Electron Configuration https://www.youtube.com/watch?v=CUk3enr-m0w https://www.youtube.com/watch?v=F2kP4riDRqM

The Bohr Model of the Atom I pictured electrons orbiting the nucleus much like planets orbiting the sun. But I was wrong! They’re more like bees around a hive. Neils Bohr

Heisenberg Uncertainty Principle “One cannot simultaneously determine both the position and momentum of an electron.” You can find out where the electron is, but not where it is going. OR… You can find out where the electron is going, but not where it is! Werner Heisenberg

Electron Energy Level (Shell) Generally symbolized by n, the energy level tells us the distance of the electron from the nucleus. “n” is also known as the Principle Quantum number Number of electrons that can fit in a shell: 2n2

Electron review Electrons are found outside the nucleus in orbitals/ shells 1-2 2-8 3-18 4-32 For an atom to be happy and not need to bond with anything else it must have 8 e- in the outer shell (except H and He which only have 1 shell they need 2). If they +/- electrons they are ions.

Electron Orbitals An orbital is a region within an energy level where there is a probability of finding an electron. Orbital shapes are defined as the surface that contains 90% of the total electron probability.

Rules There are specific rules for the way in which electrons behave- Electron Configuration What rules do we have Pauli Exclusion Principle Hund’s Rule Aufbau Principle

There are 4 sub-orbitals S,P,D,F There are 4 orbitals S,P,D,F There are 4 sub-orbitals S,P,D,F S-2,P-6,D-10,F-14

s Orbital shape The s orbital has a spherical shape centered around the origin of the three axes in space.

p orbital shape There are three dumbbell-shaped p orbitals in each energy level above n = 1, each assigned to its own axis (x, y and z) in space.

d orbital shapes Things get a bit more complicated with the five d orbitals that are found in the d sublevels beginning with n = 3. To remember the shapes, think of “double dumbells” …and a “dumbell with a donut”!

Shape of f orbitals

Orbital filling table

Pauli Exclusion Principle Two electrons occupying the same orbital must have opposite spins (represented by up arrow or down arrow) Wolfgang Pauli

Hund’s Rule For and atom in the ground state: Fill each orbital before pairing electrons together The electrons must have the same spin when initially filling the orbital ( fill up arrows first then down arrows)

Aufbau Principle Each electron must occupy the lowest energy level first S must be filled before beginning P. P must be filled before D and so on.

How would we write the electron configuration for sulfur? Practice How would we write the electron configuration for sulfur? 1s22s22p63s23p4 How many electrons are represented in the electron configuration? 16…. And sulfur has 16 electrons