| 7 | | * The definition of r,,0,,^2^ is wrong, { b/√(48 pi Lb) } should be in the numerator, not the denominator: |
| 8 | | r,,0,,^2^ = b / [ α √(Ca 48 pi Lb) ] |
| 9 | | |
| 10 | | - in the docs, the conversion of concentration from mol/dm^3^ to 1/A^3^ should be explicitly indicated before any equation |
| 11 | | - for consistency, in the main equation, it should read (q^2^ - 12 h/NA Ca / b^2^) where NA is Avogadro's constant (as h is supposedly in A^3^/mol, and assuming Ca has been converted to 1/A^3^ |
| | 7 | * The definition of r,,0,,^2^ is wrong, { b/√(48 π L,,b,,) } should be in the numerator, not the denominator: |
| | 8 | r,,0,,^2^ = b / [ α √(C,,a,, 48 π L,,b,,) ] |
| | 9 | - in the main equation, it should read r,,0,,^4^, not r,,0,,^2^ |
| | 10 | - in the docs, the conversion of concentration from mol/dm^3^ to 1/Å^3^ should be explicitly indicated before any equation |
| | 11 | - for consistency, in the main equation, it should read (q^2^ - 12 h/N,,A,, C,,a,, / b^2^) where N,,A,, is Avogadro's constant (as h is supposedly in Å^3^/mol, and assuming C,,a,, has been converted to 1/Å^3^ |
