Presentation is loading. Please wait.

Presentation is loading. Please wait.

Electron Configurations

Published byMyron Norman Modified over 9 years ago

Similar presentations

Presentation on theme: "Electron Configurations"— Presentation transcript:

1 Electron Configurations

2 Energies in Relation to Periodic Table
4f Here is an expanded version of the periodic table. This version doesn’t fit well into book covers and isn’t a favorite amongst publishers because of that, however it’s the most useful for the filling in of energy levels and making electron configurations. So think of this whenever you look at your periodic table in the book. This way we can make electron configurations without having to memorize the order. Lets first do a few examples filling into the chart on the previous page. Once you have some examples we’ll come back to the periodic table and walk through a few more quickly.

3 Energies of Orbitals E Everything other than Hydrogen Hydrogenei
Now lets draw out more of the orbitals in the correct order of energy. I have drawn out two diagrams, one for hydrogen and hydrogen like ions and one for everything else. I’ll talk about an easier way to remember this order in a moment. First what is the main difference between the two? In the one electron systems all of the subshells in an energy level are “degenerate” or of the same energy level. In the multi electron system the subshells are different in energy. Lets think about why this would be different? In multi electron systems there are electrons in the lower energy levels and those shield the higher energy levels. In one electron systems there aren’t electrons in the lower shells so there is no shielding. Now lets think about hydrogen and other one electron systems. I drew out energy levels for higher than the 1s orbital, is this possible even though there is only one electron? *pause*** Sure its possible, even though only the 1s is occupied in the ground state, as we saw in earlier videos we can promote the electron to a higher energy level. Therefore the other orbitals certainly still exist, they just aren’t filled. Questions: What is the difference between the two? Why do you think hydrogen is different? Here I have draw hydrogen with atomic orbitals higher than 1. Is this correct? Why or why not?

4 1s 2p 3d 4f Find the electron configuration of: Oxygen
What ion do you think oxygen likes to be? Why? Give the electron configuration of the ion in your explanation. 1s22s22p4 OR [He] 2s22p4 -2 ion 1s22s22p6 OR [He] 2s22p6 OR [Ne] 3d 4f 1s 2p

5 Energies in Relation to Periodic Table
4f Here is an expanded version of the periodic table. This version doesn’t fit well into book covers and isn’t a favorite amongst publishers because of that, however it’s the most useful for the filling in of energy levels and making electron configurations. So think of this whenever you look at your periodic table in the book. This way we can make electron configurations without having to memorize the order. Lets first do a few examples filling into the chart on the previous page. Once you have some examples we’ll come back to the periodic table and walk through a few more quickly.

6 What is the electron Configuration for selenium
More than one answer possible type both in alphabetical order if needed. (i.e. AB or AD or BC ect..) A) [Ar]4s23d104p4 B) [Ar]4s24p4 C) [Ar]4s24d104p4 D) [Ar]4s23d103p4 E) None of the above

7 What is the electron Configuration for the fluorine ion?
More than one answer possible type both in alphabetical order if needed. (i.e. AB or AD or BC ect..) A) [He]2s22p5 B) [He]2s22p6 C) [He] D) [Ne]2s22p6 E) [Ne]

8 What is the electron Configuration for the calcium ion?
More than one answer possible type both in alphabetical order if needed. (i.e. AB or AD or BC ect..) A) [Ar] B) [Ar]4s2 C) [Kr] D) [Ne]2s22p6 E) [Ar] 2s22p6

9 Electron Configurations: Exceptions
When valence d orbitals have electrons and you need to make an positive ion, remove from valence s orbitals first. Half filled and full filled orbitals are more stable. To get d orbitals to this stability promote electrons from s orbitals Fs also have a bunch of exceptions, don’t worry about these. If I ask for an electron configuration from the F block, just follow the rules Question: Why can we be so fluid with our exchange of electrons from the s and d orbitals? Energy levels are very close to each other! There are some situations that arise that don’t follow this typical pattern of filling from low to high, and removing from the highest level. Here I have them listed out, and we’ll go into each in more detail in the following slides. The first we’ll talk about involves making positive ions. When you are in the d block, you will always remove from the s orbitals first. Secondly, due to the fact that half filled and fully filled energy levels are more stable, if one electron can be moved up from the s orbital to the d orbital than it will be promoted. The F orbitals have a bunch of exceptions, but these aren’t as systematic so we won’t worry about them in this class. If you are interested you can refer to the book or internet to see where these are. Now lets think about why we are able to be so fluid with these electrons. The s and d orbitals are very close to each other and have very similar energy levels. Because of this the slightly higher energy levels of the d orbital, are made up for by the added stability of a half or fully filled energy shell.

