Chapter 12 Liquids, Solids, and Intermolecular Forces

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Chemistry 25 Chapter 12 Liquids, Solids, and Intermolecular Forces The Physical States of Matter Matter can be classified as solid, liquid, or gas based on what properties it exhibits. State Shape Volume Compress Flow Solid Fixed Fixed No No Liquid Indef. Fixed No Yes Gas Indef. Indef. Yes Yes Fixed = Keeps shape when placed in a container. Indefinite = Takes the shape of the container. 1

The Structure of Solids, Liquids, and Gases Solids The particles in a solid are packed close together and are fixed in position. Though they are The close packing of the particles results in solids being incompressible. The inability of the particles to move around results in solids retaining their shape and volume when placed in a new container, and prevents the particles from flowing. 2

Types of Solids Crystalline solids Amorphous solids Liquids The particles in a liquid are closely packed, but they have some ability to move around. The close packing results in liquids being incompressible. But the ability of the particles to move allows liquids to take the shape of their container and to flow. However, they don t have enough freedom to escape and expand to fill the container(s). 3

Gases In the gas state, the particles have complete freedom from each other. The particles are constantly flying around, bumping into each other and their container(s). In the gas state, there is a lot of empty space between the particles. the particles can be squeezed closer together. Why Is Sugar a Solid, But Water Is a Liquid? The state a material exists in depends on 2 forces The attraction between molecules Their ability to overcome the attraction 4

Properties and Attractive Forces Phase Relative strength of attractive forces Shape Volume Gas Liquid Solid Phase Changes: Boiling Convert a material in the liquid state into a gas by heating it. Adding heat energy increases the amount of energy of the molecules in the liquid. Overcome the holding them together. Complete freedom to move around and rotate. 5

Phase Changes: Melting Convert a material in the solid state into a liquid by heating it. Adding heat energy increases the amount of of the molecules in the solid. Overcome the attractive forces holding them in place. Move around a little and rotate. Properties of Liquids: Surface Tension Liquids tend to This tendency causes liquids to have a surface that resists penetration. The stronger the attractive force between the molecules, 6

Properties of Liquids: Surface Tension Molecules in the interior of a liquid experience attractions Molecules on the surface experience an Properties of Liquids: Viscosity Some liquids flow more easily than others. The resistance of a liquid s flow is called viscosity. the attractive the molecule s shape 7

Escaping from the Surface Evaporation/vaporization The process of molecules of It is a physical change in which a substance is converted from The gaseous form is called It happens at the surface. Molecules on the surface experience a smaller net attractive force than molecules in the interior. All the surface molecules do not escape at once, Escaping from the Surface Not all molecules in the sample have the same amount of kinetic energy. The average kinetic energy is directly proportional to the 8

Escaping from the Surface Since the higher energy molecules from the liquid are leaving, The remaining molecules redistribute their energies, generating more high energy molecules. The result is that the liquid continues to evaporate. Factors Effecting the Rate of Evaporation Liquids that evaporate quickly are called volatile liquids, while those that do not are called nonvolatile. 1. Increasing the increases the rate of evaporation. 2. Increasing the increases the rate of evaporation. 3. Weaker attractive forces between the molecules = faster rate of evaporation. 9

Dynamic Equilibrium: Evaporation and Condensation Saturated Vapor Pressure Once equilibrium is reached, from that time forward, the amount of vapor in the container will remain the same. The vapor pressure of a liquid depends on the 10

Boiling In an open container, as you heat a liquid the average kinetic energy of the molecules increases, giving more molecules enough energy to escape the surface. So the rate of evaporation increases. Eventually, the temperature is high enough for molecules in the interior of the liquid to escape. A phenomenon we call boiling. Boiling Point The temperature at which the vapor pressure of the liquid is the same as the atmospheric pressure. The boiling point depends on what the atmospheric pressure is. The temperature of boiling water on the top of a mountain will be cooler than boiling water at sea level. The normal boiling point is the temperature required for the vapor pressure of the liquid to be equal to 1 atm. 11

Temperature and Boiling Heat of Vaporization The amount of heat needed to vaporize one mole of a liquid is called the heat of vaporization. ΔH vap It requires 40.7 kj of heat to vaporize one mole of water at 100 C. Always endothermic. Number is +. ΔH vap depends on Since condensation is the opposite process to evaporation, the same amount of energy is transferred but in the opposite direction. 12

Heats of Vaporization of Liquids at Their Boiling Points and at 25 C Liquid Chemical formula Normal boiling point, C ΔH vap at boiling point, (kj/mol) ΔH vap at 25 C, (kj/mol) Water H 2 O 100 +40.7 +44.0 Isopropyl alcohol C 3 H 7 OH 82.3 +39.9 +45.4 Acetone C 3 H 6 O 56.1 +29.1 +31.0 Diethyl ether C 4 H 10 O 34.5 +26.5 +27.1 Example Calculate the Mass of Water that Can Be Vaporized with 155 KJ of Heat at 100 C. 13

