HNRS 227 Fall 2008 Chapter 4. Do You Remember These? iclicker Question. iclicker Question. iclicker Question. iclicker Question

Save this PDF as:
 WORD  PNG  TXT  JPG

Size: px
Start display at page:

Download "HNRS 227 Fall 2008 Chapter 4. Do You Remember These? iclicker Question. iclicker Question. iclicker Question. iclicker Question"

Transcription

1 HNRS 227 Fall 2008 Chapter 4 Heat and Temperature presented by Prof. Geller Do You Remember These? Units of length, mass and time, and metric Prefixes Density and its units The Scientific Method Speed, velocity, acceleration Force Falling objects Newton s Laws of Motion Newton s Law of Universal Gravity Work Potential Energy and Kinetic Energy Conversion of Energy Types/Sources of Energy iclicker Question What is the result if you add to 10 15? A B C D E 2 x iclicker Question Which unit of the following is the largest? A Kilometer B Astronomical Unit (AU) C Light Year (ly) D Parsec (pc) E Gigameter iclicker Question What is acceleration? A The change in distance per change in time. B The change in position per unit of time. C The ratio of the change in velocity per change in time. D The change of time per unit of length. iclicker Question What happens to the velocity and acceleration of an object in free fall? A The velocity decreases as the acceleration remains the same. B The velocity increases as the acceleration remains the same. C The velocity increases and the acceleration decreases. D The velocity increases and the acceleration increases. E Both velocity and acceleration decrease. 1

2 iclicker Question Neglecting air resistance, what are the forces acting on a bullet after it has left the barrel of a rifle? A The force of air acting up and gravity acting down. B Only the force of gravity acting straight down. C There are no forces acting at this point. D All of the above are true. A kwhr is A a unit of work B a unit of energy C a unit of power D More than one of the above is true. A kwhr is a unit of work, and since energy is the ability to do work, it is also a unit of energy. In terms of units, a watt is a joule per second, and an hour, as a second, is a unit of time. The time units cancel, leaving a unit of a joule, which can be used to measure either work or energy. What happens to the kinetic energy of a falling book when the book hits the floor? A The kinetic energy is destroyed. B The kinetic energy is converted to heat only. C The kinetic energy is converted to heat and sound. The magnitude of the force that a baseball player exerts with a 5 kilogram baseball bat on a 0.2 kilogram ball is measured to be 50 Newtons. What is the magnitude of the force that the ball exerts on the bat? A. 6 Newtons B. 10 Newtons C. 50 Newtons D. 60 Newtons E. 1.0 Newtons F2 Box F1 In the diagram above, a box is on a frictionless horizontal surface with forces F1 and F2 acting as shown. If the magnitude of F1 is greater than the magnitude of F2, then the box is A. moving at constant speed in the direction of F1 B. moving at constant speed in the direction of F2 C. accelerating in the direction of F1 D. accelerating in the direction of F2 E. not moving at all. When a satellite is a distance R from the center of Earth, the force due to gravity on the satellite is F. What is the force due to gravity on the satellite when its distance from the center of the Earth is 2R? A. 9 F B. 4 F C. F / 4 D. F / 9 E. F / 16 2

3 Which of the following best describes the law of conservation of energy? A. Energy must not be used up faster than it is created or the supply will run out. B. Energy can be neither created nor destroyed. C. Energy is conserved because it is easily destroyed. D. Conservation is a law describing how to destroy matter. E. Energy conservation is a law recently passed by Congress. What is the power consumed by a 100 Joules energy source in 4 seconds? A. 400 Watts B. 100 Watts C. 200 Watts D. 50 Watts E. 25 Watts Main Concepts for Chapter 4 Kinetic Molecular Theory Temperature Heat Phases of matter Thermodynamics 1st Law of Thermodynamics In an isolated system, the total amount of energy, including heat energy, is conserved. ENERGY IS CONSERVED Temperature A relative term reflecting how vigorously atoms in a substance are moving and colliding Alternative definition the average kinetic energy of the molecules in a region Temperature Units Fahrenheit Celsius Kelvin Where is absolute zero? At what temperature does water freeze? Boil? 3

