compared to gases. They are incompressible. Their density doesn t change with temperature. These similarities are due

Size: px
Start display at page:

Download "compared to gases. They are incompressible. Their density doesn t change with temperature. These similarities are due"

Transcription

1 Liquids and solids

2 They are similar compared to gases. They are incompressible. Their density doesn t change with temperature. These similarities are due to the molecules being close together in solids and liquids and far apart in gases What holds them close together?

3 Intermolecular forces Inside molecules (intramolecular) the atoms are bonded to each other. Intermolecular refers to the forces between the molecules. These are what hold the molecules together in the condensed states.

4 Intermolecular forces Strong covalent bonding ionic bonding Weak Dipole dipole London dispersion forces During phase changes the molecules stay intact. Energy used to overcome forces.

5 Dipole - Dipole Remember where the polar definition came from? Molecules line up in the presence of a electric field. The opposite ends of the dipole can attract each other so the molecules stay close together. 1% as strong as covalent bonds Weaker with greater distance. Small role in gases.

6

7 Hydrogen Bonding Especially strong dipole-dipole forces when H is attached to F, O, or N These three because- They have high electronegativity. They are small enough to get close. Effects boiling point.

8 100 H 2 O Boiling Points HF 0ºC H 2 Te NH 3 H H 2 S 2 Se SbH 3 AsH HI HCl 3 HBr -100 PH 3 GeH SnH 4 4 SiH 4 CH 4 200

9 Water δ- δ+ δ+

10 London Dispersion Forces Non - polar molecules also exert forces on each other. Otherwise, no solids or liquids. Electrons are not evenly distributed at every instant in time. Have an instantaneous dipole. Induces a dipole in the atom next to it. Induced dipole- induced dipole interaction.

11 Example δ+ δ+ δ- δ+ δ H H H H

12 London Dispersion Forces Weak, short lived. Lasts longer at low temperature. Eventually long enough to make liquids. More electrons, more polarizable. Bigger molecules, higher melting and boiling points. Much, much weaker than other forces. Also called Van der Waal s forces.

13 Liquids Many of the properties due to internal attraction of atoms. Beading Surface tension Capillary action Stronger intermolecular forces cause each of these to increase.

14 Molecules at the the top are only pulled inside. Molecules in the middle are attracted in all directions. Surface tension Minimizes surface area.

15 Capillary Action Liquids spontaneously rise in a narrow tube. Inter molecular forces are cohesive, connecting like things. Adhesive forces connect to something else. Glass is polar. It attracts water molecules.

16

17 Beading If a polar substance is placed on a nonpolar surface. There are cohesive, But no adhesive forces. And Visa Versa

18 Viscosity How much a liquid resists flowing. Large forces, more viscous. Large molecules can get tangled up. Cyclohexane has a lower viscosity than hexane. Because it is a circle- more compact.

19 How much of these? Stronger forces, bigger effect. Hydrogen bonding Polar bonding LDF

20 Model Can t see molecules so picture them as- In motion but attracted to each other With regions arranged like solids but with higher disorder. with fewer holes than a gas. Highly dynamic, regions changing between types.

21 Phases The phase of a substance is determined by three things. The temperature. The pressure. The strength of intermolecular forces.

22 Two major types. Solids Amorphous- those with much disorder in their structure. Crystalline- have a regular arrangement of components in their structure.

23 Crystals Lattice- a three dimensional grid that describes the locations of the pieces in a crystalline solid. Unit Cell-The smallest repeating unit in of the lattice. Three common types.

24 Cubic

25 Body-Centered Cubic

26 Face-Centered Cubic

27 Solids There are many amorphous solids. Like glass. We tend to focus on crystalline solids. two types. Ionic solids have ions at the lattice points. Molecular solids have molecules. Sugar vs. Salt.

28 The book drones on about Using diffraction patterns to identify crystal structures. Talks about metals and the closest packing model. It is interesting, but trivial. We need to focus on metallic bonding. Why do metal atoms stay together. How there bonding effect their properties.

29 Metallic bonding 3p 3s Empty Molecular Orbitals Filled Molecular Orbitals 2p 2s 1s Magnesium Atoms

30 The 1s, 2s, and 2p electrons are close to nucleus, so they are not able to move around. 3p 3s 2p 2s 1s Empty Molecular Orbitals Filled Molecular Orbitals Magnesium Atoms

31 The 3s and 3p orbitals overlap and form molecular orbitals. 3p 3s Empty Molecular Orbitals Filled Molecular Orbitals 2p 2s 1s Magnesium Atoms

32 Electrons in these energy level can travel freely throughout the crystal. 3p 3s Empty Molecular Orbitals Filled Molecular Orbitals 2p 2s 1s Magnesium Atoms

33 This makes metals conductors Malleable because the bonds are flexible. 3p 3s Empty Molecular Orbitals Filled Molecular Orbitals 2p 2s 1s Magnesium Atoms

34 Carbon- A Special Atomic Solid There are three types of solid carbon. Amorphous- coal uninteresting. Diamond- hardest natural substance on earth, insulates both heat and electricity. Graphite- slippery, conducts electricity. How the atoms in these network solids are connected explains why.

35 Diamond- each Carbon is sp3 hybridized, connected to four other carbons. Carbon atoms are locked into tetrahedral shape. Strong σ bonds give the huge molecule its hardness.

36 Why is it an insulator? Empty MOs The space between orbitals make it impossible for electrons to move around Filled MOs E

37 Graphite is different. Each carbon is connected to three other carbons and sp 2 hybridized. The molecule is flat with 120º angles in fused 6 member rings. The π bonds extend above and below the plane.

38 This π bond overlap forms a huge π bonding network. Electrons are free to move through out these delocalized orbitals. The layers slide by each other.

39 Molecular solids. Molecules occupy the corners of the lattices. Different molecules have different forces between them. These forces depend on the size of the molecule. They also depend on the strength and nature of dipole moments.

40 Those without dipoles. Most are gases at 25ºC. The only forces are London Dispersion Forces. These depend on size of atom. Large molecules (such as I 2 ) can be solids even without dipoles.

41 Those with dipoles. Dipole-dipole forces are generally stronger than L.D.F. Hydrogen bonding is stronger than Dipole-dipole forces. No matter how strong the intermolecular force, it is always much, much weaker than the forces in bonds. Stronger forces lead to higher melting and freezing points.