Practice How Much Heat Energy, in kj, is Required to Vaporize 87 g of Acetone, C 3 H 6 O, (MM 58.08) at 25 C? (ΔH vap = 31.0 kj/mol) Temperature and Melting 14

Heat of Fusion The amount of heat needed to melt one mole of a solid is called the heat of fusion. ΔH fus Fusion is an old term for heating a substance until it melts, it is not the same as nuclear fusion. Since freezing (crystallization) is the opposite process of melting, the amount of energy transferred is the same, but in the opposite direction. ΔH crystal = -ΔH fus In general, ΔH vap > ΔH fus because vaporization requires breaking all attractive forces. Heats of Fusion of Several Substances Liquid Chemical formula Melting point, C ΔH fusion, (kj/mol) Water H 2 O 0.00 6.02 Isopropyl alcohol C 3 H 7 OH -89.5 5.37 Acetone C 3 H 6 O -94.8 5.69 Diethyl ether C 4 H 10 O -116.3 7.27 15

Example Calculate the Mass of Ice that Can Be Melted with 237 kj of Heat. Practice How Much Heat Energy, in kj, is Required to Melt 87 g of Acetone, C 3 H 6 O, (MM 58.08)? (ΔH fus = 5.69 kj/mol) 16

Sublimation Sublimation is a physical change in which the solid form changes directly to the gaseous form. Without going through the liquid form. Like melting, sublimation is endothermic. Intermolecular Attractive Forces 17

Effect of the Strength of Intermolecular Attractions on Properties The stronger the intermolecular attractions are, the more energy it takes to separate the molecules. Substances with strong intermolecular attractions have higher boiling points, melting points, and heat of vaporization; they also have lower vapor pressures. Why Are Molecules Attracted to Each Other? Intermolecular attractions are a result of attractive forces between opposite charges. Larger charge = stronger attraction. 18

Dispersion Forces Also known as London forces or instantaneous dipoles. Caused by distortions in the electron cloud of one molecule inducing distortion in the electron cloud on another. Distortions in the electron cloud lead to a temporary dipole. The temporary dipoles lead to attractions between molecules dispersion forces. Strength of the Dispersion Force Depends on how easily the electrons can move, or be polarized. The more electrons and the farther they are from the nuclei, the larger the dipole that can be induced. Strength of the dispersion force gets larger with larger molecules. 19

Dispersion Force and Molar Mass Noble Gas Molar Mass (g/mol) Boiling Point (K) He 4.00 4.2 Ne 20.18 27 Ar 39.95 87 Kr 83.80 120 Xe 131.29 165 Relationship between Dispersion Force and Molecular Size 20

Practice The Following Are All Made of Non Polar Molecules. Pick the Substance in Each Pair with the Highest Boiling Point. CH 4 or C 3 H 8 BF 3 or BCl 3 CO 2 or CS 2 Permanent Dipoles Because of the kinds of atoms that are bonded together and their relative positions in the molecule, some molecules have a permanent dipole. Polar molecules. 21

Dipole-to-Dipole Attraction Polar molecules have a permanent dipole. A + end and a end. The + end of one molecule will be attracted to the end of another. Polarity and Dipole-to-Dipole Attraction Molar Mass Boiling Dipole (g/mol) Point, C size, D CH 3 CH 2 CH 3 44-42 0 CH 3 -O-CH 3 46-24 1.3 CH 3 - CH=O 44 20.2 2.7 CH 3 -C N 41 81.6 3.9 22

Attractive Forces Dispersion forces All molecules. Dipole-to-dipole forces Polar molecules. Intermolecular Attraction and Properties Therefore, the strength of attraction is stronger between polar molecules than between nonpolar molecules of the same size. 23

Practice Determine Which of the Following Has Dipole Dipole Attractive Forces. (EN C= 2.5, F = 4, H = 2.1, S = 2.5) CS 2 CH 2 F 2 CF 4 Attractive Forces and Properties Like dissolves like. Miscible = Liquids that do not separate, no matter what the proportions. 1. 2. 3. 24

Immiscible Liquids When liquid pentane, a nonpolar substance, is mixed with water, a polar substance, the two liquids separate because they are more attracted to their own kind of molecule than to the other. Hydrogen Bonding groups have particularly strong intermolecular attractions. Unusually high melting and boiling points. Unusually high solubility in water. This kind of attraction is called a hydrogen bond. 25

Properties and H-Bonding Name Formula MM (g/mol) Structure Boiling pt, C Melting pt, C Solubility in water H H Ethane C 2 H 6 30.0 H C C H -88-172 Immiscible H H H Ethanol CH 4 O 32.0 H C O H 64.7-97.8 Miscible H Intermolecular H-Bonding 26

