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Electron Configurations and the Periodic Table

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Title: Electron Configurations and the Periodic Table


1
Electron Configurations and the Periodic Table
  • Chapter 3 Section 2

2
Electron Configurations
  • Electron configuration the arrangement of
    electrons in an atom
  • The most important of these electrons are the
    valence electrons or outermost electrons.

3
Valence Electrons
  • The number of valence electrons for all
    representative elements is determined by the
    number of the group in which the atom is found.
  • Examples
  • Hydrogen - Group IA or 1
  • 1 valence electron.
  • Fluorine Group VIIA or 17
  • 7 valence electrons

4
NOW YOU TRY!
  • How many valence electrons do the following
    elements contain?
  • A. Lithium
  • B. Carbon
  • C. Aluminum
  • D. Sulfur
  • E. Krypton

1
4
3
6
8
5
So, who cares?
  • Valence electrons are important because they
    determine how atoms interact with each other to
    form compounds!

6
Arrangement of Electrons in Atoms according to
the Quantum Mechanical Model
  • Electrons in atoms are arranged as
  • ENERGY LEVELS
  • SUBLEVELS
  • ORBITALS

7
Energy Levels
  • Think of the energy level as the relative
    distance from the nucleus. Currently, all
    electrons for known elements will occupy the
    first seven levels, but there is a possibility of
    infinite levels.

1
2
3
8
Sublevels AKA Subshells
  • The sublevels are named s, p, d, and f and are
    listed in increasing energy.
  • We specify both the energy level and sublevel
    when describing an electron, i.e. 1s, 2s, 2p.

9
Determining the number of sublevels
  • The first energy level has 1 sublevel 1s.
  • The second energy level has 2 sublevels 2s and
    2p.
  • How many sublevels exist on the 3rd energy level?
  • What would they be called?

3
3s, 3p, 3d
10
Orbitals
Orbital a specific region of a sublevel
containing a maximum of 2 electrons.
  • The p sublevel has 3 orbitals.
  • They are called px, py, and pz.

The s sublevel has 1 orbital.
The d sublevel has 5 orbitals.
The f sublevel has 7 orbitals.
11
Shapes of Orbitals
Typical s orbital (sphere)
(peanut)
(double peanut)
Typical f orbital (flower)
12
How many electrons can be in a sublevel?
Remember A maximum of two electrons can be
placed in an orbital.
s sublevel
d sublevel
p sublevel
f sublevel
Number of orbitals
1
3
5
7
Number of electrons
6
10
14
2
13
Aufbau Principle
  • An electron occupies the lowest-energy orbital
    that can receive it.
  • This guides how electron configurations are
    written.

14
Rules to Remember when Writing Electron
Configurations
  • Obtain the number of total electrons from the
    periodic table.
  • Electrons occupy the lowest energy orbitals
    first.
  • Each energy level (n) only contains n sublevels.
  • The s sublevel holds 2 e-, the p 6 e-, the d 10
    e-, and the f 14 e-.
  • Follow the filling pattern only moving once each
    sublevel is full.

15
Filling Pattern
16
Periodic Table Method Steps
  • Find the element for which you are writing the
    configuration.
  • Starting with Hydrogen, write down the energy
    level and sublevel.
  • Count the boxes in the sublevel and add it as a
    superscript.
  • Continue moving through the sublevels until you
    reach your destination.

17
Electron Configurations
  • 3d7

Number of electrons in the sublevel
Energy Level
Sublevel
1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p6 5s2 4d10 5p6 6s2
4f14 etc.
18
Lets Try It!
  • Write the electron configuration for the
    following elements
  • H
  • C
  • N
  • Br
  • S

19
Lets Try It!
  • Write the electron configuration for the
    following elements
  • H 1s1
  • C 1s2 2s22p2
  • N 1s2 2s22p3
  • Br 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p5
  • S 1s2 2s2 2p6 3s2 3p4

20
Noble Gas Notation
  • A way of abbreviating long electron
    configurations
  • Since we are only concerned about the outermost
    electrons, we can skip to places we know are
    completely full (noble gases), and then finish
    the configuration

21
Noble Gas Notation
  • Step 1 Find the closest noble gas to the atom,
    WITHOUT GOING OVER the number of electrons in the
    atom. Write the noble gas in brackets .
  • Step 2 Find where to resume by finding the next
    energy level (row in periodic table).
  • Step 3 Resume the configuration starting with
    ns2 where n is the next level

22
Noble Gas Notation
  • Chlorine
  • Longhand is 1s2 2s2 2p6 3s2 3p5
  • You can abbreviate the first 10 electrons with a
    noble gas, Neon. Ne replaces 1s2 2s2 2p6
  • The next energy level after Neon is 3
  • So you start at level 3 on the diagonal rule (all
    levels start with s) and finish the configuration
    by adding 7 more electrons to bring the total to
    17
  • Ne 3s2 3p5

23
Practice Noble Gas Notation
  • Write the noble gas notation for each of the
    following atoms
  • Cl
  • P
  • O
  • I

24
Practice Noble Gas Notation
  • Write the noble gas notation for each of the
    following atoms
  • Cl Ne3s2 3p5
  • P Ne3s2 3p3
  • O He2s22p4
  • I Kr5s2 4d10 5p5
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