4 Heat Heat is a form of energy the energy flows from a warmer object to a cooler object Units of heat calorie amount of temperature needed to raise temperature of 1 gram of water 1 degree Celsius kilocalorie (kcal or Calorie) amount of temperature needed to raise temperature of 1 kg of water 1 degree Celsius Specific Heat Ability of a material to absorb heat energy proportional to mass proportional to change in temperature Q = m*c*δt (note: not in textbook) c is the SPECIFIC HEAT of the substance amount of energy needed to increase temperature of 1 gram of substance 1 degree Celsius Transfer of Heat Conduction movement of heat by collisions between vibrating atoms or molecules Convection transfer of heat by the physical motion of masses cooler liquids or gasses descend while warmer liquids or gasses rise Phases and Phase Diagram (NOT IN TEXT but IMPORTANT) 2nd Law of Thermodynamics Two key components heat flows from a warmer body to a cooler body entropy increases remains constant or increases in time 4

5 Which is true about temperature and heat. A Temperature is a measure of the average kinetic energy of the molecules of a substance. B Heat is the total internal energy of the molecules involved in an energy transfer. C Both A and B above are true. D Neither A nor B above are true. As the temperature of a solid increases, the vibrations of the individual molecules become larger. When these vibrations become larger, the average distance between the molecules increases to accommodate these larger oscillations, and the solid expands. In a liquid or a gas, the individual molecules move faster as the temperature increases, and the collisions between individual molecules become more violent. Since the molecules are moving faster, they move farther apart as they travel a larger distance in the time between collisions. A This explains why most materials become less dense as their temperature is increased. B This explains why most materials become more dense as their temperature is increased. Would the tight packing of more insulation, such as glass wool, in an enclosed space increase or decrease the insulation value? A Increase the insulation value. B Decrease the insulation value. A true vacuum bottle has a double-walled, silvered bottle with the air removed from the space between the walls. Describe how this design keeps food hot or cold by dealing with conduction, convection and radiation. Tight packing would tend to decrease the insulation value of glass wool because it would squeeze the wool together and give the heat more paths to travel. It is the presence of many small pockets of air, with unattached molecules, that gives glass wool and other similar insulation materials their insulating properties. The vacuum between the walls prevents heat transfer by means of convection or conduction, while the silvered walls reflect radiated energy back into (or away from) the food, preventing energy transfer by radiation. Cooler air is found in low valleys on calm nights. A True B False True. Cooler air is denser than warmer air. This denser air weighs more per volume than the warmer air and pushes the warmer air out of the way as it sinks down to its lowest level. The warmer, less dense air sits on top of the cooler air because it weighs less per volume. Is air a good insulator? A Yes B No Air is a good insulator because it is not very dense and conduction is not very efficient at transferring energy because the molecules are much farther apart than they are in solids or liquids. 5

6 Can you explain the meaning of the mechanical equivalent of heat. What do people really mean when they say that a certain food has a lot of Calories? Mechanical energy can be converted to heat as it changes from external mechanical energy to the internal kinetic energy of the molecules. A given quantity of mechanical energy always yields a known amount of heat. When people refer to the Calorie content of food, they are referring to the amount of chemical energy available from the food. One way to measure the chemical energy of foodstuff is to find out how much heat is released by complete oxidation. A Calorie (kcal) is a measure of the heat release and thus is a measure of the chemical energy released. A piece of metal feels cooler than a piece of wood at the same temperature. A True B False Can you explain how latent heat of fusion and latent heat of vaporization are hidden. True. The metal is more efficient at conducting heat away from your hand than wood, so it feels cooler because your hand senses heat leaving your body. The latent heats of fusion and vaporization go into or are released from internal energy during a phase transition. There is no temperature change associated with these heat transfers, so they are hidden. The condensation of water vapor on a bathroom mirror warms the bathroom. A B True False True. Condensation occurs when more vapor molecules are returning to the liquid state than are leaving the liquid state. When a water vapor molecule joins a group of liquid water molecules, it has to give up its latent heat of vaporization. This heat is transferred to the surrounding air molecules such as the air in the bathroom. Which provides more cooling for a styrofoam cooler? A One with 10 pounds of ice at 0 degrees C B One with 10 pounds of ice water at 0 degrees C? The 10 pounds of ice (A) provide more cooling because as the ice undergoes the phase change into water, it absorbs heat. Ten pounds of ice water simply absorbs heat according to the value of its specific heat until it reaches room temperature and therefore absorbs less heat. 6

