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Intermolecular Forces, Liquids, and Solids Slide 3 / 136 Slide 4 / - PDF document

Slide 1 / 136 Slide 2 / 136 Intermolecular Forces, Liquids, and Solids Slide 3 / 136 Slide 4 / 136 Table of Contents States of Matter Click on the topic to go to that section States of Matter Intermolecular Forces Types of


  1. Slide 1 / 136 Slide 2 / 136 Intermolecular Forces, Liquids, and Solids Slide 3 / 136 Slide 4 / 136 Table of Contents States of Matter Click on the topic to go to that section · States of Matter · Intermolecular Forces · Types of Intermolecular Forces · Intermolecular Forces and Physical Properties Vapor Pressure · · Phase Changes and Phase Diagrams · Types of Solids Return to Table of Contents Slide 5 / 136 Slide 6 / 136 Matter We See Matter We See Atoms are the basic units of matter. At the atomic level, we We also know that atoms and molecules are very small. We can't know atoms bond together to create compounds due to actually see a substance unless it is made up of many particles. electronegativity and Coulombic or electrostatic attraction. 1 mL of water at 4 Celsius = 1 gram of water Chemical compounds react with each other, breaking and 1 gram of water = 0.056 moles of water re-forming bonds, to make new chemicals. 0.056 moles of water = 3.34x10 22 molecules of water What molecules are formed in the reaction below? Write the chemical equation. What makes all of the water molecules stick together to make a large enough amount we can actually see? Represents Oxygen atom Represents Hydrogen atom +

  2. Slide 7 / 136 Slide 8 / 136 So far this year…. Intermolecular Forces We first explained atoms, elements and how to build up the Intermolecular forces are the piece we need to add to the periodic table from quantum numbers. puzzle to explain the world around us. Then we explained how atoms combine to form molecules - the most common way we find most atoms in nature - and learned Without intermolecular forces, we wouldn't have tables, about how atoms from molecules rearrange in chemical lakes, wall...or even our bodies. reactions to form new chemical compounds. Intermolecular forces shape our world. Now, we're going to use intermolecular forces between molecules to create the common states of matter. Slide 9 / 136 Slide 10 / 136 States of Matter States of Matter Gas Liquid Crystalline solid While there are many states of matter, the three common states cool or that dominate our world are gases, liquids and solids. increase cool pressure We won't be discussing more exotic states such as plasma, nuclear matter, etc. heat or heat decrease pressure The 2 fundamental differences between states of matter are: ordered disorder, freedom, Particles are far the distance between particles arrangement, free to move apart, particles are in relative total freedom, the particles' freedom to move fixed much of empty to each other, positions, close together space, close together total disorder Slide 11 / 136 Slide 12 / 136 Characteristics of the States of Matter Solid Liquid Gas Gas Assumes the shape of SHAPE its container Expands to the volume of VOLUME its container Is compressible COMPRESSION Enjoy this musical interlude by They Might Be Giants! Flows easily FLOW Very Rapid DIFFUSION

  3. Slide 13 / 136 Slide 14 / 136 Characteristics of the States of Matter Characteristics of the States of Matter Liquid Solid Assumes the shape of the part of a Retains its own shape SHAPE SHAPE container it occupies regardless of container Does not expand to the volume Does not expand to the VOLUME VOLUME of the container volume of its container Is virtually incompressible COMPRESSION COMPRESSION Is virtually incompressible Flows easily Does not flow FLOW FLOW Within a liquid, slow Within a solid, DIFFUSION DIFFUSION very very slow Slide 15 / 136 Slide 16 / 136 Condensed Phases 1 Which of the following is a characteristic of a gas? In the solid and liquid states particles are closer together, A Fills only a portion of its container we refer to those states as condensed phases. B Molecules are in relatively rigid positions cool or Gas Liquid Crystalline Solid increase pressure cool C Takes on the shape of its entire container heat heat or D Is not compressible decrease pressure ordered Particles are far E Diffuses very slowly disorder, freedom, arrangement, apart, free to move particles are in total freedom, relative fixed much of empty to each other, positions, space, close together close together total disorder Slide 16 (Answer) / 136 Slide 17 / 136 1 Which of the following is a characteristic of a gas? 2 Which of the following is a characteristic of a liquid? A Fills only a portion of its container A Fills only a portion of its container B Molecules are in relatively rigid positions B Molecules are in relatively rigid positions C Takes on the shape of its entire container C Takes on the shape of its entire container Answer C D Is not compressible D Is compressible E Diffuses very slowly E Diffusion is very rapid within it [This object is a pull tab]

