Classify each substance based on the intermolecular forces
present in that substance. Hydrogen bonding, dipole–dipole, and
dispersionDipole–dipole and dispersion onlyDispersion only
H20
CH4
CO
CH3Cl
Classify each substance based on the intermolecular forces
present in that substance. Hydrogen bonding, dipole–dipole, and
dispersion Dipole–dipole and dispersion only Dispersion only Answer
Bank
He, H2O, CO,HCl
Classify each substance based on the intermolecular forces
present in that substance.Hydrogen bonding, dipole–dipole, and dispersionDipole–dipole and dispersion onlyDispersion onlyH2O CO He CH3Cl
Classify each substance based on the intermolecular forces present in that substance. Hydrogen bonding, dipole-dipole, and dispersion Dipole-dipole and dispersion only Dispersion only
Classify each substance based on the intermolecular forces present in that substance. A Dipole-dipole and dispersion only B. dispersion only C. Hydrogen bonding, dipole-dipole, and dispersion H2O HCI COCH4
Which type of intermolecular forces (hydrogen bonding,
dipole-dipole forces, London dispersion forces) would occur for
each compound?
Sucrose
Benzoic Acid
Naphthalene
2 - Naphthol
Phenol
A short descrition to why each compound has each type of bondig
would be awesome! Thank you!
Which type of intermolecular forces (hydrogen bonding,
dipole-dipole forces, London dispersion forces) would occur for
each compound?
Sucrose (C12H22O11)
Benzoic Acid (C7H6O2)
Naphthalene (C10H8)
2-Naphthol (C10H8O)
Phenol (C6H5OH)
For each of the following substances, state whether the intermolecular forces are primarily hydrogen bonding, permanent dipole, or temporary dipole. Sil_4 HCN
4. What kinds of intermolecular forces are present in each substance? List all the intermolecular forces. HCI H2O Br2 He CH3OH5. Provide the names of the functional groups in the spaces provided.
Hydrogen bonding increases the intermolecular forces of
attraction and hence increased hydrogen bonding increases the
solubility in a liquid. For example, Methyl alcohol which is
organic in nature is miscible with water due to hydrogen bonding.
For the same reason acetic acid is soluble in water due to hydrogen
bonding. Acetic acid (CH3COOH) has got only one carbon atom and
steric hindrance of the methy group is low which permits water
(solvent) to get attached to solute. Can you elaborate...