7 Consider that a glass filled with a cold beverage seems to sweat. Would you expect more sweating inside a house during the summer or during the winter? A Summer B Winter Water condenses out of the air onto the cooler surface of a glass because the air near the glass is cooled, lowering its temperature to the dew point. Since the warmer air can hold more water vapor in the summer, it would have more water vapor to condense. Therefore, you would expect more condensation in the summer. A burn from steam at 100 degrees C is more severe than a burn from 100 degrees C water. A True B False True. One hundred degree Celsius steam contains more energy (540 cal/g) than 100 C water, so the steam burn would be more severe. Relative humidity typically increases after sunset. A True B False True. Cooling of air reduces the capacity of air to hold water vapor. Relative humidity is a ratio of water in the air to how much water it can hold. Thus a decrease of capacity increases the relative humidity, even when the amount of water vapor in the air is constant. Question A 1.0 kg metal head of a geology hammer strikes a solid rock with a velocity of 5.0 meters per second. Assuming that all of the energy is retained by the hammer head, how much will the temperature increase? (specific heat of hammer head is 0.11 kcal/kgc) Answer Question 4. Q = ΔKE and ΔKE = 1 2 mv2 Q = 1 2 mv 2 1 Q = mcδt mcδt = 1 2 mv 2 2 mv cal J ΔT = mc T = kg) 2 s ( 1.00 cal) 1.00 kcal ( 1.0 kg) 0.11 kcal kg C 1, cal = 0.03 C Lead is a soft, dense metal with a specific heat of kcal/kgc, a melting point of o C and a heat of fusion of 5.5 kcal/kg. How much heat must be provided to melt a kg sample of lead with a temperature of 20.0 o C? 7

8 Answer 13. Q 1 = mcδt = ( 250.0kg) kcal kg C ( C) = 2,156 kcal Q 2 = ml f = ( kg) 5.5 kcal kg = 1,375 kcal Q Total = Q 1 + Q 2 = ( 2,156 kcal)+ ( 1,375 kcal) = 3,531 kcal = 3,500 kcal 8

Temperature Scales. temperature scales Celsius Fahrenheit Kelvin

Temperature Scales. temperature scales Celsius Fahrenheit Kelvin Ch. 10-11 Concept Ch. 10 #1, 3, 7, 8, 9, 11 Ch11, # 3, 6, 11 Problems Ch10 # 3, 5, 11, 17, 21, 24, 25, 29, 33, 37, 39, 43, 47, 59 Problems: CH 11 # 1, 2, 3a, 4, 5, 6, 9, 13, 15, 22, 25, 27, 28, 35 Temperature

More information

Chapter 18 Temperature, Heat, and the First Law of Thermodynamics. Problems: 8, 11, 13, 17, 21, 27, 29, 37, 39, 41, 47, 51, 57

Chapter 18 Temperature, Heat, and the First Law of Thermodynamics. Problems: 8, 11, 13, 17, 21, 27, 29, 37, 39, 41, 47, 51, 57 Chapter 18 Temperature, Heat, and the First Law of Thermodynamics Problems: 8, 11, 13, 17, 21, 27, 29, 37, 39, 41, 47, 51, 57 Thermodynamics study and application of thermal energy temperature quantity

More information

Heat and Temperature. Temperature Scales. Thermometers and Temperature Scales

Heat and Temperature. Temperature Scales. Thermometers and Temperature Scales Heat and Temperature Thermometers and Temperature Scales The mercury-based one you see here relies on the fact that mercury expands at a predictable rate with temperature. The scale of the thermometer

More information

Name: Class: Date: 10. Some substances, when exposed to visible light, absorb more energy as heat than other substances absorb.

