Structure 2.2.8—The nature of the force that exists between molecules is determined by the size and polarity of the molecules. Intermolecular forces include London (dispersion), dipole-induced dipole, dipole–dipole and hydrogen bonding. Deduce the types of intermolecular force present from the structural features of covalent molecules.
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[N/A]Directly related questions
- EXM.1B.SL.TZ0.2c: Suggest why water was chosen to extract ascorbic acid from the spinach leaves with reference to...
- EXM.1B.HL.TZ0.2c: Suggest why water was chosen to extract ascorbic acid from the spinach leaves with reference to...
- EXM.1B.HL.TZ0.2c: Suggest why water was chosen to extract ascorbic acid from the spinach leaves with reference to...
- EXM.1B.HL.TZ0.c: Suggest why water was chosen to extract ascorbic acid from the spinach leaves with reference to...
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22N.2.SL.TZ0.4a.iii:
Explain, with reference to intermolecular forces, why B is more volatile than A.
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22N.2.SL.TZ0.4a.iii:
Explain, with reference to intermolecular forces, why B is more volatile than A.
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22N.2.SL.TZ0.a.iii:
Explain, with reference to intermolecular forces, why B is more volatile than A.
- 19M.1A.SL.TZ2.12: Which compound has hydrogen bonds between its molecules? A. CH4 B. CH4O C. CH3Cl D. CH2O
- 19M.1A.SL.TZ2.12: Which compound has hydrogen bonds between its molecules? A. CH4 B. CH4O C. CH3Cl D. CH2O
- 19M.1A.SL.TZ2.12: Which compound has hydrogen bonds between its molecules? A. CH4 B. CH4O C. CH3Cl D. CH2O
- 19M.1A.SL.TZ2.12: Which compound has hydrogen bonds between its molecules? A. CH4 B. CH4O C. CH3Cl D. CH2O
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19M.2.HL.TZ1.2c:
Suggest how benzoic acid, Mr = 122.13, forms an apparent dimer, Mr = 244.26, when dissolved in a non-polar solvent such as hexane.
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19M.2.HL.TZ1.2c:
Suggest how benzoic acid, Mr = 122.13, forms an apparent dimer, Mr = 244.26, when dissolved in a non-polar solvent such as hexane.
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19M.2.HL.TZ1.c:
Suggest how benzoic acid, Mr = 122.13, forms an apparent dimer, Mr = 244.26, when dissolved in a non-polar solvent such as hexane.
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19M.2.HL.TZ1.2c:
Suggest how benzoic acid, Mr = 122.13, forms an apparent dimer, Mr = 244.26, when dissolved in a non-polar solvent such as hexane.
-
19M.2.HL.TZ1.2c:
Suggest how benzoic acid, Mr = 122.13, forms an apparent dimer, Mr = 244.26, when dissolved in a non-polar solvent such as hexane.
-
19M.2.HL.TZ1.c:
Suggest how benzoic acid, Mr = 122.13, forms an apparent dimer, Mr = 244.26, when dissolved in a non-polar solvent such as hexane.
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22M.1A.SL.TZ2.12:
What is the main interaction between liquid CH4 molecules?
A. London (dispersion) forces
B. Dipole–dipole forces
C. Hydrogen bonding
D. Covalent bonding
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22M.1A.SL.TZ2.12:
What is the main interaction between liquid CH4 molecules?
A. London (dispersion) forces
B. Dipole–dipole forces
C. Hydrogen bonding
D. Covalent bonding
-
22M.1A.SL.TZ2.12:
What is the main interaction between liquid CH4 molecules?
A. London (dispersion) forces
B. Dipole–dipole forces
C. Hydrogen bonding
D. Covalent bonding
-
22M.1A.SL.TZ2.12:
What is the main interaction between liquid CH4 molecules?
A. London (dispersion) forces
B. Dipole–dipole forces
C. Hydrogen bonding
D. Covalent bonding
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- 22M.2.SL.TZ1.5a(ii): Compound A and Compound B are both liquids at room temperature and pressure. Identify the...
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- 22M.2.SL.TZ1.3c(ii): Identify the strongest force between the molecules of Compound B.
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- 22M.2.SL.TZ1.3c(ii): Identify the strongest force between the molecules of Compound B.
- 22M.2.SL.TZ1.3c(ii): Identify the strongest force between the molecules of Compound B.
- 22M.2.SL.TZ1.c(ii): Identify the strongest force between the molecules of Compound B.