42 δ - O δ + H H δ + Water is special Each molecule has two polar O-H bonds.

43 O δ + H H δ + Water is special Each molecule has two polar O-H bonds. Each molecule has two lone pair on its oxygen.

44 O δ + H H δ + Water is special Each molecule has two polar O-H bonds. Each molecule has two lone pair on its oxygen. Each oxygen can interact with 4 hydrogen atoms.

45 Water is special O O δ + H H δ + δ + H H δ + O δ + H H δ + This gives water an especially high melting and boiling point.

46 Ionic Solids The extremes in dipole dipole forcesatoms are actually held together by opposite charges. Huge melting and boiling points. Atoms are locked in lattice so hard and brittle. Every electron is accounted for so they are poor conductors-good insulators.

47 Vapor Pressure Vaporization - change from liquid to gas at boiling point. Evaporation - change from liquid to gas below boiling point Heat (or Enthalpy) of Vaporization ( H vap )- the energy required to vaporize 1 mol at 1 atm.

48 Vaporization is an endothermic process - it requires heat. Energy is required to overcome intermolecular forces. Responsible for cool earth. Why we sweat. (Never let them see you.)

49 Condensation Change from gas to liquid. Achieves a dynamic equilibrium with vaporization in a closed system. What is a closed system? A closed system means matter can t go in or out. Put a cork in it. What the heck is a dynamic equilibrium?

50 Dynamic equilibrium When first sealed the molecules gradually escape the surface of the liquid.

51 Dynamic equilibrium When first sealed the molecules gradually escape the surface of the liquid. As the molecules build up above the liquid some condense back to a liquid.

52 Dynamic equilibrium When first sealed the molecules gradually escape the surface of the liquid. As the molecules build up above the liquid some condense back to a liquid. As time goes by the rate of vaporization remains constant but the rate of condensation increases because there are more molecules to condense.

53 Dynamic equilibrium When first sealed the molecules gradually escape the surface of the liquid As the molecules build up above the liquid some condense back to a liquid. As time goes by the rate of vaporization remains constant but the rate of condensation increases because there are more molecules to condense. Equilibrium is reached when

54 Dynamic equilibrium Rate of Vaporization = Rate of Condensation Molecules are constantly changing phase Dynamic The total amount of liquid and vapor remains constant Equilibrium

55 Vapor pressure The pressure above the liquid at equilibrium. Liquids with high vapor pressures evaporate easily. They are called volatile. Decreases with increasing intermolecular forces. Bigger molecules (bigger LDF) More polar molecules (dipole-dipole)

56 Vapor pressure Increases with increasing temperature. Easily measured in a barometer.

57 P atm = 760 torr Vacuum A barometer will hold a column of mercury 760 mm high at one atm Dish of Hg

58 Vacuum P atm = 760 torr A barometer will hold a column of mercury 760 mm high at one atm. If we inject a volatile liquid in the barometer it will rise to the top of the mercury. Dish of Hg

59 P atm = 760 torr Dish of Hg Water A barometer will hold a column of mercury 760 mm high at one atm. If we inject a volatile liquid in the barometer it will rise to the top of the mercury. There it will vaporize and push the column of mercury down.

60 Water Vapor 736 mm Hg The mercury is pushed down by the vapor pressure. P atm = P Hg + P vap P atm -P Hg = P vap = 24 torr Dish of Hg

61 Temperature Effect # of molecules T 1 Energy needed to overcome intermolecular forces Kinetic energy

62 At higher temperature more molecules have enough energy - higher vapor pressure. # of molecules T 1 Energy needed to overcome intermolecular forces T 2 Kinetic energy

63 Mathematical relationship ln P P vap T1 vap T2 = H vap 1 R T - 1 T ln is the natural logarithm ln = Log base e 2 1 e = Euler s number an irrational number like π H vap is the heat of vaporization in J/mol

64 Mathematical relationship ln P P vap T1 vap T2 = R = J/K mol. H vap 1 R T - 1 T 2 1 Surprisingly this is the graph of a straight line. (actually the proof is in the book)

65 Changes of state The graph of temperature versus heat applied is called a heating curve. The temperature a solid turns to a liquid is the melting point. The energy required to accomplish this change is called the Heat (or Enthalpy) of Fusion H fus

66 Heating Curve for Water Ice Water and Ice Water Water and Steam Steam

67 Heating Curve for Water Slope is Heat Capacity Heat of Fusion Heat of Vaporization

68 Melting Point Melting point is determined by the vapor pressure of the solid and the liquid. At the melting point the vapor pressure of the solid = vapor pressure of the liquid

69 Water Vapor Vapor Solid Water Liquid Water

70 If the vapor pressure of the solid is higher than that of the liquid the solid will release molecules to achieve equilibrium. Water Vapor Vapor Solid Water Liquid Water

71 While the molecules of condense to a liquid. Water Vapor Vapor Solid Water Liquid Water

72 This can only happen if the temperature is above the freezing point since solid is turning to liquid. Water Vapor Vapor Solid Water Liquid Water

73 If the vapor pressure of the liquid is higher than that of the solid, the liquid will release molecules to achieve equilibrium. Water Vapor Vapor Solid Water Liquid Water

74 While the molecules condense to a solid. Water Vapor Vapor Solid Water Liquid Water

75 The temperature must be above the freezing point since the liquid is turning to a solid. Water Vapor Vapor Solid Water Liquid Water

76 If the vapor pressure of the solid and liquid are equal, the solid and liquid are vaporizing and condensing at the same rate. The Melting point. Water Vapor Vapor Solid Water Liquid Water

77 Boiling Point Reached when the vapor pressure equals the external pressure. Normal boiling point is the boiling point at 1 atm pressure. Super heating - Heating above the boiling point. Supercooling - Cooling below the freezing point.

78 Phase Diagrams. A plot of temperature versus pressure for a closed system, with lines to indicate where there is a phase change.