Name: Class: Date: 10. Some substances, when exposed to visible light, absorb more energy as heat than other substances absorb. Name: Class: Date: ID: A PS Chapter 13 Review Modified True/False Indicate whether the statement is true or false. If false, change the identified word or phrase to make the statement true. 1. In all cooling

More information

Chapter 4: Transfer of Thermal Energy

Chapter 4: Transfer of Thermal Energy Chapter 4: Transfer of Thermal Energy Goals of Period 4 Section 4.1: To define temperature and thermal energy Section 4.2: To discuss three methods of thermal energy transfer. Section 4.3: To describe

More information

TEACHER BACKGROUND INFORMATION THERMAL ENERGY

TEACHER BACKGROUND INFORMATION THERMAL ENERGY TEACHER BACKGROUND INFORMATION THERMAL ENERGY In general, when an object performs work on another object, it does not transfer all of its energy to that object. Some of the energy is lost as heat due to

More information

2. Room temperature: C. Kelvin. 2. Room temperature:

2. Room temperature: C. Kelvin. 2. Room temperature: Temperature I. Temperature is the quantity that tells how hot or cold something is compared with a standard A. Temperature is directly proportional to the average kinetic energy of molecular translational

More information

Chapter 10: Temperature and Heat

Chapter 10: Temperature and Heat Chapter 10: Temperature and Heat 1. The temperature of a substance is A. proportional to the average kinetic energy of the molecules in a substance. B. equal to the kinetic energy of the fastest moving

More information

Energy. Work. Potential Energy. Kinetic Energy. Learning Check 2.1. Energy. Energy. makes objects move. makes things stop. is needed to do work.

Energy. Work. Potential Energy. Kinetic Energy. Learning Check 2.1. Energy. Energy. makes objects move. makes things stop. is needed to do work. Chapter 2 Energy and Matter Energy 2.1 Energy Energy makes objects move. makes things stop. is needed to do work. 1 2 Work Potential Energy Work is done when you climb. you lift a bag of groceries. you

More information

The Equipartition Theorem

The Equipartition Theorem The Equipartition Theorem Degrees of freedom are associated with the kinetic energy of translations, rotation, vibration and the potential energy of vibrations. A result from classical statistical mechanics

More information

Chapter 10 Temperature and Heat

Chapter 10 Temperature and Heat Chapter 10 Temperature and Heat What are temperature and heat? Are they the same? What causes heat? What Is Temperature? How do we measure temperature? What are we actually measuring? Temperature and Its

More information

Name Date Class THERMOCHEMISTRY. SECTION 17.1 THE FLOW OF ENERGY HEAT AND WORK (pages 505 510)

Name Date Class THERMOCHEMISTRY. SECTION 17.1 THE FLOW OF ENERGY HEAT AND WORK (pages 505 510) 17 THERMOCHEMISTRY SECTION 17.1 THE FLOW OF ENERGY HEAT AND WORK (pages 505 510) This section explains the relationship between energy and heat, and distinguishes between heat capacity and specific heat.

More information

UNIT 6a TEST REVIEW. 1. A weather instrument is shown below.

UNIT 6a TEST REVIEW. 1. A weather instrument is shown below. UNIT 6a TEST REVIEW 1. A weather instrument is shown below. Which weather variable is measured by this instrument? 1) wind speed 3) cloud cover 2) precipitation 4) air pressure 2. Which weather station

More information

Energy Matters Heat. Changes of State

Energy Matters Heat. Changes of State Energy Matters Heat Changes of State Fusion If we supply heat to a lid, such as a piece of copper, the energy supplied is given to the molecules. These start to vibrate more rapidly and with larger vibrations

More information

1. The Kinetic Theory of Matter states that all matter is composed of atoms and molecules that are in a constant state of constant random motion

1. The Kinetic Theory of Matter states that all matter is composed of atoms and molecules that are in a constant state of constant random motion Physical Science Period: Name: ANSWER KEY Date: Practice Test for Unit 3: Ch. 3, and some of 15 and 16: Kinetic Theory of Matter, States of matter, and and thermodynamics, and gas laws. 1. The Kinetic

More information

What is Energy? What is the relationship between energy and work?

