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Classwork:Standard: 2eterms: 135Article: 136Mastering concept: 146(57-64)Practice Problems: 139(18-22), 141(23)
Homework: Cornell notes: 5.3sec. assessment: 141(24-26)
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Section 5-3Section 5.3 Electron Configuration
Apply the Pauli exclusion principle, the aufbau principle, and Hund's rule to write electron configurations using orbital diagrams and electron configuration notation.
electron: a negatively charged, fast-moving particle with an extremely small mass that is found in all forms of matter and moves through the empty space surrounding an atom's nucleus
Define valence electrons, and draw electron-dot structures representing an atom's valence electrons.
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Section 5-3Section 5.3 Electron Configuration (cont.)
electron configurationaufbau principlePauli exclusion principleHund's rulevalence electronselectron-dot structure
A set of three rules determines the arrangement in an atom.
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Section 5-3Ground-State Electron Configuration
The arrangement of electrons in the atom is called the electron configuration.
The aufbau principle states that each electron occupies the lowest energy orbital available.
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Section 5-3Ground-State Electron Configuration (cont.)
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Section 5-3Ground-State Electron Configuration (cont.)
The Pauli exclusion principle states that a maximum of two electrons can occupy a single orbital, but only if the electrons have opposite spins.
Hund’s rule states that single electrons with the same spin must occupy each equal-energy orbital before additional electrons with opposite spins can occupy the same energy level orbitals.
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Section 5-3Ground-State Electron Configuration (cont.)
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Section 5-3Ground-State Electron Configuration (cont.)
Noble gas notation uses noble gas symbols in brackets to shorten inner electron configurations of other elements.
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Section 5-3Ground-State Electron Configuration (cont.)
The electron configurations (for chromium, copper, and several other elements) reflect the increased stability of half-filled and filled sets of s and d orbitals.
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Section 5-3Valence Electrons
Valence electrons are defined as electrons in the atom’s outermost orbitals—those associated with the atom’s highest principal energy level.
Electron-dot structure consists of the element’s symbol representing the nucleus, surrounded by dots representing the element’s valence electrons.
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Section 5-3Valence Electrons (cont.)
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Electron Configuration Rules• Aufbau: electrons fill lowest Energy level 1st
• Pauli: only 2 electrons may share an atomic orbital, and only when they have opposite spins
• Hunds: single electrons with the same spin must occupy each equal energy orbital before additional electrons with opposite spins can enter the same orbitals
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Sub-shell #Orbits # Electronss 1 2p 3 6d 5 10f 7 14
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Mastering Concepts: 146(57-64)
Electron Configurations
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57. Explain the meaning of the aufbau principle as it applies to atoms with many electrons. (5.3)
The aufbau principle describes the sequence in which an atom’s orbitals are filled with electrons.
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58. In what sequence do electrons fill the atomic orbitals related to a sublevel? (5.3)
Each orbital must contain a single electron before any orbital contains two electrons.
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59. Why must the two arrows within a single block of an orbital diagram be written in opposite (up and down) directions? (5.3)
Two electrons occupying a single atomic orbital must have opposite spins.
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60. How does noble-gas notation shorten the process of writing an element’s electron configuration? (5.3)
The noble-gas notation uses the bracketed symbol of the preceding noble gas in the periodic table to represent an atom’s inner electrons.
S1
1 2 Ne3 Na4
[Ne] 3S1
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61. What are valence electrons? Valence electrons are the electrons in an atom’s outermost orbitals
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Valence Electrons
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61. How many of a magnesium atom’s 12 electrons are valence electrons? (5.3)
2
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62. Light is said to have a dual wave-particle nature. What does this statement mean? (5.3)
Light exhibits wavelike behavior in some situations and particlelike behavior in others.
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63. Describe the difference between a quantum and a photon. (5.3)
A quantum is the minimum amount of energy that can be lost or gained by an atom, while a photon is a particle of light that carries a quantum of energy.
