Molecular movement I think
Answer:
Hey, I think its single replacement reaction, look at the product.
According to small molecules and ions, we order the intermolecular forces according to their relative strengths:
- Ion-Ion forces
- Ion-Dipole forces
- Hydrogen bonding
- Dipole-Dipole forces
- London's dispersion forces
This order is correct because of the nature of the different forces.
<h3>What is the nature of the various forces mentioned above?</h3>
- Ion-ion forces are the strongest because they involve the electrostatic attraction between two ions that have opposite charges.
- Ion-dipole forces involve the attraction between a charged ion and a polar molecule, which is weaker than the ion-ion forces.
- Hydrogen bonding is a particularly strong form of dipole-dipole interaction that is stronger than regular dipole-dipole forces.
- Lastly, London dispersion forces are the weakest of the forces because they are caused by temporary dipoles that form due to the random motion of electrons within a molecule.
For small molecules and ions, arrange the intermolecular forces according to their relative strengths.
List them from stronger to weaker:
- Ion-ion forces
- Hydrogen bonds
- Dipole-dipole forces
- Ion-dipole forces
- London dispersion forces
Learn more about intermolecular forces:
brainly.com/question/2193457
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Answer:
See explanation
Explanation:
% optical purity = specific rotation of mixture/specific rotation of pure enantiomer * 100/1
specific rotation of mixture = 23°
specific rotation of pure enantiomer = 61°
Hence;
% optical purity = 23/61 * 100 = 38 %
More abundant enantiomer = 100% - 38 % = 62%
Hence the pure (S) carvone is (-) 62° is the more abundant enantiomer.
Enantiomeric excess = 62 - 50/50 * 100 = 24%
Hence
(R) - carvone = 38 %
(S) - carvone = 62%