What is Energy? What is the relationship between energy and work? What is Energy? What is the relationship between energy and work? Compare kinetic and potential energy What are the different types of energy? What is energy? Energy is the ability to do work. Great, but

More information

THERMOCHEMISTRY & DEFINITIONS

THERMOCHEMISTRY & DEFINITIONS THERMOCHEMISTRY & DEFINITIONS Thermochemistry is the study of the study of relationships between chemistry and energy. All chemical changes and many physical changes involve exchange of energy with the

More information

Thermodynamics is the study of heat. It s what comes into play when you drop an ice cube

Thermodynamics is the study of heat. It s what comes into play when you drop an ice cube Chapter 12 You re Getting Warm: Thermodynamics In This Chapter Converting between temperature scales Working with linear expansion Calculating volume expansion Using heat capacities Understanding latent

More information

Final Exam. Wednesday, December 10. 1:30 4:30 pm. University Centre Rooms

Final Exam. Wednesday, December 10. 1:30 4:30 pm. University Centre Rooms 16.102 Final Exam Wednesday, December 10 1:30 4:30 pm University Centre Rooms 210 224 30 questions, multiple choice The whole course, equal weighting Formula sheet provided 26 Lab and Tutorial Marks Final

More information

Name Class Date STUDY GUIDE FOR CONTENT MASTERY

Name Class Date STUDY GUIDE FOR CONTENT MASTERY Atmosphere SECTION 11.1 Atmospheric Basics In your textbook, read about the composition of the atmosphere. Circle the letter of the choice that best completes the statement. 1. Most of Earth s atmosphere

More information

Study the following diagrams of the States of Matter. Label the names of the Changes of State between the different states.

Study the following diagrams of the States of Matter. Label the names of the Changes of State between the different states. Describe the strength of attractive forces between particles. Describe the amount of space between particles. Can the particles in this state be compressed? Do the particles in this state have a definite

More information

Forms of Energy. Freshman Seminar

Forms of Energy. Freshman Seminar Forms of Energy Freshman Seminar Energy Energy The ability & capacity to do work Energy can take many different forms Energy can be quantified Law of Conservation of energy In any change from one form

More information

Practice Test. 4) The planet Earth loses heat mainly by A) conduction. B) convection. C) radiation. D) all of these Answer: C

Practice Test. 4) The planet Earth loses heat mainly by A) conduction. B) convection. C) radiation. D) all of these Answer: C Practice Test 1) Increase the pressure in a container of oxygen gas while keeping the temperature constant and you increase the A) molecular speed. B) molecular kinetic energy. C) Choice A and choice B

More information

Chapter 1: Chemistry: Measurements and Methods

Chapter 1: Chemistry: Measurements and Methods Chapter 1: Chemistry: Measurements and Methods 1.1 The Discovery Process o Chemistry - The study of matter o Matter - Anything that has mass and occupies space, the stuff that things are made of. This

More information

Temperature. Temperature

Temperature. Temperature Chapter 8 Temperature Temperature a number that corresponds to the warmth or coldness of an object measured by a thermometer is a per-particle property no upper limit definite limit on lower end Temperature

More information

Heat as Energy Transfer. Heat is energy transferred from one object to another because of a difference in temperature

Heat as Energy Transfer. Heat is energy transferred from one object to another because of a difference in temperature Unit of heat: calorie (cal) Heat as Energy Transfer Heat is energy transferred from one object to another because of a difference in temperature 1 cal is the amount of heat necessary to raise the temperature

More information

PARADISE VALLEY COMMUNITY COLLEGE PHYSICS 101 - INTRODUCTION TO PHYSICS LABORATORY. Calorimetry

PARADISE VALLEY COMMUNITY COLLEGE PHYSICS 101 - INTRODUCTION TO PHYSICS LABORATORY. Calorimetry PARADISE VALLEY COMMUNITY COLLEGE PHYSICS 101 - INTRODUCTION TO PHYSICS LABORATORY Calorimetry Equipment Needed: Large styrofoam cup, thermometer, hot water, cold water, ice, beaker, graduated cylinder,

More information

Kinetic Theory. Bellringer. Kinetic Theory, continued. Visual Concept: Kinetic Molecular Theory. States of Matter, continued.

