Name States of Matter Date What physical changes and energy changes occur as matter goes from one state to another? Before You Read Before you read the chapter, think about what you know about states of matter Record three things that you already know about matter in the first column Then write three things that you would like to learn about changes in matter in the second column Complete the final column of the chart when you have finished this chapter K What I Know W What I Want to Learn L What I Learned Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc Chapter Vocabulary Lesson 1 Lesson 2 Lesson 3 NEW solid liquid viscosity surface tension gas vapor REVIEW matter NEW kinetic energy temperature thermal energy vaporization evaporation condensation sublimation deposition NEW kinetic molecular theory pressure Boyle s Law Charles s Law ACADEMIC theory A Lesson Content Vocabulary page for each lesson is provided in the Chapter Resources Files States of Matter 77
Lesson 1 Solids, Liquids, and Gases Scan Lesson 1 Read the lesson titles and bold words Look at the pictures Identify three facts you discovered about matter Record your facts in your Science Journal Describing Matter 273 273 Recall the states of matter 1 solid 3 2 gas 4 Characterize ways to describe matter liquid plasma state odor using the senses color texture Ways to Describe Matter 274 274 mass unit(s): g or kg unit(s): cm 3 or m 3 using measurements solid volume liquid unit(s): L or ml unit(s): g/cm 3 or g/ml Identify two factors that determine the state of matter 1 particle motion 2 Explain the free motion of particles density particle forces If particles are free to move, they move in a straight line Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc until they collide with something 78 States of Matter
Lesson 1 Solids, Liquids, and Gases (continued) 274 Relate particle motion to the distance between particles Particle Speed slow faster fastest Strength of attractive forces s trong weaker very weak Space between particles tight increased spread out Particle motion vibrate in place slide past one another move randomly Solids 275 Characterize solids definite shape and volume particle arrangement: tightly packed Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc 275 Solids attractive forces: particle motion: strong vibrate in place Differentiate crystalline solids from amorphous solids Crystalline Solids Amorphous Solids Particle arrangement: specific repeating order Particle arrangement: random Example property: Example property: very hard material brittle States of Matter 79
Lesson 1 Solids, Liquids, and Gases (continued) Liquids 276 Characterize liquids particle motion: free to move past each other attractive forces: weaker than in solids Liquids indefinite shape definite volume 276 277 Define viscosity measurement of a liquid s resistance to flow Relate cohesion to surface tension Cohesion is the attraction between similar molecules Molecules at the surface of a liquid have no molecules above them Therefore, they experience a greater downward pull, and produce surface tension Gases 278 Describe gases indefinite shape and volume vapor: gas state of a substance normally a solid or liquid at room temperature Gases attractive forces: very weak particle motion and arrangement: far apart and move freely Analyze It Hypothesize what would happen if the attractive forces between all of the particles of matter on Earth were equal Accept all reasonable responses Sample answer: There would only be one state of matter at any given time If all particles of matter had strong attractive forces, Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc everything would be solid; if all particles had weaker attractive forces, everything might be liquid or gas 80 States of Matter
Lesson 2 Changes in State Predict three facts that will be discussed in Lesson 2 after reading the headings Write your facts in your Science Journal Kinetic and Potential Energy 282 Relate kinetic energy and temperature to particle motion Draw arrows to show correlating increase or decrease Particle Motion Kinetic Energy of Particles Temperature 283 Contrast the potential energy of particles Particles farther apart Particles closer together more potential energy less potential energy Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc Thermal Energy 283 283 Detail changes in thermal energy Add thermal energy Remove thermal energy particles move faster particles get farther apart particles move slower particles get closer together increased kinetic energy increased potential energy decreased kinetic energy Compare thermal energy with temperature decreased potential energy Thermal energy is the total kinetic and potential energy of an object; temperature is the average of the kinetic energy only States of Matter 81
Lesson 2 Changes in State (continued) Solid to Liquid or Liquid to Solid 284 Model the process of melting D raw a line to indicate the thermal energy versus temperature changes as a solid changes to a liquid Label the line to indicate the changes in temperature (T) and potential energy (PE) Temperature Increases Line should show 1) an increase in temperature and thermal energy within the solid; little change in PE 2) a horizontal line during which the solid changes to a liquid T is constant; PE increases 3) an increase in temperature and thermal energy to the now liquid matter; PE has little change Thermal Energy Increases 284 Contrast freezing with melting Freezing is the process of matter changing from liquid to solid; melting is the process of matter changing from solid to liquid The temperature and thermal energy changes that Liquid to Gas or Gas to Liquid 285 occur during freezing are opposite those during melting Represent the process of boiling Draw a line to indicate the thermal energy versus temperature changes as a liquid changes to a gas Label the line to indicate the changes in temperature (T) and potential energy (PE) Temperature Increases Line should show 1) an increase in temperature and thermal energy within the liquid; little change in PE 2) A horizontal line during which the liquid changes to a gas (boiling) T is constant; PE increases 3) an increase in temperature and thermal energy to the now gaseous matter; PE has little change Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc Thermal Energy Increases 82 States of Matter