79 Pressure Solid 1 Atm B C Liquid B C D D D D A A Gas Temperature

80 Pressure Solid Liquid Critical Point Triple Point Gas Temperature

81 Pressure This is the phase diagram for water. The density of liquid water is higer than solid water. Solid Liquid Gas Temperature

82 Pressure This is the phase diagram for CO 2 The solid is more dense than the liquid The solid sublimes at 1 atm. Solid Liquid 1 Atm Gas Temperature

They are similar to each other. Intermolecular forces

They are similar to each other. Intermolecular forces s and solids They are similar to each other Different than gases. They are incompressible. Their density doesn t change much with temperature. These similarities are due to the molecules staying close

More information

They are similar to each other

They are similar to each other They are similar to each other Different than gases. They are incompressible. Their density doesn t change much with temperature. These similarities are due to the molecules staying close together in solids

More information

- intermolecular forces forces that exist between molecules

- intermolecular forces forces that exist between molecules Chapter 11: Intermolecular Forces, Liquids, and Solids - intermolecular forces forces that exist between molecules 11.1 A Molecular Comparison of Liquids and Solids - gases - average kinetic energy of

More information

CHAPTER 10. Liquids and solids

CHAPTER 10. Liquids and solids CHAPTER 10 Liquids and solids 10.1 - Forces Solids and Liquids Gases can be compressed because gas particles are far apart. (ideal gases do not interact with one another NO IMF s) Liquid and solids are

More information

London Dispersion Forces (LDFs) Intermolecular Forces Attractions BETWEEN molecules. London Dispersion Forces (LDFs) London Dispersion Forces (LDFs)

London Dispersion Forces (LDFs) Intermolecular Forces Attractions BETWEEN molecules. London Dispersion Forces (LDFs) London Dispersion Forces (LDFs) LIQUIDS / SOLIDS / IMFs Intermolecular Forces (IMFs) Attractions BETWEEN molecules NOT within molecules NOT true bonds weaker attractions Represented by dashed lines Physical properties (melting points,

More information

Chapter 10. Liquids and Solids

Chapter 10. Liquids and Solids Chapter 10 Liquids and Solids Section 10.1 Intermolecular Forces Section 10.1 Intermolecular Forces Section 10.1 Intermolecular Forces Section 10.1 Intermolecular Forces Metallic bonds Covalent bonds Ionic

More information

Chapter 10. Liquids and Solids

Chapter 10. Liquids and Solids Chapter 10 Liquids and Solids Chapter 10 Table of Contents 10.1 Intermolecular Forces 10.2 The Liquid State 10.3 An Introduction to Structures and Types of Solids 10.4 Structure and Bonding in Metals 10.5

More information

Chapter 10: Liquids and Solids

Chapter 10: Liquids and Solids Chapter 10: Liquids and Solids Chapter 10: Liquids and Solids *Liquids and solids show many similarities and are strikingly different from their gaseous state. 10.1 Intermolecular Forces Intermolecular

More information

AP* Chapter 10. Liquids and Solids. Friday, November 22, 13

AP* Chapter 10. Liquids and Solids. Friday, November 22, 13 AP* Chapter 10 Liquids and Solids AP Learning Objectives LO 1.11 The student can analyze data, based on periodicity and the properties of binary compounds, to identify patterns and generate hypotheses

More information

Ch. 9 Liquids and Solids

Ch. 9 Liquids and Solids Intermolecular Forces I. A note about gases, liquids and gases. A. Gases: very disordered, particles move fast and are far apart. B. Liquid: disordered, particles are close together but can still move.

More information

Chemistry 101 Chapter 14 Liquids & Solids

Chemistry 101 Chapter 14 Liquids & Solids Chemistry 101 Chapter 14 Liquids & Solids States of matter: the physical state of matter depends on a balance between the kinetic energy of particles, which tends to keep them apart, and the attractive

More information

Chapter 10: Liquids, Solids, and Phase Changes

Chapter 10: Liquids, Solids, and Phase Changes Chapter 10: Liquids, Solids, and Phase Changes In-chapter exercises: 10.1 10.6, 10.11; End-of-chapter Problems: 10.26, 10.31, 10.32, 10.33, 10.34, 10.35, 10.36, 10.39, 10.40, 10.42, 10.44, 10.45, 10.66,

More information

Chapter 11. Intermolecular Forces and Liquids & Solids

Chapter 11. Intermolecular Forces and Liquids & Solids Chapter 11 Intermolecular Forces and Liquids & Solids The Kinetic Molecular Theory of Liquids & Solids Gases vs. Liquids & Solids difference is distance between molecules Liquids Molecules close together;

More information

CHAPTER ELEVEN KINETIC MOLECULAR THEORY OF LIQUIDS AND SOLIDS KINETIC MOLECULAR THEORY OF LIQUIDS AND SOLIDS

CHAPTER ELEVEN KINETIC MOLECULAR THEORY OF LIQUIDS AND SOLIDS KINETIC MOLECULAR THEORY OF LIQUIDS AND SOLIDS CHAPTER ELEVEN AND LIQUIDS AND SOLIDS KINETIC MOLECULAR THEORY OF LIQUIDS AND SOLIDS Differences between condensed states and gases? KINETIC MOLECULAR THEORY OF LIQUIDS AND SOLIDS Phase Homogeneous part

More information

Liquids & Solids. For the condensed states the ave KE is less than the attraction between molecules so they are held together.

Liquids & Solids. For the condensed states the ave KE is less than the attraction between molecules so they are held together. Liquids & Solids Intermolecular Forces Matter exists in 3 states. The state of matter is influenced by the physical properties of a substance. For liquids & solids, the condensed states, many of the physical

More information

2. As gas P increases and/or T is lowered, intermolecular forces become significant, and deviations from ideal gas laws occur (van der Waal equation).

