Place the following compounds in order of
increasing strength of intermolecular
forces.
CS2 I2 NH2CH3
Place the following compounds in order of
increasing strength of intermolecular
forces.
CS2 I2 NH2CH3
CS2 < NH2CH3 <
I2
NH2CH3 < CS2 <
I2
CS2 < I2 <
NH2CH3
I2 < NH2CH3 <
CS2
NH2CH3 < I2 <
CS2
3.Arrange glycerol, ethanol, and ethylene glycol in order of
increasing strength of intermolecular forces. While the dispersion
force and the dipole moment steadily increase in this series, they
do not do so at a rate that is sufficient to account for the
exponential increase in boiling point. What accounts for the
exponential increase in the boiling point in this series?
4.A liquid with high boiling point has a high evaporation rate.
State True OR False
5.2-propanol has a lower boiling...
For the compounds present, list all intermolecular forces
present and then rank the compounds in order of increasing boiling
point (lowest to highest). Hint: draw the structures to make this
easier.
Ethane (C2H6)
Ethanol (C2H5OH)
Acetic acid (CH3COOH)
Dimethyl ether (C2H6O)
In the following, identify all types of intermolecular forces
and circle the strongest type of intermolecular
force in each of the following?
CH3CH2NH2
CCl3F
CH3CH2CH2CH2CH3
CH3CH2OH
CHCl3
Reorganize the following list of cations in the order of
strongest to the weakest potential for hydrolysis
Ca2+, Ba2+, Cs+, Li+, Cr3+, Fe3+, Pb4+, Na+, K+, Mg2+
Thanks!!
Rank each substance above from strongest to weakest
intermolecular force. Do not look up these substances' physical
properties...determine the ranking based on general intermolecular
force principles. If you predict an "anomaly" (i.e. a "LDF only"
molecule with greater intermolecular forces than a dipole-dipole or
hydrogen bonding molecule), you must briefly state your reasoning.
Please justify why you put each molecule in its order.
CCl4 BH3
SF4
CH3NH2 CO2
N2O (NNO) CH3OH
Identify the strongest intermolecular forces present in a pure
sample of ClF3.
ion-dipole forces
London dispersion forces
hydrogen bonding
ionic bonding
dipole-dipole interactions
In trying to figure it out but the descriptions are so confusing
that I'm completely lost. I figure hydrogen bonding is out