Hydrogen Bonding When a very electronegative atom is bonded to hydrogen, it strongly pulls the bonding electrons toward it. Since hydrogen has no other electrons, when it loses the electrons, the nucleus becomes deshielded. The exposed proton acts as a very strong center of positive charge, attracting all the electron clouds from neighboring molecules. H-Bonds vs. Chemical Bonds Hydrogen bonds are not chemical bonds. Hydrogen bonds are attractive forces between molecules. Chemical bonds are attractive forces that make molecules. 27

Relationship between H-Bonding and Intermolecular Attraction Attractive Forces and Properties Molar Mass (g/mol) Boiling Point, C Solubility in water (g/100 g H 2 O) CH 3 CH 2 OCH 2 CH 3 74 34.6 7.5 CH 3 CH 2 CH 2 CH 2 CH 3 72 36 Insoluble CH 3 CH 2 CH 2 CH 2 OH 74 117 9 28

Which of the Following Is a Liquid at Room Temperature? (The Other Two Are Gases.) formaldehyde, CH 2 O 30.03 g/mol polar molecule dipole dipole attractions present polar C=O bond & asymmetric fluoromethane, CH 3 F 34.03 g/mol polar molecule dipole dipole attractions present polar C F bond & asymmetric hydrogen peroxide, H 2 O 2 34.02 g/mol polar molecule dipole dipole attractions present polar H O bonds & asymmetric H O bonds Hydrogen bonding present Pick the Compound in Each Pair Expected to Have the Higher Solubility in H 2 O. CH 3 CH 2 OCH 2 CH 3 or CH 3 CH 2 CH 2 CH 2 CH 3. CH 3 CH 2 NHCH 3 or CH 3 CH 2 CH 2 CH 3. CH 3 CH 2 OH or CH 3 CH 2 CH 2 CH 2 CH 2 OH. 29

Types of Intermolecular Forces Type of force Relative strength Present in Example Dispersion force Dipole Dipole force Hydrogen Bond Crystalline Solids 30

Molecular Crystalline Solids Molecular solids are solids whose composite units are molecules. Solid held together by intermolecular attractive forces. Generally low melting points and ΔH fusion. Ionic Crystalline Solids Ionic solids are solids whose composite units are formula units. Solid held together by attractive forces between cations and anions. Generally higher melting points and ΔH fusion than molecular solids. Because ionic bonds are stronger than intermolecular forces. 31

Atomic Crystalline Solids Atomic solids are solids whose composite units are individual atoms. Solids held together by either covalent bonds, dispersion forces, or metallic bonds. Melting points and ΔH fusion vary depending on the attractive forces between the atoms. Classify Each of the Following Crystalline Solids as Molecular, Ionic, or Atomic. H 2 O(s) Si(s) C 12 H 22 O 11 (s) CaF 2 (s) Sc(NO 3 ) 3 (s) 32

Types of Atomic Solids: Covalent Covalent atomic solids have their atoms attached by covalent bonds. Effectively, the entire solid is one giant molecule. Because covalent bonds are strong, these solids have Because covalent bonds are directional, these substances tend to be Elements found as covalent atomic solids are C, Si, and B. Compounds that occur as covalent atomic solids include SiO 2 and SiC. Types of Atomic Solids: Metallic Metallic solids are held together by metallic bonds. Metal atoms release some of their electrons to be shared by all the other atoms in the crystal. The metallic bond is the attraction of the metal cations for the mobile electrons. Often described as islands of cations in a sea of electrons. The luster, malleability, ductility, and electrical and thermal conductivity are all related to the mobility of the electrons in the solid. The strength of the metallic bond varies, 33

Substances with Both Bonding and Nonbonding Attractions Some substances have chains or layers of bonded atoms that are then attracted by dispersion forces. Chain substances include grey selenium, polymeric SO 3, and asbestos. Layer substances include graphite, black phosphorus, and mica. Decide if Each of the Following Atomic Solids Is Covalent, Metallic, or Nonbonding. diamond neon iron 34

Water: A Unique and Important Substance Water is found in all three states on Earth. As a liquid, it is the most common solvent found in nature. Without water, life as we know it could not exist. The search for extraterrestrial life starts with the search for water. Water Liquid at room temperature. Most molecular substances that have a molar mass (18.02 g/mol) similar to water s are gaseous. Relatively high boiling point. Expands as it freezes. 35

Vocabularies Melting Boiling (point) Sublimation surface tension Evaporation/vaporiza tion Saturated vapor pressure Viscosity the heat of vaporization/fusion Dispersion Forces/ London forces Dipole Dipole force Hydrogen Bond Solubility 36

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