2. As gas P increases and/or T is lowered, intermolecular forces become significant, and deviations from ideal gas laws occur (van der Waal equation). A. Introduction. (Section 11.1) CHAPTER 11: STATES OF MATTER, LIQUIDS AND SOLIDS 1. Gases are easily treated mathematically because molecules behave independently. 2. As gas P increases and/or T is lowered,

More information

The Liquid and Solid States

The Liquid and Solid States : The Liquid and Solid States 10-1 10.1 Changes of State How do solids, liquids and gases differ? Figure 10.4 10-2 1 10.1 Changes of State : transitions between physical states Vaporization/Condensation

More information

Ch. 11: Liquids and Intermolecular Forces

Ch. 11: Liquids and Intermolecular Forces Ch. 11: Liquids and Intermolecular Forces Learning goals and key skills: Identify the intermolecular attractive interactions (dispersion, dipole-dipole, hydrogen bonding, ion-dipole) that exist between

More information

Chapter 11. Liquids and Intermolecular Forces

Chapter 11. Liquids and Intermolecular Forces Chapter 11. Liquids and Intermolecular Forces 11.1 A Molecular Comparison of Gases, Liquids, and Solids Gases are highly compressible and assume the shape and volume of their container. Gas molecules are

More information

Chapter 11. Intermolecular Forces, Liquids, and Solids

Chapter 11. Intermolecular Forces, Liquids, and Solids Chapter 11. Intermolecular Forces, Liquids, and Solids A Molecular Comparison of Gases, Liquids, and Solids Physical properties of substances are understood in terms of kinetic-molecular theory: Gases

More information

Liquids & Solids. Mr. Hollister Holliday Legacy High School Regular & Honors Chemistry

Liquids & Solids. Mr. Hollister Holliday Legacy High School Regular & Honors Chemistry Liquids & Solids Mr. Hollister Holliday Legacy High School Regular & Honors Chemistry 1 Liquids 2 Properties of the States of Matter: Liquids High densities compared to gases. Fluid. The material exhibits

More information

Chapter 12. Insert picture from First page of chapter. Intermolecular Forces and the Physical Properties of Liquids and Solids

Chapter 12. Insert picture from First page of chapter. Intermolecular Forces and the Physical Properties of Liquids and Solids Chapter 12 Insert picture from First page of chapter Intermolecular Forces and the Physical Properties of Liquids and Solids Copyright McGraw-Hill 2009 1 12.1 Intermolecular Forces Intermolecular forces

More information

Chapter 11 SOLIDS, LIQUIDS AND GASES Pearson Education, Inc.

Chapter 11 SOLIDS, LIQUIDS AND GASES Pearson Education, Inc. Chapter 11 SOLIDS, LIQUIDS AND GASES States of Matter Because in the solid and liquid states particles are closer together, we refer to them as. The States of Matter The state of matter a substance is

More information

Liquids, Solids and Phase Changes

Liquids, Solids and Phase Changes Chapter 10 Liquids, Solids and Phase Changes Chapter 10 1 KMT of Liquids and Solids Gas molecules have little or no interactions. Molecules in the Liquid or solid state have significant interactions. Liquids

More information

CHEMISTRY Matter and Change. Chapter 12: States of Matter

CHEMISTRY Matter and Change. Chapter 12: States of Matter CHEMISTRY Matter and Change Chapter 12: States of Matter CHAPTER 12 States of Matter Section 12.1 Section 12.2 Section 12.3 Section 12.4 Gases Forces of Attraction Liquids and Solids Phase Changes Click

More information

Chapter 10 Liquids and Solids. Problems: 14, 15, 18, 21-23, 29, 31-35, 37, 39, 41, 43, 46, 81-83, 87, 88, 90-93, 99, , 113

Chapter 10 Liquids and Solids. Problems: 14, 15, 18, 21-23, 29, 31-35, 37, 39, 41, 43, 46, 81-83, 87, 88, 90-93, 99, , 113 Chapter 10 Liquids and Solids Problems: 14, 15, 18, 21-23, 29, 31-35, 37, 39, 41, 43, 46, 81-83, 87, 88, 90-93, 99, 104-106, 113 Recall: Intermolecular vs. Intramolecular Forces Intramolecular: bonds between

More information

Chapter 11. Freedom of Motion. Comparisons of the States of Matter. Liquids, Solids, and Intermolecular Forces

Chapter 11. Freedom of Motion. Comparisons of the States of Matter. Liquids, Solids, and Intermolecular Forces Liquids, Solids, and Intermolecular Forces Chapter 11 Comparisons of the States of Matter The solid and liquid states have a much higher density than the gas state The solid and liquid states have similar

More information

Chapter 11 Intermolecular Forces, Liquids, and Solids. Intermolecular Forces

Chapter 11 Intermolecular Forces, Liquids, and Solids. Intermolecular Forces Chapter 11, Liquids, and Solids States of Matter The fundamental difference between states of matter is the distance between particles. States of Matter Because in the solid and liquid states particles

More information

Liquids and Solids. H fus (Heat of fusion) H vap (Heat of vaporization) H sub (Heat of sublimation)

Liquids and Solids. H fus (Heat of fusion) H vap (Heat of vaporization) H sub (Heat of sublimation) Liquids and Solids Phase Transitions All elements and compounds undergo some sort of phase transition as their temperature is increase from 0 K. The points at which these phase transitions occur depend

More information

The Liquid and Solid States

The Liquid and Solid States : The Liquid and Solid States 10-1 10.1 Changes of State How do solids, liquids and gases differ? Figure 10.4 10-2 10.1 Changes of State : transitions between physical states Vaporization/Condensation

More information

CHAPTER 11: Intermolecular Forces, Liquids, and Solids. Are there any IDEAL GASES? The van der Waals equation corrects for deviations from ideality

CHAPTER 11: Intermolecular Forces, Liquids, and Solids. Are there any IDEAL GASES? The van der Waals equation corrects for deviations from ideality CHAPTER 11: Intermolecular Forces, Liquids, and Solids Are there any IDEAL GASES? The van der Waals equation corrects for deviations from ideality Does the KMT break down? Kinetic Molecular Theory 1. Gas

More information

States of Matter; Liquids and Solids. Condensation - change of a gas to either the solid or liquid state

States of Matter; Liquids and Solids. Condensation - change of a gas to either the solid or liquid state States of Matter; Liquids and Solids Phase transitions - a change in substance from one state to another Melting - change from a solid to a liquid state Freezing - change of a liquid to the solid state

More information

Intermolecular Forces, Liquids, & Solids

Intermolecular Forces, Liquids, & Solids , Liquids, & Solids Mr. Matthew Totaro Legacy High School AP Chemistry States of Matter The fundamental difference between states of matter is the distance between particles. States of Matter Because in

More information

2. As gas P increases and/or T is lowered, intermolecular forces become significant, and deviations from ideal gas laws occur (van der Waal equation).

