echon (electron configuration)

Electron Configuration 1

The Quantum Mechanical Model of the Atom

2

Electron Configuration

Electron Configuration 3

What is Electron Configuration?

• The arrangement of electrons in an atom

Electron Configuration 4

What do s, p, d, and f mean?

• These refer to the sublevels within the principal quantum level (n).

• So, for n = 1, there is only one sublevel, s.• n = 2, there are 2 sublevels: s & p• n = 3, there are 3 sublevels: s, p, & d• So, within each level, there are n sublevels.

Electron Configuration 5

A shortcut!

1s2s 2p3s 3p 3d4s 4p 4d 4f 5s 5p 5d 5f 5g6s 6p 6d 6f 6g 6h7s 7p 7d 7f 7g 7h 7i

Do not exist in normal ground

state atoms

Electron Configuration 6

Orbitals

• Orbitals – Each sublevel (s, p, d, f) contains orbitals.– Remember, orbitals are electron-clouds that hold the

electrons 90% of the time.– Each orbital can hold TWO electrons, so

• s - 2 electrons, 1 orbital• p – 6 electrons, 3 orbitals• d – 10 electrons, 5 orbitals• f – 14 electrons, 7 orbitals

7

The Aufbau Principle

• Each electron occupies the lowest energy orbital– Electrons are Lazy!!!

• All orbitals related to an energy level are of equal energy.– Ex. The three 2p orbitals

are the same energy level.All equivalent energy

Electron Configuration

Electron Configuration 8

Pauli Exclusion Principle

• A maximum of two electrons may occupy a single orbital, but only if the electrons have opposite spins.– Spin -- Electrons has an

associated “spin,” either one way or the other, like a top.

– These spins are called “spin up” and “spin down.”

– See example on board.Box = orbital

Arrow = electron

Electron Configuration 9

Hund’s Rule

• Single electrons with the same spin must occupy each equal-energy orbital before additional electrons with opposite spins can occupy the same orbitals.– Electrons are

UNFRIENDLY– Why?

1s2 2s2 2p3

1s2 2s2 2p3

NOT

Ex. Nitrogen:• 1s2 2s2 2p3

Electron Configuration 10

The order of Things…

• Electrons, being unfriendly, fill up the empty orbitals before sharing orbitals.– Similar to seats on a bus

– on a bus, you sit alone, rather than with a stranger, if there is an option.

• Np1

• Np2

• Np3

• Np4

• Np5

• Np6

Electron Configuration 11

The Shapes of the s, p, and d Orbitals

Electron Configuration 12

F-Orbitals!• Do not bother sketching these—just notice how

STRANGE they are!

Electron Configuration 13

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Bohr Model

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

H He Li C N Al Ar F Fe La

Electron Configuration 14

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Bohr Model

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

H = 1s1

Hydrogen

H He Li C N Al Ar F Fe La

Electron Configuration 15

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Bohr Model

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

He = 1s2

Helium

H He Li C N Al Ar F Fe La

Electron Configuration 16

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Bohr Model

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

Li = 1s22s1

Lithium

H He Li C N Al Ar F Fe La

Electron Configuration 17

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Bohr Model

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

C = 1s22s22p2

Carbon

H He Li C N Al Ar F Fe La

Electron Configuration 18

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

N = 1s22s22p3

Bohr Model

Nitrogen

Hund’s Rule “maximum number of unpaired

orbitals”.

H He Li C N Al Ar F Fe La

Electron Configuration 19

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Bohr Model

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

F = 1s22s22p5

Fluorine

H He Li C N Al Ar F Fe La

Electron Configuration 20

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Bohr Model

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

Al = 1s22s22p63s23p1

Aluminum

H He Li C N Al Ar F Fe La

Electron Configuration 21

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

Electron Configuration

CLICK ON ELEMENT TO FILL IN CHARTS

N

Ar = 1s22s22p63s23p6

Bohr Model

Argon

H He Li C N Al Ar F Fe La

Electron Configuration 22

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

CLICK ON ELEMENT TO FILL IN CHARTS

Fe = 1s22s22p63s23p64s23d6

N

H He Li C N Al Ar F Fe La

Bohr Model

Iron

Electron Configuration

Electron Configuration 23

Energy Level Diagram

Arb

itrar

y En

ergy

Sca

le

1s

2s 2p

3s 3p

4s 4p 3d

5s 5p 4d

6s 6p 5d 4f

NUCLEUS

CLICK ON ELEMENT TO FILL IN CHARTS

La = 1s22s22p63s23p64s23d10

4s23d104p65s24d105p66s25d1

N

H He Li C N Al Ar F Fe La

Bohr Model

Lanthanum

Electron Configuration

24

• This shows the different blocks in the Periodic Table. • It also shows in what order to write electron configurations

(1s, 2s, 2p, 3s, 3p, 4s, 3d, 4p, 5s, 4d, 5p, 6s, 4f, 5d, 6p, 7s, 5f, 6d,7p)

Block Table

Electron Configuration

Electron Configuration 26

Get Your bond paper

Electron Configuration 27

Activity # 4Electron Configuration

Write the (a) E.C, (b) Orbital Notation (c ) E.C in numbers (d) Bohr’s Diagram of the following atoms:

1. Gallium 2. Neon3. Bromine4. Lead 5. Calcium