10 What is the electron Configuration for chromium
More than one answer possible type both in alphabetical order if needed. (i.e. AB or AD or BC ect..) A) [Ar]4s23d4 B) [Ar]4s14p5 C) [Ar]4s04d5 D) [Ar]4s23d5 E) None of the above

11 What is the electron Configuration for zinc
More than one answer possible type both in alphabetical order if needed. (i.e. AB or AD or BC ect..) A) [Ar]4s23d10 B) [Ar]4s04p10 C) [Ar]4s24d8 D) [Ar]4s13d9 E) None of the above

12 What is the electron Configuration for zinc ion
More than one answer possible type both in alphabetical order if needed. (i.e. AB or AD or BC ect..) A) [Ar]4s23d10 B) [Ar]4s04p10 C) [Ar]4s24d8 D) [Ar]4s03d10 E) None of the above

13 What is the electron Configuration for the silver ion
More than one answer possible type both in alphabetical order if needed. (i.e. AB or AD or BC ect..) A) [Ar]4s03d9 B) [Ar]4s04p9 C) [Ar]4s04d10 D) [Ar]4s13d9 E) None of the above

Download ppt "Electron Configurations"

Similar presentations

Hund’s Rule, Orbital Diagrams, and Valence Electrons

Hund’s Rule, Orbital Diagrams, and Valence Electrons
Writing Electron Configurations Noble gas method.

Writing Electron Configurations Noble gas method.
Advanced Higher Chemistry Unit 1 Writing electronic structures.

Advanced Higher Chemistry Unit 1 Writing electronic structures.
The Electron Configuration. Write the electron configuration for a variety of atoms and ions Relate the electron configuration of an element to its valence.

The Electron Configuration. Write the electron configuration for a variety of atoms and ions Relate the electron configuration of an element to its valence.
Chemistry Topic 2- Atomic Structure Electric configuration Made by: Mr. Hennigan’s class (Class 2014 CHEM HL crew )

Chemistry Topic 2- Atomic Structure Electric configuration Made by: Mr. Hennigan’s class (Class 2014 CHEM HL crew )
Orbital Notation, Noble Gas Notation, and Valence Electrons

Orbital Notation, Noble Gas Notation, and Valence Electrons
Electronic Configurations

Electronic Configurations
Classification of the Elements

Classification of the Elements
Title: Lesson 5 Drawing Electron Configurations Learning Objectives: Know how to write full electron configurations using ideas of subshells Understand.

Title: Lesson 5 Drawing Electron Configurations Learning Objectives: Know how to write full electron configurations using ideas of subshells Understand.
Periodic Table Electron Configurations. Aufbau Principle – electrons occupy the orbitals of lowest energy first Hund’s Rule - electrons fill orbitals.

Periodic Table Electron Configurations. Aufbau Principle – electrons occupy the orbitals of lowest energy first Hund’s Rule - electrons fill orbitals.
Section 11.4 Electron Configurations and Atomic Properties 1.To understand how the principal energy levels fill with electrons in atoms beyond hydrogen.

Section 11.4 Electron Configurations and Atomic Properties 1.To understand how the principal energy levels fill with electrons in atoms beyond hydrogen.
Title: Lesson 6 Electron Configurations of Ions Learning Objectives: Know how to write full electron configurations of ions using ideas of subshells.

Title: Lesson 6 Electron Configurations of Ions Learning Objectives: Know how to write full electron configurations of ions using ideas of subshells.
Drill – 10/30 1. What is an orbital? Is an electron always within it? 2. What is the electron configuration for carbon (C)? 3. What is the electron configuration.

Drill – 10/30 1. What is an orbital? Is an electron always within it? 2. What is the electron configuration for carbon (C)? 3. What is the electron configuration.
Electronic Structure of an Atom Chemistry 11. The Electronic Structure of the Atom Bohr found that when energy is added to a sample of hydrogen, energy.

Electronic Structure of an Atom Chemistry 11. The Electronic Structure of the Atom Bohr found that when energy is added to a sample of hydrogen, energy.
BINGO  Use study guide, worksheets, even questions at end of chapters 5 and 6.  Answer should be an “element”.  Clues may include a list of elements.

BINGO  Use study guide, worksheets, even questions at end of chapters 5 and 6.  Answer should be an “element”.  Clues may include a list of elements.
Lecture 31 Ion Formation Ozgur Unal 1.  Calcium carbonate – CaCO3 2  Table salt – NaCl  Aluminum oxide – Al2O3.

Lecture 31 Ion Formation Ozgur Unal 1.  Calcium carbonate – CaCO3 2  Table salt – NaCl  Aluminum oxide – Al2O3.
Drawing Bohr Diagrams Lesson 3. Bohr and Quantum Periodic Table Label the s, p, d, and f orbitals. 1s.

Drawing Bohr Diagrams Lesson 3. Bohr and Quantum Periodic Table Label the s, p, d, and f orbitals. 1s.
1 Chapter 7 Atomic Structure. 2 The Periodic Table n Developed independently by German Julius Lothar Meyer and Russian Dmitri Mendeleev (1870”s) n Didn’t.

1 Chapter 7 Atomic Structure. 2 The Periodic Table n Developed independently by German Julius Lothar Meyer and Russian Dmitri Mendeleev (1870”s) n Didn’t.
C. Johannesson Aufbau Principle Electron Configuration.

C. Johannesson Aufbau Principle Electron Configuration.
Electron Configuration  Shorthand way of writing electron configuration of atoms 10 Ne: 1s 2 2s 2 2p 6 Elemental Symbol and atomic number Principal energy.

Electron Configuration  Shorthand way of writing electron configuration of atoms 10 Ne: 1s 2 2s 2 2p 6 Elemental Symbol and atomic number Principal energy.

Similar presentations

Ads by Google