  4. Slide 17 (Answer) / 136 Slide 18 / 136 2 Which of the following is a characteristic of a liquid? 3 Which of the following is a characteristic of a solid? A Fills only a portion of its container A Fills all of its container B Molecules are in relatively rigid positions B Molecules are in relatively rigid positions C Takes on the shape of its entire container C Takes on the shape of its entire container Answer A D Is compressible D Is compressible E Diffusion is very rapid within it E Diffusion is very rapid within it [This object is a pull tab] Slide 18 (Answer) / 136 Slide 19 / 136 3 Which of the following is a characteristic of a solid? A Fills all of its container Intermolecular Forces B Molecules are in relatively rigid positions C Takes on the shape of its entire container Answer B D Is compressible E Diffusion is very rapid within it [This object is a pull Return to tab] Table of Contents Slide 20 / 136 Slide 21 / 136 Intermolecular Forces States of Matter & Intermolecular Forces The state of a substance at a particular temperature and pressure depends on two major factors: H Cl H Cl The strength of the intermolecular forces that hold molecules together Intermolecular Covalent bond attraction ( weak) (strong) The k inetic energy of the molecules Intermolecular forces are electrostatic forces of attraction or repulsion that exists between molecules. The attractions between molecules, inter molecular forces, are not nearly as strong as the intra molecular attractions that hold compounds together. Molecules have the highest kinetic energy in which state?

  5. Slide 22 / 136 Slide 22 (Answer) / 136 4 A chemical bond is 4 A chemical bond is A an electrostatic force of repulsion A an electrostatic force of repulsion B an electrostatic force of attraction B an electrostatic force of attraction C a physical connection between objects that are C a physical connection between objects that are touching touching D none of the above D none of the above Answer B [This object is a pull tab] Slide 23 / 136 Slide 23 (Answer) / 136 5 Which of the following correctly ranks electrostatic forces 5 Which of the following correctly ranks electrostatic forces from weakest to strongest? from weakest to strongest? A covalent bond, ionic bond, intermolecular forces A covalent bond, ionic bond, intermolecular forces B ionic bond, covalent bond, intermolecular forces B ionic bond, covalent bond, intermolecular forces C intermolecular forces, covalent bond, ionic bond C intermolecular forces, covalent bond, ionic bond Answer D intermolecular forces, ionic bond, covalent bond D intermolecular forces, ionic bond, covalent bond C [This object is a pull tab] Slide 24 / 136 Slide 24 (Answer) / 136 6 Which of the following is pointing to an intermolecular 6 Which of the following is pointing to an intermolecular bond? bond? B B D D A A C C Answer B [This object is a pull tab]

  6. Slide 25 / 136 Slide 25 (Answer) / 136 7 The arrow below is pointing to a(n) 7 The arrow below is pointing to a(n) A Intramolecular bond A Intramolecular bond B Ionic bond B Ionic bond C Intermolecular bond C Intermolecular bond D Both A and B D Both A and B Answer E Both B and C E Both B and C A [This object is a pull tab] Slide 26 / 136 Slide 27 / 136 States of Matter & Intermolecular Forces Kinetic Energy and Temperature Temperature is directly proportional to the average kinetic Without intermolecular forces (IMF's), all substances would energy of the molecules that make up a substance. behave like ideal gases...there would be no liquids or solids. clip: Indiana University The more kinetic energy molecules have, the higher the temperature. Slide 28 / 136 Slide 29 / 136 Intermolecular Forces & Boiling Points Intermolecular Forces & Boiling Points The kinetic energy of the molecules is proportional to the Boiling represents a transition from a liquid to a gas. temperature: as kinetic energy rises, so does temperature. To make that transition, molecules in the liquid must break free The boiling point refers to the temperature at which the of the intermolecular forces that bind them. molecules' energy overcomes the intermolecular forces binding them together. The higher the boiling point of a substance, the stronger the intermolecular forces. Water molecules overcome their intermolecular forces at 100 C.

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