a.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
b.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
c.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
d.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
e.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
f.
To determine:
The attractive forces present in the given compound.
Concept introduction:
The type of attractive forces relies upon the type of functional group and atoms of the molecule. London forces, ionic attractions, dipole-dipole attractions and hydrogen bonding are the main attractive forces present in pure compounds. Out of these forces, dispersion forces are the weakest forces present in almost all compounds and hydrogen bonding is stronger than dipole-dipole attractions.
The presence of opposite and equal charges lead to the formation of ionic attractions. The molecules that are polar in nature possess dipole-dipole attractions due to the presence of dipoles. Hydrogen bonding occurs in a molecule if hydrogen atom is attached with more electronegative atom.
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Chapter 7 Solutions
General, Organic, and Biological Chemistry (3rd Edition)
- Write True if the statement is true otherwise, write false. 1. According to the kinetic molecular theorv of matter, the higher the temperature of a substance, the greater the kinetic energy of the particles compriSing the substance. 2. According to the kinetic molecular theory of matter, the faster the particles Comprising a substance is movina, the greater the kinetic energy of that substance is. 3. Relative to the other two states of matter, matter in solid state has the weakest attraction between atoms. 4. Dispersion forces are exclusively experienced by nonpolar molecules. 5. To undergo a phase change from solid to liquid, the intermolecular forces holding the atoms, ions, or molecules in a substance together must be overcome. 6. Among the different types of intermolecular forces that could be experienced by a substance, dipole-dipole forces are the weakest. 7. The farther apart the atoms, ions, or molecules in a substance are, the stronger the intermolecular forces…arrow_forwardSelect the compound with the lowest freezing point: a. SnH4 b. They all have the same freezing point. c. SiH4 d. GeH4 e. CH4arrow_forwardThere are five pure substances. The molecular component is shown per substance. Based on this information, answer items 56 to 65. Substance Molecular Component Substance Molecular Component O Substance A Substance D Substance B Substance E Substance C OH 56. The physical properties of the substances are influenced by intermolecular forces of attraction. Which substance(s) are predominantly influenced by the intermolecular association of the molecules via hydrogen bonding? A. Substance A only B. Substance A and C C. Substance A, B, and C D. Substance A, B, C, and D 57. Which substance is expected to turn blue litmus paper into red color? A. Substance A B. Substance B C. Substance C D. Substance D OH Harrow_forward
- 34. What is the property of water which makes it possible for autoionization of water? O a. Ambidextrous b. Amphoteric c. Surface tension d. Liquid phase O O O Oarrow_forwardWhen LiCl dissolves in water, aqueous Li+ and Cl- ions result. The force of attraction that exist between Cl- and H2O is called a ____ interaction. a. ion-dipole b. ion-ion c.dipole-dipole d. london dispersion forces.arrow_forwardWhat kinds of attractive forces, including chemical bonds, would be present between the particles in: (d) BrCl(l ) a. dipole-dipole b. London forces c. covalent bonding d. H-bonding e. ionic bonding (e) NaCl(s) a. dipole-dipole b. London forces c. covalent bonding d. H-bonding e. ionic bonding (f) Na2SO4(s) a. dipole-dipole b. London forces c. covalent bonding d. H-bonding e. ionic bondingarrow_forward
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- 51. Molecular nitrogen (N2) is sparingly soluble in water due to a. dispersion forces. b. dipole-induced dipole forces. c. dipole-dipole forces d. hydrogen bonding.arrow_forward1. sketch a few water molecules and label the polar covalent bonds and show where the hydrogen bonds are locatedarrow_forwardIndicate the strongest attraction between the two molecules 1. between two nonpolar molecules 2. between a nonpolar molecule and a polar molecule 3. between a nonpolar molecule and an ion 4. between two polar molecules 5. between a polar molecule and an ion 6. between two polar molecules where one has an N and the other has an O-H a. London's b. dipolar c. hydrogen bond d. ion-dipolearrow_forward
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