A photon checks into a hotel and the bell hop asks, Can I help you with your luggage? The photon replies, I don t have any. I m traveling light.
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1 Quantum Mechanics
2 A photon checks into a hotel and the bell hop asks, Can I help you with your luggage? The photon replies, I don t have any. I m traveling light.
3 Electron Density Based on Heisenberg uncertainty principle and Schrodinger wave equation Representation of the electron density distribution surrounding the nucleus in the hydrogen atom; shows a high probability of finding the electron closer to the nucleus Gives the probability that an electron will be found in a particular region of an atom Regions of high electron density represent a high probability of locating the electron
4 Atomic Orbital Way to distinguish Bohr s model from the current quantum mechanical model Probability of locating the electron in 3D space around the nucleus Has a characteristic energy
5 Quantum numbers used to describe atomic orbitals and to label electrons that reside in them Principle quantum number (n) Angular momentum quantum number Magnetic quantum number Electron spin quantum number
6 Principal Quantum Number n n = 1, 2, 3, 4,. distance of e - from the nucleus n=1 n=2 n=3 6
7 Energy levels are like rungs of a ladder. You cannot be in between a rung Energy levels in an atom s electron are unequally spaced. The higher energy levels are closer together.
8 Angular Momentum Quantum Number Shape of the volume of space that the e - occupies s orbital p orbital d orbital f orbital smart people do fine
9 Magnetic Quantum Number Describes the orientation of the orbitals in space All orientations are identical in energy
10 s orbital 1 orientation Sphere
11 p orbital 3 orientations dumbbell
12 d orbital 5 orientations Double dumbbell
13 f orbital 7 orientations No name for this shape
14 Electron Spin Quantum Number Electrons are thought to be spinning on their own axes-clockwise, or counterclockwise. The up and down arrows denote the direction of the spin.
15 Summary Orbital shape # of orientations s p d f sphere dumbbell double dumbell no name Total # of electrons
16
17 Energy of Orbitals depends on principle and angular momentum quantum numbers
18 Shielding Effect Why is the 2s orbital lower in energy than the 2p? shielding reduces the electrostatic attraction Energy difference also depends on orbital shape
19 Electron Configuration vs Orbital diagram Electron configuration for hydrogen-h principal quantum number n 1s 1 number of electrons in the orbital Shape Orbital diagram for hydrogen-h 1s or 1s
20 Aufbau Principle fill up the lowest energy level first
21 Orbitals in the Periodic Table
22 Pauli Exclusion Principle No two electrons can have the same 4 quantum numbers Only two electrons may occupy the same atomic orbital, and these electrons must have opposite spins Electrons that have opposite spins are said to be paired
23 Hund s Rule The most stable arrangement of electrons in an orbital is the one with the greatest number of parallel spins N e- will occupy singly before filling with opposite spins
24 Practice Fill in the condensed orbital diagram, and write the electron configuration for the following atoms s s s s s s
25 Continue tomorrow
26 Warm Up #15 1.List the name and what the 3 rules are necessary to write the orbital diagram. 2.Write the condensed orbital diagram for the element iron, Fe, #26. 3.Write the electron configuration for Fe. 1. Aufbau Principle-fill the lowest energy level first. Pauli Exclusion Principle-2 e max in a sublevel, opposite spins Hund s Rule- e singly in sublevel before doubling up 2. _ 1s 2s 2p 3s 3p 4s 3d 3.
27 Day 2-Exceptions to the rules and reading the table
28 Valence Electrons Electrons in the outermost s and p orbitals (highest n shell) These electrons participate in chemical reactions
29 Example of Exceptions to the Rules Copper and chromium are exceptions to the Aufbau principle. These are not the only two exceptions. Element Should be Actually is Chromium 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 4 1s 2 2s 2 2p 6 3s 2 3p 6 4s 1 3d 5 Copper 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 9 1s 2 2s 2 2p 6 3s 2 3p 6 4s 1 3d 10 Some configurations violate the Aufbau Principle because half-filled sublevels are not as stable as filled sublevels, but they are more stable than other configurations
30 Reading the periodic table for electron configurations Practice writing the electron configuration for the following elements: 1. Element #14 2. Element #26 3. Br 4. Y
31 Battleship fun WITH ELECTRON CONFIGURATIONS
32 Objective How to play battleship using the periodic table Set up periodic table s, p, d, f-block to resemble battleship gameboard GOAL: Memorize the sequence while having fun. Let s play!
33 Prior to playing Students should be familiar with the concept of electron configuration Ideal if they know the sequence but not necessary Aufbau principle, Pauli Exclusion Principle, and Hund s rule, and exceptions
34 The Real Deal How is the real battleship game is played?
35 Setup of the Periodic Table Label periodic table with white board markers Model and explain rules of the game using labeled periodic table 5 ships: 1 ship= 5 elements (aircraft carrier) 1 ship= 4 elements (battleship) 2 ships =3 elements (destroyer) 1 ship= 2 elements (PT boat) TOTAL: 5 ships
36 Playing the game Use paper score card Use bottom game board as the record for what is being hit Use the top of the game board to record your ships Two day game: Part 1 (electron config) and Part 2 (noble gas config) Monitor student progress
37 After the game Review how to READ the periodic table complete PART 2 on the same sheet tomorrow Revisit Aufbau principle, Pauli Exclusion Principle, and Hund s rule, and exceptions
38 Noble Gas Configuration Day 3
39 Noble Gas Configuration What is the electron configuration for Ne? Ne: What is the electron configuration for Mg? Mg: What do both electron configurations have in common?
40 To figure out which noble gas to use find the noble gas that is closest to the element without going over in atomic number Which noble gas is closest without going over? Rb Cl Ra
41 Practice Write the noble gas electron configuration for the following atoms: Na: Mn: Co: Sn:
42 Heisenberg uncertainty principle (1927) states that it is impossible to know both the velocity and position of a particle at the same time.
43
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