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Electron Configuration

Electron Configuration. Methods for expressing electron locations: Configuration Orbital Notation. ELECTRON CONFIGURATION. Electrons find homes in orbitals Electrons fill orbitals from lowest energy level FIRST, to highest energy level, LAST. REMEMBER!

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Electron Configuration

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  1. Electron Configuration Methods for expressing electron locations: Configuration Orbital Notation

  2. ELECTRON CONFIGURATION • Electrons find homes in orbitals • Electrons fill orbitals from lowest energy level FIRST, to highest energy level, LAST. • REMEMBER! • s holds 2 – color the sblockORANGE • p holds 6 – color the pblockPURPLE • d holds 10 – color the d block GREEN • f holds 14 – color the f block BLUE

  3. GRAB COLORS!

  4. LET’S PRACTICE • Let’s write the electron configuration for Mg. • What is the atomic number of Mg? _____ • How many electrons does Mg have? ______ • Write the electron configuration for Mg. 12 12 1s22s22p63s2

  5. RULES • e- occupy orbitals of lowest energy first 2. orbitals hold up to two electrons of opposite spin (clockwise – counterclockwise) 3. one e- enters each orbital until all orbitals have 1 e- with the same spin direction, THEN it’s paired with e- with different spin (LONERS FIRST  PARTNERS SECOND)

  6. ORBITAL NOTATION We can also use diagrams with arrows to show electrons and their spin in a diagram called orbital notation. Each block represents an orbital (like an electron parking spot). 1 atom of Li # of P+= 3 # of e- = 3   

  7. 1 atom of F # of P+= 9 # of e- = 9 OCCUPY LOWEST ENERGY FIRST BEFORE MOVING TO HIGHER ENERGY LEVEL LONERS FIRST PARTNERS SECOND OPPOSITE SPIN         

  8. ORBITAL NOTATION YOU TRY SULFUR!

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