Lesson 2 Changes in State (continued) 285 Differentiate terms associated with changes of state Term Vaporization Description change in state of a liquid into a gas Evaporation Boiling vaporization that occurs on the surface of a liquid vaporization that occurs within a liquid Condensation change in state of a gas into a liquid Solid to Gas or Gas to Solid 286 Compare sublimation with deposition Both are changes between solid and gaseous states without passing through the liquid state Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc States of Water 287 Conservation of Mass and Energy 288 Characterize water Melting point: 0 C Boiling point: 100 C Unique because: It exists as a solid, liquid, and gas within Earth s temperature range Restate concepts of conservation of mass and energy Mass: Matter changes state, but the total amount of the matter remains the same Energy: Thermal energy is sometimes absorbed by surrounding matter, but the total energy is conserved Connect It Suppose that you want to compare the mass of a block of ice to its mass as liquid water You mass the ice, and then you mass a pan You put the ice in the pan and place it over high heat What will you find if you measure the mass of the water after it has been boiling for several minutes? Accept all reasonable responses Sample answer: After the water has been boiling for a while, its mass will be less than the mass of the ice Some of the water will have left the pan as water vapor States of Matter 83
Lesson 3 The Behavior of Gases Skim Lesson 3 in your book Read the headings and look at the photos and illustrations Identify three things you want to learn more about as you read the lesson Record your ideas in your Science Journal Understanding Gas Behavior 292 1 2 3 4 Paraphrase the basic ideas in kinetic molecular theory Small particles make up all matter Particles are in constant, random motion Particles collide with other particles, other objects, and the walls of their container When particles collide, no energy is lost What is pressure? 293 Describe pressure the amount of force applied per unit of area Pressure and Volume 293 Relate volume to pressure of a gas at a constant temperature Greater volume less pressure Boyle s Law 294 Volume (L) Less volume Explain the principle represented by the graph if the gas is at a constant temperature 600 more pressure 0 500 Pressure (kpa) Boyle s Law As volume increases, pressure decreases; Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc 84 States of Matter as volume decreases, pressure increases
Lesson 3 The Behavior of Gases (continued) 294 Restate Boyle s Law Pressure of a gas increases if the volume decreases, and pressure of a gas decreases if the volume increases, when temperature is constant Temperature and Volume 295 Relate temperature to volume of gas higher temperature more volume lower temperature less volume Charles s Law 296 Paraphrase the principle represented by the graph if the gas is at a constant pressure 100 Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc Volume (L) -273 Extrapolation Temperature (C ) The graph represents Charles s Law Volume increase s with increasing temperature; volume decreases with decreasing temperature Analyze It Explain the design of the type of gas container shown in the illustrations and graphs in Lesson 3 Accept all reasonable responses Sample answer: The container is enclosed so that the gas being measured does not escape into the air It has a plunger top, which is pushed upward by the pressure of the gas to indicate the volume the gas occupies in 100 the container The container is often shown with a weight sitting on top of the plunger to measure the pressure of the gas States of Matter 85
Review Chapter Wrap-Up States of Matter Now that you have read the chapter, think about what you have learned Complete the final column in the chart on the first page of this chapter Use this checklist to help you study Complete your Foldables Chapter Project Study your Science Notebook on this chapter Study the definitions of vocabulary words Reread the chapter, and review the charts, graphs, and illustrations Review the Understanding Key Concepts at the end of each lesson Look over the Chapter Review at the end of the chapter Summarize It Reread the chapter Big Idea and the lesson Key Concepts Why do you think the chapter includes an entire lesson, Lesson 3, about the behavior of gases, but does not include whole lessons about the behavior of solids and liquids? Write a paragraph with examples about water to explain your answer Accept all reasonable responses Sample answer: The behavior of gases is affected by more variables than the behavior solids or liquids is Solids and liquids both have a definite volume The volume of a gas can only be measured in a closed container, and that measurement is only constant if the temperature and pressure of the gas remain constant In contrast, a liter of liquid water is still a liter of water whether it is warm or cold; a gram of ice is a gram of ice, regardless of its shape Copyright Glencoe/McGraw-Hill, a division of The McGraw-Hill Companies, Inc Challenge Do research to determine a type of matter other than water that people use in a gaseous, liquid, and solid state Write a summary report about the substance and its properties and behaviors in all three states Read your report to your class 86 States of Matter