2. As gas P increases and/or T is lowered, intermolecular forces become significant, and deviations from ideal gas laws occur (van der Waal equation). A. Introduction. (Section 11.1) CHAPTER 11: STATES OF MATTER, LIQUIDS AND SOLIDS 1. Gases are easily treated mathematically because molecules behave independently. 2. As gas P increases and/or T is lowered,

More information

Chapter 10: Liquids and Solids

Chapter 10: Liquids and Solids Chapter 10: Liquids and Solids STATES OF MATTER: At any temperature above absolute zero, the atoms, molecules, or ions that make up a substance are moving. In the kinetic theory of gases, this motion is

More information

Chemistry: The Central Science

Chemistry: The Central Science Chemistry: The Central Science Fourteenth Edition Chapter 11 Liquids and Intermolecular Forces Intermolecular Forces The attractions between molecules are not nearly as strong as the intramolecular attractions

More information

Intermolecular Forces and States of Matter AP Chemistry Lecture Outline

Intermolecular Forces and States of Matter AP Chemistry Lecture Outline Intermolecular Forces and States of Matter AP Chemistry Lecture Outline Name: Chemical properties are related only to chemical composition; physical properties are related to chemical composition AND the

More information

Intermolecular Forces and Liquids and Solids

Intermolecular Forces and Liquids and Solids Intermolecular Forces and Liquids and Solids Chapter 11 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 A phase is a homogeneous part of the system in contact

More information

Lecture Presentation. Chapter 11. Liquids and Intermolecular Forces Pearson Education, Inc.

Lecture Presentation. Chapter 11. Liquids and Intermolecular Forces Pearson Education, Inc. Lecture Presentation Chapter 11 Liquids and States of Matter The fundamental difference between states of matter is the strength of the intermolecular forces of attraction. Stronger forces bring molecules

More information

Intermolecular Forces and Liquids and Solids

Intermolecular Forces and Liquids and Solids Intermolecular Forces and Liquids and Solids Chapter 11 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. A phase is a homogeneous part of the system in contact

More information

Solid to liquid. Liquid to gas. Gas to solid. Liquid to solid. Gas to liquid. +energy. -energy

Solid to liquid. Liquid to gas. Gas to solid. Liquid to solid. Gas to liquid. +energy. -energy 33 PHASE CHANGES - To understand solids and liquids at the molecular level, it will help to examine PHASE CHANGES in a little more detail. A quick review of the phase changes... Phase change Description

More information

Chapter 11 Intermolecular Forces, Liquids, and Solids

Chapter 11 Intermolecular Forces, Liquids, and Solids Chemistry, The Central Science, 11th edition Theodore L. Brown, H. Eugene LeMay, Jr., and Bruce E. Bursten Chapter 11 Intermolecular Forces, Liquids, and Solids John D. Bookstaver St. Charles Community

More information

Intermolecular Forces and Liquids and Solids

Intermolecular Forces and Liquids and Solids PowerPoint Lecture Presentation by J. David Robertson University of Missouri Intermolecular Forces and Liquids and Solids Chapter 11 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction

More information

Intermolecular Forces and Liquids and Solids. Chapter 11. Copyright The McGraw Hill Companies, Inc. Permission required for

Intermolecular Forces and Liquids and Solids. Chapter 11. Copyright The McGraw Hill Companies, Inc. Permission required for Intermolecular Forces and Liquids and Solids Chapter 11 Copyright The McGraw Hill Companies, Inc. Permission required for 1 A phase is a homogeneous part of the system in contact with other parts of the

More information

CHEM Principles of Chemistry II Chapter 10 - Liquids and Solids

CHEM Principles of Chemistry II Chapter 10 - Liquids and Solids CHEM 1212 - Principles of Chemistry II Chapter 10 - Liquids and Solids 10.1 Intermolecular Forces recall intramolecular (within the molecule) bonding whereby atoms can form stable units called molecules

More information

Chapter 11: Intermolecular Forces. Lecture Outline

Chapter 11: Intermolecular Forces. Lecture Outline Intermolecular Forces, Liquids, and Solids 1 Chapter 11: Intermolecular Forces Lecture Outline 11.1 A Molecular Comparison of Gases, Liquids and Solids Physical properties of substances are understood

More information

Some Properties of Solids, Liquids, and Gases

Some Properties of Solids, Liquids, and Gases AP Chemistry: Intermolecular Forces, Liquids, and Solids Lecture Outline 11.1 A Molecular Comparison of Liquids and Solids Physical properties of liquids and solids are due to intermolecular forces. These

More information

Chapter 14. Liquids and Solids

Chapter 14. Liquids and Solids Chapter 14 Liquids and Solids Section 14.1 Water and Its Phase Changes Reviewing What We Know Gases Low density Highly compressible Fill container Solids High density Slightly compressible Rigid (keeps

More information

Chapter 11 Intermolecular Forces, Liquids, and Solids

Chapter 11 Intermolecular Forces, Liquids, and Solids Chemistry, The Central Science, 11th edition Theodore L. Brown, H. Eugene LeMay, Jr., and Bruce E. Bursten Chapter 11, Liquids, and Solids John D. Bookstaver St. Charles Community College Cottleville,

More information

CHAPTER 13. States of Matter. Kinetic = motion. Polar vs. Nonpolar. Gases. Hon Chem 13.notebook

CHAPTER 13. States of Matter. Kinetic = motion. Polar vs. Nonpolar. Gases. Hon Chem 13.notebook CHAPTER 13 States of Matter States that the tiny particles in all forms of matter are in constant motion. Kinetic = motion A gas is composed of particles, usually molecules or atoms, with negligible volume

More information

Ch 11: Intermolecular Forces, Liquids, and Solids

Ch 11: Intermolecular Forces, Liquids, and Solids AP Chemistry: Intermolecular Forces, Liquids, and Solids Lecture Outline 11.1 A Molecular Comparison of Liquids and Solids Physical properties of liquids and solids are due to intermolecular forces. These

More information

Chapter 13 States of Matter Forces of Attraction 13.3 Liquids and Solids 13.4 Phase Changes

Chapter 13 States of Matter Forces of Attraction 13.3 Liquids and Solids 13.4 Phase Changes Chapter 13 States of Matter 13.2 Forces of Attraction 13.3 Liquids and Solids 13.4 Phase Changes I. Forces of Attraction (13.2) Intramolecular forces? (forces within) Covalent Bonds, Ionic Bonds, and metallic

