Lecture 4 Flashcards
transition metals
elements with d orbitals in their valence (outer/bonding) orbitals
atom bonding determination
outer nodes, lobes, and phases determine how atoms bond by overlapping their valence orbitals
electron bonding determination
shape and orientation of outer orbitals determine electron bonding
energy of s orbitals
- the highest electron density is away from the nucleus, w/ inner lobes and nodes depending on the principal quantum number
- E3s > E2s > E1s
s, p, d orbitals in a H atom
- # of inner nodes is s > p > d
- s orbital extends further than p, which extends further than d
- # of inner lobes of electron density is opposite, countering the effects of differences in outer edge distance of the orbital
- Es = Ep = Ed
s orbital
- no outer nodes
- surface of the sphere are all of the same phase
p orbitals
- one planar node on nucleus, perpendicular to the orbital
- phases are opposite on opposite sides of the node
- along x, y, z axes
d orbitals
- two planar nodes between lobes of electron density
- opposite lobes have the same phases
Aufbau (building-up) Principle
add electrons to orbitals in order to lowest to highest orbital energy
Pauli exclusion Principle
two electrons in the same orbital must have opposite spins
Hund’s Rule
electrons don’t pair until all orbitals are occupied
shape of atomic orbitals (AO)
orbitals of poly electron atoms have the same shape as H atom orbitals