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64. How many electrons are shown in the electron-dot structures of the following elements? (5.3)
a. Carbon4
b. Iodine7
c. Calcium 2d. Gallium3
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neon's electron configuration (1s22s22p6)
Shorthand Configuration
[Ne] 3s1third energy level
one electron in the s orbital
orbital shape
Na = [1s22s22p6] 3s1 electron configuration
A
B
C
D
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Practice Problems: 139 (18-22)
18. Write ground state electron configurations for the following elements.
a. Bromine (Br)b. Strontium (Sr)c. Antimony (Sb)d. Rhenium (Re)e. Terbium (Tb)f. Titanium (Ti)
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Practice Problems: 139 (18-22)
18. Write ground state electron configurations for the following elements.
a. Bromine (Br)
• bromine (35 electrons): [Ar]4s23d104p5
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Practice Problems: 139 (18-22)
18. Write ground state electron configurations for the following elements.
b.Strontium (Sr)
strontium (38 electrons): [Kr]5s2
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Practice Problems: 139 (18-22)
18. Write ground state electron configurations for the following elements.
c. Antimony (Sb)
antimony (51 electrons): [Kr]5s24d105p3
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Practice Problems: 139 (18-22)
18. Write ground state electron configurations for the following elements.
d. Rhenium (Re)
rhenium (75 electrons): [Xe]6s24f145d5
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Practice Problems: 139 (18-22)
18. Write ground state electron configurations for the following elements.
e. Terbium (Tb)
terbium (65 electrons): [Xe]6s24f9
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Practice Problems: 139 (18-22)
18. Write ground state electron configurations for the following elements.
f. Titanium (Ti)
titanium (22 electrons): [Ar]4s23d2
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Practice Problems: 139 (18-22)
19. How many electrons are in orbitals related to the third energy level of a sulfur atom?
20. How many electrons occupy p orbitals in a chlorine atom?
21. What element has the following ground state electron configuration? [Kr]5s24d105p1
22. What element has the following ground state electron configuration? [Xe]6s2
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Practice Problems: 139 (18-22)
19. How many electrons are in orbitals related to the third energy level of a sulfur atom?
Sulfur (16 electrons) has the
electron configuration [Ne]3s23p4.
6 electrons are in orbitals related to the third energy level of the sulfur atom.
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Practice Problems: 139 (18-22)
20. How many electrons occupy p orbitals in a chlorine atom?
Chlorine (17 electrons) has the electron configuration [Ne]3s23p5, or 1s22s22p63s23p5.
11 electrons occupy p orbitals in a chlorine atom.
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Practice Problems: 139 (18-22)
21. What element has the following ground state electron configuration? [Kr]5s24d105p1
indium (In)
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Practice Problems: 139 (18-22)
22. What element has the following ground state electron configuration? [Xe]6s2
barium (Ba)
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Practice Problems: 141(23)
23. Draw electron dot structures for atoms of the following elements.
a. Magnesiumb. Sulfurc. Bromined. Rubidiume. Thalliumf. Xenon
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Practice Problems: 141(23)a. Magnesium
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Practice Problems: 141(23)
23. Draw electron dot structures for atoms of the following elements.
a. Magnesium
. Mg .46
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Practice Problems: 141(23)B. Sulfur
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Practice Problems: 141(23)
23. Draw electron dot structures for atoms of the following elements.
B. Sulfur
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Practice Problems: 141(23)C. Bromine
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Practice Problems: 141(23)
23. Draw electron dot structures for atoms of the following elements.
C. Bromine
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Practice Problems: 141(23)d. Rubidium
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Practice Problems: 141(23)
23. Draw electron dot structures for atoms of the following elements.
d. Rubidium
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Practice Problems: 141(23)E. Thallium
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Practice Problems: 141(23)
23. Draw electron dot structures for atoms of the following elements.
E. Thallium
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Practice Problems: 141(23)F. Xenon
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Practice Problems: 141(23)
23. Draw electron dot structures for atoms of the following elements.
F. Xenon
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• write e configuration of K & Ar and compare–same except (K) has extra 4s1
• Why Ar is stable?–It is a noble gas and has 8e.
• How K can achieve noble gas configuration
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