3. Explain the difference in boiling point between molecules that experience dipole-dipole interactions and ones that experience London forces. Why is bp different?
3. Explain the difference in boiling point between molecules that experience dipole-dipole interactions and ones that...
2. Water (H2O) molecules experience dispersion, dipole-dipole and hydrogen bonding forces. Octane (CH3-CH2- CH2- CH2- CH2- CH2- CH2- CH3) molecues experience dispersion forces only. Water boils at 100 0C, whereas octane boils at 125.6 0C. Briefly explain why octane has the higher boiling point temperature
Which of the substances have polar interactions (dipole-dipole forces) between molecules? INF: F2 CIF Cl2
Reset He interactions between the water molecules interactions involving dipole-dipole attractions interactors formed between the sodium ions and the con atoms of water molecules interactions involving on on atractions interactions formed during hydration interactions between the ons of Sodium chloride Solvent solvent interactions Solute-solute interactions Solute-solvent interactions
Which of the substances has polar interactions (dipole-dipole forces) between molecules? CHCI, CF o HF HO
Order the three types of intermolecular forces: dipole-dipole, London force, hydrogen bonds in terms of strength from weakest to strongest. Give a brief description of each of the different intermolecular forces. Question 24 (6 points) The boiling points for H2O (BP = 100°C) and HS (BP-60°C) are drastically different despite oxygen and sulfur being next to each other on the periodic table. Explain these differences in boiling points utilizing your labels of intermolecular forces and the relative strength of the...
The principal source of the difference in the normal boiling points of ICl (97 °C; molar mass 162 g/mol) and Br2 (59 °C; molar mass 160 g/mol) is dipole dipole interactions. London dispersion forces. hydrogen bonding. both hydrogen bonding and dipole - dipole interactions.
My answers: Not sure if they are correct.
1. a. London dispersion
b. H-bonding, dipole-dipole, london dispersion
c. London dispersion
d. Ionic, london disperson
2. The second one because not a lot of H+ and less acidic. Need
help understanding the meaning of the question.
3. Diethyl cannot h-bond because it does not provide intermolecular
bonding engery while 1-b. can form h-bond making strong
intermolecular bonds to take up greater engery to break
molecules.
4. Not sure...
13. Which of the pairs of molecules below can only have dipole-dipole interactions (as well as London Dispersion Forces)? a) O=C=0 and O=C=0 c) and O=0 H b) H d ) and Na + and H1 H HT H H 0 C. c) only B. b) only A. a) only E. b) and c) F. c) and d) D. d) only
13. Which of the pairs of molecules below can only have dipole-dipole interactions (as well as London Dispersion Forces)? a) O=C=O and O=C=O c) and O=0 b) H H H1 TH and Na + and HT H Neo H H A. a) only B. b) only C. c) only D. d) only E. b) and c) F. c) and d)
Which type of intermolecular forces are between molecules of methane, CH4? Dipole-Dipole London Forces Hydrogen bonding molecule-ion attraction