More information

States of matter. Chapter 11. Kinetic Molecular Theory of Liquids and Solids. Kinetic Molecular Theory of Solids Intermolecular Forces

States of matter. Chapter 11. Kinetic Molecular Theory of Liquids and Solids. Kinetic Molecular Theory of Solids Intermolecular Forces States of matter Chapter 11 Intermolecular Forces Liquids and Solids By changing the T and P, any matter can exist as solid, liquid or gas. Forces of attraction determine physical state Phase homogeneous

More information

Chapters 11 and 12: Intermolecular Forces of Liquids and Solids

Chapters 11 and 12: Intermolecular Forces of Liquids and Solids 1 Chapters 11 and 12: Intermolecular Forces of Liquids and Solids 11.1 A Molecular Comparison of Liquids and Solids The state of matter (Gas, liquid or solid) at a particular temperature and pressure depends

More information

Lecture Presentation. Chapter 11. Liquids and Intermolecular Forces. John D. Bookstaver St. Charles Community College Cottleville, MO

Lecture Presentation. Chapter 11. Liquids and Intermolecular Forces. John D. Bookstaver St. Charles Community College Cottleville, MO Lecture Presentation Chapter 11 Liquids and Intermolecular Forces John D. Bookstaver St. Charles Community College Cottleville, MO Properties of Gases, Liquids, and Solids State Volume Shape of State Density

More information

Chapter 11 Intermolecular Forces, Liquids, and Solids

Chapter 11 Intermolecular Forces, Liquids, and Solids Chemistry, The Central Science, 11th edition Theodore L. Brown, H. Eugene LeMay, Jr., and Bruce E. Bursten Chapter 11, Liquids, and Solids States of Matter The fundamental difference between states of

More information

Properties of Liquids and Solids

Properties of Liquids and Solids Properties of Liquids and Solids World of Chemistry Chapter 14 14.1 Intermolecular Forces Most substances made of small molecules are gases at normal temperature and pressure. ex: oxygen gas, O 2 ; nitrogen

More information

SOLIDS AND LIQUIDS - Here's a brief review of the atomic picture or gases, liquids, and solids GASES

SOLIDS AND LIQUIDS - Here's a brief review of the atomic picture or gases, liquids, and solids GASES 30 SOLIDS AND LIQUIDS - Here's a brief review of the atomic picture or gases, liquids, and solids GASES * Gas molecules are small compared to the space between them. * Gas molecules move in straight lines

More information

PHASE CHANGES. * melting * boiling * sublimation. * freezing * condensation * deposition. vs.

PHASE CHANGES. * melting * boiling * sublimation. * freezing * condensation * deposition. vs. PHASE CHANGES endothermic * melting * boiling * sublimation vs. vs. exothermic * freezing * condensation * deposition H enthalpy: heat content of a system under constant pressure HEATING CURVE: Where is

More information

Intermolecular Forces and Liquids and Solids Chapter 11

Intermolecular Forces and Liquids and Solids Chapter 11 Intermolecular Forces and Liquids and Solids Chapter 11 A phase is a homogeneous part of the system in contact with other parts of the system but separated from them by a well defined boundary. Phases

More information

Chapter 11. Liquids and Intermolecular Forces

Chapter 11. Liquids and Intermolecular Forces Chapter 11 Liquids and Intermolecular Forces States of Matter The three states of matter are 1) Solid Definite shape Definite volume 2) Liquid Indefinite shape Definite volume 3) Gas Indefinite shape Indefinite

More information

Some Properties of Solids, Liquids, and Gases

Some Properties of Solids, Liquids, and Gases AP Chemistry: Intermolecular Forces, Liquids, and Solids Sec 1. A Molecular Comparison of Liquids and Solids Physical properties of liquids and solids are due to intermolecular forces. These are forces

More information

Chapter 10. Lesson Starter. Why did you not smell the odor of the vapor immediately? Explain this event in terms of the motion of molecules.

Chapter 10. Lesson Starter. Why did you not smell the odor of the vapor immediately? Explain this event in terms of the motion of molecules. Preview Lesson Starter Objectives The Kinetic-Molecular Theory of Gases The Kinetic-Molecular Theory and the Nature of Gases Deviations of Real Gases from Ideal Behavior Section 1 The Kinetic-Molecular

More information

Question 2 Identify the phase transition that occurs when CO 2 solid turns to CO 2 gas as it is heated.

Question 2 Identify the phase transition that occurs when CO 2 solid turns to CO 2 gas as it is heated. For answers, send email to: admin@tutor-homework.com. Include file name: Chemistry_Worksheet_0039 Price: $4 (c) 2012 www.tutor-homework.com: Tutoring, homework help, help with online classes. Chapter 11

More information

CHAPTER 10. States of Matter

CHAPTER 10. States of Matter CHAPTER 10 States of Matter Kinetic Molecular Theory Kinetikos - Moving Based on the idea that particles of matter are always in motion The motion has consequences Explains the behavior of Gases, Liquids,

More information

CHAPTER 10. Kinetic Molecular Theory. Five Assumptions of the KMT. Atmospheric Pressure

CHAPTER 10. Kinetic Molecular Theory. Five Assumptions of the KMT. Atmospheric Pressure Kinetic Molecular Theory CHAPTER 10 States of Matter Kinetikos - Moving Based on the idea that particles of matter are always in motion The motion has consequences Explains the behavior of Gases, Liquids,

More information

13.1 States of Matter: A Review 13.2 Properties of Liquids A. Evaporation B. Vapor Pressure C. Surface Tension 13.3 Boiling Point and Melting Point

13.1 States of Matter: A Review 13.2 Properties of Liquids A. Evaporation B. Vapor Pressure C. Surface Tension 13.3 Boiling Point and Melting Point 13.1 States of Matter: A Review 13.2 Properties of Liquids A. Evaporation B. Vapor Pressure C. Surface Tension 13.3 Boiling Point and Melting Point 13.4 Changes of State 13.5 Intermolecular Forces 13.6

More information

Chapter 10 Liquids, Solids, and Intermolecular Forces

Chapter 10 Liquids, Solids, and Intermolecular Forces Chapter 10 Liquids, Solids, and Intermolecular Forces The Three Phases of Matter (A Macroscopic Comparison) State of Matter Shape and volume Compressibility Ability to Flow Solid Retains its own shape

