = 3 to n = 1
b. n = 2 to n = 4
c. n = 1 to n =2
d. n = 6 to n = 3
e. n = 1 to n = 3
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10. Provide the n, l and ml value for each of the given orbitals. a) 7s n = b) 5d n =
l = l =
ml = ml =
c) 2p n = d) 4f n =
l = l =
ml = ml =
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11. Which statement about the four quantum numbers is false? a. n = principal quantum number, n = 1 to ∞
b. l = azimuthal quantum number, l = 0,1,2, . . ., (n+1)
c. mL = magnetic quantum number, mL = (-l), . . .,0,. . ., (+l)
d. ms = spin quantum number, ms = + 12or − 1
2
e. The first three quantum numbers deal with the atomic orbitals except for the ms quantum
number, which deals with the electrons in the atomic orbitals.
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12. Each of the following sets of quantum numbers gives information on a specific orbital. Find the error in each.
a. n = 4, l = 0 , ml = 1, ms = – 12
b. n = 5, l = 2 , ml = - 1, ms = 1
c. n = 7, l = 7, ml = - 5, ms = – 12
d. n = 0, l = 5, ml = - 3, ms = 12
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14. How many electrons can have the following quantum sets? a) n = 4, mL = -1
b) n = 5, mL = 0 , mS = – 12
c) n = 9, l = 4, mS = – 12
d) n = 2, mS = 12
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19. For n = 2, what are the possible sublevels? a) 0
b) 0, 1
c) 0, 1, 2
d) 0, 1,2, 3
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16. Based on the following atomic orbital shape, which of the following set of quantum numbers is correct:
a) n = 2, l = 1, ml = 0
b) n = 3, l = 2, ml = –1
c) n = 4, l = 0, ml = +1
d) n = 1, l = 1, ml = 0
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17. Based on the following atomic orbital shape, which of the following set of quantum numbers is correct:
a) n = 3, l = 2, ml = 0, ms = – 12
b) n = 3, l = 1, ml = - 3, ms = 1
c) n = 4, l = 0, ml = 0, ms = – 12
d) n = 4, l = 2, ml = - 3, ms = 12
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18. Based on the following atomic orbital shape, which of the following set of quantum numbers is correct:
a) n = 3, l = 3, ml = 0, ms = 12
b) n = 1, l = 3, ml = -3, ms = 1
c) n = 7, l = 3, ml = - 4, ms = – 12
d) n = 6, l = 3, ml = -3, ms = – 12
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25. Give the electron configuration for the following element and its ion. For the ion, state if it is paramagnetic or diamagnetic:
a. Ag
Ag+
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26. Give the electron configuration for the following element and its ion. For the ion, state if it is paramagnetic or diamagnetic:
a. Cl
Cl+
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27. Which of the following represents an “excited” state?
a) Cl: 1s22s22p63s23p5
b) Be: 1s22s2
c) Na: 1s22s2-2p63p1
d) N: 1s22s22p3
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28. Give the set of four quantum numbers that represent the indicated electron in the following element:
a. Br (33rd electron) n = , l = , ml = , ms =
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29. Give the set of four quantum numbers that represent the indicated electron in the following element:
a. Ca (19th electron) n = , l = , ml = , ms =
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30. Give the set of four quantum numbers that represent the indicated electron in the following element:
a. Cu (27th electron) n = , l = , ml = , ms =
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31. Give the set of four quantum numbers that represent the indicated electron in the following element:
a. Mo3+ (38th electron) n = , l = , ml = , ms =
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32. For a multi-electron atom, arrange the electron subshells of the following listing in order of increasing energy: 6s, 4f, 2p, 5d.
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