Express the absolute value of the partial charges as a decimal fraction of the elementary charge for OH.
I forgot to mention that
OH - Bond length, pm is 98.0 and
Dipole Moment, D is 1.66
To express the absolute value of the partial charges as a decimal fraction of the elementary charge for OH, we first need to know the partial charges of the atoms involved.
The OH molecule consists of an oxygen atom (O) bonded to a hydrogen atom (H). In general, the oxygen atom tends to be more electronegative than the hydrogen atom, which means it has a higher affinity for electrons.
In the OH molecule, the oxygen atom typically bears a partial negative charge (δ-) due to its electronegativity, while the hydrogen atom bears a partial positive charge (δ+) due to the electron deficiency caused by oxygen's higher electron pull. The magnitude of these partial charges is usually measured in terms of units of the elementary charge (e).
The value of the elementary charge is e = 1.602 x 10^-19 coulombs.
To express the absolute value of the partial charges for OH as decimal fractions of the elementary charge, we need the exact values of the partial charges, which can vary depending on the specific molecule or context.
For example, in some cases, the oxygen atom in the OH molecule may have a partial charge of -0.5e, indicating that it carries half the magnitude of the elementary charge. Similarly, the hydrogen atom may have a partial charge of +0.5e in this case.
Note that these values are just an example, and the actual magnitudes of the partial charges can differ depending on the specific experimental or computational data.
To determine the exact values of the partial charges for OH, one could consult experimental data or perform quantum chemical calculations using methods such as molecular dynamics simulations or ab initio calculations. These approaches would provide more accurate and precise values for the partial charges in OH.
In summary, to express the absolute value of the partial charges as a decimal fraction of the elementary charge for OH, you would need to refer to specific experimental or calculated data.