More information

What determines the phase of a substance? Temperature Pressure Interparticle Forces of Attraction

What determines the phase of a substance? Temperature Pressure Interparticle Forces of Attraction Liquids and Solids What determines the phase of a substance? Temperature Pressure Interparticle Forces of Attraction Types of Interparticle Forces Ionic Bonding Occurs between cations and anions Metallic

More information

Polar Molecules. Textbook pg Molecules in which the charge is not distributed symmetrically among the atoms making up the molecule

Polar Molecules. Textbook pg Molecules in which the charge is not distributed symmetrically among the atoms making up the molecule Textbook pg. 251-283 Polar Molecules Molecules in which the charge is not distributed symmetrically among the atoms making up the molecule Electronegativity and Polar Molecules Pauling realized that electron

More information

- As for the liquids, the properties of different solids often differ considerably. Compare a sample of candle wax to a sample of quartz.

- As for the liquids, the properties of different solids often differ considerably. Compare a sample of candle wax to a sample of quartz. 32 SOLIDS * Molecules are usually packed closer together in the solid phase than in the gas or liquid phases. * Molecules are not free to move around each other as in the liquid phase. Molecular/atomic

More information

INTERMOLECULAR FORCES: LIQUIDS, SOLIDS & PHASE CHANGES (Silberberg, Chapter 12)

INTERMOLECULAR FORCES: LIQUIDS, SOLIDS & PHASE CHANGES (Silberberg, Chapter 12) INTERMOLECULAR FORCES: LIQUIDS, SOLIDS & PASE CANGES (Silberberg, Chapter 12) Intermolecular interactions Ideal gas molecules act independently PV=nRT Real gas molecules attract/repulse one another 2 n

More information

CHAPTER 11: INTERMOLECULAR FORCES AND LIQUIDS AND SOLIDS. Chemistry 1411 Joanna Sabey

CHAPTER 11: INTERMOLECULAR FORCES AND LIQUIDS AND SOLIDS. Chemistry 1411 Joanna Sabey CHAPTER 11: INTERMOLECULAR FORCES AND LIQUIDS AND SOLIDS Chemistry 1411 Joanna Sabey Forces Phase: homogeneous part of the system in contact with other parts of the system but separated from them by a

More information

CHAPTER 9: LIQUIDS AND SOLIDS

CHAPTER 9: LIQUIDS AND SOLIDS CHAPTER 9: LIQUIDS AND SOLIDS Section 9.1 Liquid/Vapor Equilibrium Vaporization process in which a liquid vapor open container - evaporation continues until all liquid evaporates closed container 1) Liquid

More information

CHEMISTRY. Chapter 11 Intermolecular Forces Liquids and Solids

CHEMISTRY. Chapter 11 Intermolecular Forces Liquids and Solids CHEMISTRY The Central Science 8 th Edition Chapter 11 Liquids and Solids Kozet YAPSAKLI States of Matter difference between states of matter is the distance between particles. In the solid and liquid states

More information

Chapter 10 Review Packet

Chapter 10 Review Packet Chapter 10 Review Packet Name 1. If water and carbon dioxide molecules did interact, what major intermolecular force will exist between these molecules? a) Hydrogen bonding b) London dispersion c) Dipole-dipole

More information

Chapter 11: Liquids, Solids, and Intermolecular Forces. Mrs. Brayfield

Chapter 11: Liquids, Solids, and Intermolecular Forces. Mrs. Brayfield Chapter 11: Liquids, Solids, and Intermolecular Forces Mrs. Brayfield 11.1: Intermolecular Forces Intermolecular forces are attractive forces that exist between all molecules and atoms The state of matter

More information

Chapter 11. Liquids, Solids, and Intermolecular Forces. Water, No Gravity. Lecture Presentation

Chapter 11. Liquids, Solids, and Intermolecular Forces. Water, No Gravity. Lecture Presentation Lecture Presentation Chapter 11 Liquids, Solids, and Intermolecular Forces Water, No Gravity In the space station there are no spills. Rather, the water molecules stick together to form a floating, oscillating

More information

SOLIDS AND LIQUIDS - Here's a brief review of the atomic picture or gases, liquids, and solids GASES

SOLIDS AND LIQUIDS - Here's a brief review of the atomic picture or gases, liquids, and solids GASES 30 SOLIDS AND LIQUIDS - Here's a brief review of the atomic picture or gases, liquids, and solids GASES * Gas molecules are small compared to the space between them. * Gas molecules move in straight lines

More information

Intermolecular forces (IMFs) CONDENSED STATES OF MATTER

Intermolecular forces (IMFs) CONDENSED STATES OF MATTER Intermolecular forces (IMFs) CONDENSED STATES OF MATTER States of Matter: - composed of particles packed closely together with little space between them. Solids maintain a. - any substance that flows.

More information

Solid to liquid. Liquid to gas. Gas to solid. Liquid to solid. Gas to liquid. +energy. -energy

Solid to liquid. Liquid to gas. Gas to solid. Liquid to solid. Gas to liquid. +energy. -energy 33 PHASE CHANGES - To understand solids and liquids at the molecular level, it will help to examine PHASE CHANGES in a little more detail. A quick review of the phase changes... Phase change Description

More information

Chapter 11. Kinetic Molecular Theory. Attractive Forces

Chapter 11. Kinetic Molecular Theory. Attractive Forces Chapter 11 KMT for Solids and Liquids Intermolecular Forces Viscosity & Surface Tension Phase Changes Vapor Pressure Phase Diagrams Solid Structure Kinetic Molecular Theory Liquids and solids will experience

More information

CHEM. Ch. 12 Notes ~ STATES OF MATTER

CHEM. Ch. 12 Notes ~ STATES OF MATTER CHEM. Ch. 12 Notes ~ STATES OF MATTER NOTE: Vocabulary terms are in boldface and underlined. Supporting details are in italics. 12.1 topics States of Matter: SOLID, LIQUID, GAS, PLASMA I. Kinetic Theory

More information

IMFA s. intermolecular forces of attraction Chez Chem, LLC All rights reserved.

