(b) Actinides and relativistic core potentials (pseudopotentials). Odoh SO, Schreckenbach G,
J Phys Chem A, (2010), 114:1957Solvation.....................................................................
Easier Questions..........................................................
Easier Questions..........................................................
- Using microsolvation, roughly how many water molecules might be needed to
provide one layer around CH 3 F (suggestion: examine space-filling hand-held or
computer-generated models)? - What physical properties of solvents have been used to parameterize them for
continuum calculations? - Give an example of a reaction for which just one explicit solvent molecule might
be adequate in simulating a reaction mechanism. - For continuum solvation, give an example of a molecule for which a good
approximation might be (a) a spherical cavity, (b) an ellipsoidal cavity. - Why are continuum solvation methods more widely used than microsolvation
methods?
Harder Questions.........................................................
- In microsolvation, should thesolvent molecules be subjected to geometry
optimization? - Consider the possibility of microsolvation computations with spherical, polar-
izable “pseudomolecules”. What might be the advantages and disadvantages of
this simplified geometry? - In microsolvation, why might just one solvent layer be inadequate?
- Why is parameterizing a continuum solvent model with the conventional dielec-
tric constant possibly physically unrealistic? - Consider the possibility of parameterizing a continuum solvent model with
dipole moment.
Singlet Diradicals............................................................
Easier Questions
- A monoradical is a doublet and a diradical can be a singlet or a triplet. How
many spin states are possible for a triradical? - What does the Pauli exclusion principle suggest about the relative energies of
singlet and triplet diradicals?
558 8 Some “Special” Topics