Lecture 7 Flashcards
d and f orbitals
less effective at screening nuclear charge
B and Al orbitals
radius Al > radius of B
Al and Ga orbitals
has d-orbital contraction, therefore radius of Al > radius of Ga
d-orbital contraction
causes radii to decrease as an effect of having full d orbitals on period 4 elements
f-orbita/lanthanide contraction
causes radii increase to be smaller as an effect of full f orbitals on lanthanides
Mulliken electronegativity
ability of an atom to attract electrons, depending on IE and e- affinity
Mulliken electronegativity trends
- elements to the left have low electronegativities, therefore elements will give up electrons in rxns
- electronegativity increases left to right
- electronegativity increases up a group, since valence e-‘s are in lower energy (less screened orbitals are above)
noble gases
filled valence shells, therefore a high Zeff and will not want to react (extremely stable)
reactivity
- can be predicted with electronegativity
- hydrogen can be acidic (protic) or basic (hydridic)
radii of charged atoms
- halides will accept an e- to make anions, which have a larger radii than neutral atoms
- radii anions and dianions increase down a group
- single valence e-s in s orbital will donate an e- to make cations, which have a smaller radii than neutral atoms
- radii cations decrease from left to righ
anions
adds e-s to the outer valence orbital (most favourable to elements on the rights) to form inert gas configuration
cations
donates e-s from orbital (most favourable to elements on the left) to form inert gas configuration