IMFA s. intermolecular forces of attraction Chez Chem, LLC All rights reserved. IMFA s intermolecular forces of attraction 2014 Chez Chem, LLC All rights reserved. **London Dispersion Forces Also know as Van der Waals forces A momentary non symmetrical electron distribution that can

More information

RW Session ID = MSTCHEM1 Intermolecular Forces

RW Session ID = MSTCHEM1 Intermolecular Forces RW Session ID = MSTCHEM1 Intermolecular Forces Sections 9.4, 11.3-11.4 Intermolecular Forces Attractive forces between molecules due to charges, partial charges, and temporary charges Higher charge, stronger

More information

Ch 10 -Ch 10 Notes Assign: -HW 1, HW 2, HW 3 Blk 1 Ch 10 Lab

Ch 10 -Ch 10 Notes Assign: -HW 1, HW 2, HW 3 Blk 1 Ch 10 Lab Advanced Placement Chemistry Chapters 10 11 Syllabus As you work through each chapter, you should be able to: Chapter 10 Solids and Liquids 1. Differentiate between the various types of intermolecular

More information

Chapter 11. Intermolecular Forces, Liquids, and Solids

Chapter 11. Intermolecular Forces, Liquids, and Solids 11.2 Intermolecular Forces Intermolecular forces are much weaker than ionic or covalent bonds (e.g., 16 kj/mol versus 431 kj/mol for HCl). Melting or boiling = broken intermolecular forces Intermolecular

More information

Chemistry B11 Chapter 6 Gases, Liquids, and Solids

Chemistry B11 Chapter 6 Gases, Liquids, and Solids Chapter 6 Gases, Liquids, and Solids States of matter: the physical state of matter depends on a balance between the kinetic energy of particles, which tends to keep them apart, and the attractive forces

More information

Chapter 10. The Liquid and Solid States. Introduction. Chapter 10 Topics. Liquid-Gas Phase Changes. Physical State of a Substance

Chapter 10. The Liquid and Solid States. Introduction. Chapter 10 Topics. Liquid-Gas Phase Changes. Physical State of a Substance Introduction Chapter 10 The Liquid and Solid States How do the properties of liquid and solid substances differ? How can we predict properties based on molecular- level structure? Glasses Wires Reshaping

More information

Ch 9 Liquids & Solids (IMF) Masterson & Hurley

Ch 9 Liquids & Solids (IMF) Masterson & Hurley Ch 9 Liquids & Solids (IMF) Masterson & Hurley Intra- and Intermolecular AP Questions: 2005 Q. 7, 2005 (Form B) Q. 8, 2006 Q. 6, 2007 Q. 2 (d) and (c), Periodic Trends AP Questions: 2001 Q. 8, 2002 Q.

More information

Chapter 10: States of Matter. Concept Base: Chapter 1: Properties of Matter Chapter 2: Density Chapter 6: Covalent and Ionic Bonding

Chapter 10: States of Matter. Concept Base: Chapter 1: Properties of Matter Chapter 2: Density Chapter 6: Covalent and Ionic Bonding Chapter 10: States of Matter Concept Base: Chapter 1: Properties of Matter Chapter 2: Density Chapter 6: Covalent and Ionic Bonding Pressure standard pressure the pressure exerted at sea level in dry air

More information

Intermolecular forces Liquids and Solids

Intermolecular forces Liquids and Solids Intermolecular forces Liquids and Solids Chapter objectives Understand the three intermolecular forces in pure liquid in relation to molecular structure/polarity Understand the physical properties of liquids

More information

Kinetic Theory (Kinetikos - Moving ) Based on the idea that particles of matter are always in motion

Kinetic Theory (Kinetikos - Moving ) Based on the idea that particles of matter are always in motion Chapter 10 Kinetic Theory (Kinetikos - Moving ) Based on the idea that particles of matter are always in motion The motion has consequences Behavior of Gases Physical Properties of Gases Ideal Gas an imaginary

More information

Chapter 10. Dipole Moments. Intermolecular Forces (IMF) Polar Bonds and Polar Molecules. Polar or Nonpolar Molecules?

Chapter 10. Dipole Moments. Intermolecular Forces (IMF) Polar Bonds and Polar Molecules. Polar or Nonpolar Molecules? Polar Bonds and Polar Molecules Chapter 10 Liquids, Solids, and Phase Changes Draw Lewis Structures for CCl 4 and CH 3 Cl. What s the same? What s different? 1 Polar Covalent Bonds and Dipole Moments Bonds

More information

Nestor S. Valera Ateneo de Manila. Chapter 12 - Intermolecular Forces

Nestor S. Valera Ateneo de Manila. Chapter 12 - Intermolecular Forces Nestor S. Valera Ateneo de Manila Chapter 12 - Intermolecular Forces 1 A phase is a region that differs in structure and/or composition from another region. 2 Phases Solid phase - ice Liquid phase - water

More information

Chapter 11 Intermolecular Forces, Liquids, and Solids

Chapter 11 Intermolecular Forces, Liquids, and Solids Chapter 11 Intermolecular Forces, Liquids, and Solids Dissolution of an ionic compound States of Matter The fundamental difference between states of matter is the distance between particles. States of

More information

Phase Chemistry. Phase Diagrams and IMF s. Copyright John Sayles 1

Phase Chemistry. Phase Diagrams and IMF s. Copyright John Sayles 1 Phase Chemistry Phase Diagrams and IMF s Copyright 2003 - John Sayles 1 C-C Eq n and Phase Diagrams Graph the T and P points that solve the C-C eq n A curve Each point represents a BP The curve is the

More information

Professor K. Intermolecular forces

Professor K. Intermolecular forces Professor K Intermolecular forces We've studied chemical bonds which are INTRAmolecular forces... We now explore the forces between molecules, or INTERmolecular forces which you might rightly assume to

More information

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. Exam Name MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. 1) The F-B-F bond angle in the BF3 molecule is. A) 109.5e B) 120e C) 180e D) 90e E) 60e

More information

9/2/10 TYPES OF INTERMOLECULAR INTERACTIONS

9/2/10 TYPES OF INTERMOLECULAR INTERACTIONS Tro Chpt. 11 Liquids, solids and intermolecular forces Solids, liquids and gases - A Molecular Comparison Intermolecular forces Intermolecular forces in action: surface tension, viscosity and capillary

More information