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Fifth Edition Lecture PowerPoints Chemistry Fifth Edition Julia Burdge Lecture PowerPoints Chapter 11 Intermolecular Forces and the Physical Properties of Liquids and Solids ©2020 McGraw-Hill Education. All rights reserved. Authorized only for instructor use in the classroom.  No reproduction or further distribution permitted without the prior written consent of McGraw-Hill Education.

11.1 Intermolecular Forces 2 We will begin our discussion of intermolecular forces with the attractive forces that act between atoms or molecules in a pure substance. These forces are known collectively as van der Waals forces, and they include dipole-dipole interactions, including hydrogen bonding and dispersion forces.

11.1 Intermolecular Forces 3 Dipole-Dipole Interactions Dipole-dipole interactions are attractive forces that act between polar molecules.

11.1 Intermolecular Forces 4 Dipole-Dipole Interactions TABLE 11.1 Dipole Moments and Boiling Points of Compounds with Similar Molecular Masses. Compound Structural Formula Dipole Moment (D) Boiling Point (°C) Propane CH3CH2CH3 0.1 −42 Dimethyl ether CH3OCH3 1.3 −25 Methyl chloride CH3Cl 1.9 −24 Acetaldehyde CH3CHO 2.7 21 Acetonitrile CH3CN 2.9 82

11.1 Intermolecular Forces 5 Hydrogen Bonding Hydrogen bonding is a special type of dipole-dipole interaction. But, whereas dipole-dipole interactions act between any polar molecules, hydrogen bonding occurs only in molecules that contain H bonded to a small, highly electronegative atom, such as N, O, or F.

11.1 Intermolecular Forces 6 Hydrogen Bonding Access the text alternative for these images

11.2 Properties of Liquids 1 Surface Tension A quantitative measure of the elastic force in the surface of a liquid is the surface tension, the amount of energy required to stretch or increase the surface of a liquid by a unit area (for example, by 1 cm2). A liquid with strong intermolecular forces has a high surface tension.

Access the text alternative for these images 11.2 Properties of Liquids 2 Surface Tension An illustration of surface tension is the meniscus, the curved surface of a liquid contained in a narrow tube. Access the text alternative for these images

11.2 Properties of Liquids 3 Surface Tension Surface tension is responsible for capillary action, in which water is pulled up into a narrow glass cylinder. Two types of forces bring about capillary action. One is cohesion, the attractions between like molecules (in this case, between water molecules). The other is adhesion, the attractions between unlike molecules.

11.2 Properties of Liquids 4 Viscosity Another property determined by the magnitude of intermolecular forces in a liquid is viscosity. Viscosity, with units of N · s/m2, is a measure of a fluid’s resistance to flow. The higher the viscosity, the more slowly a liquid flows. Liquids that have strong intermolecular forces have higher viscosities than those that have weaker intermolecular forces.

11.6 Phase Changes 1 Liquid-Vapor Phase Transition A phase is a homogeneous part of a system that is separated from the rest of the system by a well- defined boundary. When a substance goes from one phase to another phase, we say that it has undergone a phase change. Phase changes in a system are generally caused by the addition or removal of energy, usually in the form of heat.

11.6 Phase Changes 2 Liquid-Vapor Phase Transition Example Freezing of water H2O(l) → H2O(s) Evaporation (or vaporization) of water H2O(l) → H2O(g) Melting (fusion) of ice H2O(s) → H2O(l) Condensation of water vapor H2O(g) → H2O(l) Sublimation of dry ice CO2(s) → CO2(g)

Access the text alternative for these images 11.6 Phase Changes 3 Liquid-Vapor Phase Transition Access the text alternative for these images

11.6 Phase Changes 4 Liquid-Vapor Phase Transition The boiling point of a substance is defined as the temperature at which its vapor pressure equals the external, atmospheric pressure. The temperature at which the vapor pressure of a liquid is equal to 1 atm is called the normal boiling point.

11.6 Phase Changes 5 Liquid-Vapor Phase Transition Because the boiling point is defined in terms of the vapor pressure of the liquid, the boiling point is related to the molar heat of vaporization (Hvap), the amount of heat required to vaporize a mole of substance at its boiling point.

11.6 Phase Changes 9 Liquid-Vapor Phase Transition The transformation of liquid to solid is called freezing, and the reverse process is called melting, or fusion. The melting point of a solid or the freezing point of a liquid is the temperature at which solid and liquid phases coexist in equilibrium. The normal melting (or freezing) point of a substance is the temperature at which it melts (or freezes) at 1 atm.

11.6 Phase Changes 10 Solid-Liquid Phase Transition The molar heat of fusion (Hfus) is the energy, usually expressed in kJ/mol, required to melt 1 mole of a solid. TABLE 11.8 Molar Heats of Fusion for Selected Substances. Substance Melting Point (°C) ΔHfus (kJ/mol) Argon (Ar) −190 1.3 Benzene (C6H6) 5.5 10.9 Ethanol (C2H5OH) −117.3 7.61 Diethyl ether (C2H5OC2H5) −116.2 6.90 Mercury (Hg) −39 23.4 Methane (CH4) −183 0.84 Water (H2O) 6.01

Access the text alternative for these images 11.6 Phase Changes 12 Solid-Liquid Phase Transition Access the text alternative for these images

11.7 Phase Diagrams 1 Phase Diagrams A phase diagram summarizes the conditions (temperature and pressure) at which a substance exists as a solid, liquid, or gas.

11.7 Phase Diagrams 2 Phase Diagrams Heating solid CO2 initially at −100 degrees C and 1 atm (point 1) causes it to sublime when it reaches −78 degrees C (point 2). At 25 degrees C, increasing the pressure from 1 atm (point 3) to about 70 (point 4) will cause CO2 to condense to a liquid.

Access the text alternative for these images 11.7 Phase Diagrams 3 Phase Diagrams The Unusual Phase Diagram of Water. Access the text alternative for these images

SAMPLE PROBLEM 11.8 (1) Using the following phase diagram, determine the normal boiling point and the normal melting point of the substance, determine the physical state of the substance at 2 atm and 110 degrees C, and. determine the pressure and temperature that correspond to the triple point of the substance.

Access the text alternative for these images SAMPLE PROBLEM 11.8 (2) Access the text alternative for these images

SAMPLE PROBLEM 11.8 Solution 1 The normal boiling and melting points are 140°C and 205°C, respectively. Access the text alternative for these images

SAMPLE PROBLEM 11.8 Solution 2 At 2 atm and 110 degrees C the substance is a solid.

SAMPLE PROBLEM 11.8 Solution 3 The triple point occurs at 0.8 atm and 115°C.