Kinetic Theory. Bellringer. Kinetic Theory, continued. Visual Concept: Kinetic Molecular Theory. States of Matter, continued. Bellringer You are already familiar with the most common states of matter: solid, liquid, and gas. For example you can see solid ice and liquid water. You cannot see water vapor, but you can feel it in

More information

Mechanisms of Heat Transfer. Amin Sabzevari

Mechanisms of Heat Transfer. Amin Sabzevari Mechanisms of Heat Transfer Amin Sabzevari Outline Definition of Heat and Temperature Conduction, Convection, Radiation Demonstrations and Examples What is Heat? Heat is the spontaneous flow of energy

More information

Chemistry 13: States of Matter

Chemistry 13: States of Matter Chemistry 13: States of Matter Name: Period: Date: Chemistry Content Standard: Gases and Their Properties The kinetic molecular theory describes the motion of atoms and molecules and explains the properties

More information

2.0 Heat affects matter in different ways

2.0 Heat affects matter in different ways 2.0 Heat affects matter in different ways 2.1 States of Matter and The Particle Model of Matter Matter is made up of tiny particles and exists in three states: solid, liquid and gas. The Particle Model

More information

FORCES AND MOTION UNIT TEST. Multiple Choice: Draw a Circle Completely around the ONE BEST answer.

FORCES AND MOTION UNIT TEST. Multiple Choice: Draw a Circle Completely around the ONE BEST answer. FORCES AND MOTION UNIT TEST Multiple Choice: Draw a Circle Completely around the ONE BEST answer. 1. A force acting on an object does no work if a. a machine is used to move the object. b. the force is

More information

5 Answers and Solutions to Text Problems

5 Answers and Solutions to Text Problems Energy and States of Matter 5 Answers and Solutions to Text Problems 5.1 At the top of the hill, all of the energy of the car is in the form of potential energy. As it descends down the hill, potential

More information

Name Date Class STATES OF MATTER. SECTION 13.1 THE NATURE OF GASES (pages 385 389)

Name Date Class STATES OF MATTER. SECTION 13.1 THE NATURE OF GASES (pages 385 389) 13 STATES OF MATTER SECTION 13.1 THE NATURE OF GASES (pages 385 389) This section introduces the kinetic theory and describes how it applies to gases. It defines gas pressure and explains how temperature

More information

13.1 The Nature of Gases. What is Kinetic Theory? Kinetic Theory and a Model for Gases. Chapter 13: States of Matter. Principles of Kinetic Theory

13.1 The Nature of Gases. What is Kinetic Theory? Kinetic Theory and a Model for Gases. Chapter 13: States of Matter. Principles of Kinetic Theory Chapter 13: States of Matter The Nature of Gases The Nature of Gases kinetic molecular theory (KMT), gas pressure (pascal, atmosphere, mm Hg), kinetic energy The Nature of Liquids vaporization, evaporation,

More information

Conduction, Convention & Radiation

Conduction, Convention & Radiation Name: Class: Date: Grade 11A Science Related Reading/Physics Conduction, Convention & Radiation Physics Gr11A Pre Reading Activity Using prior knowledge, write the definition for each vocabulary term.

More information

Calorimetry: Determining the Heat of Fusion of Ice and the Heat of Vaporization of Liquid Nitrogen - Chemistry I Acc

Calorimetry: Determining the Heat of Fusion of Ice and the Heat of Vaporization of Liquid Nitrogen - Chemistry I Acc Calorimetry: Determining the Heat of Fusion of Ice and the Heat of Vaporization of Liquid Nitrogen - Chemistry I Acc O B J E C T I V E 1. Using a simple calorimeter, Determine the heat of fusion of ice

More information

Chapter 16 Temperature and Heat

Chapter 16 Temperature and Heat The determination of temperature has long been recognized as a problem of the greatest importance in physical science. It has accordingly been made a subject of most careful attention, and, especially

More information

Measuring Temperature

Measuring Temperature Measuring Temperature The standard metric unit of temperature is the degree Celsius ( C). Water freezes at 0 C. Water boils at 100 C. The Fahrenheit scale is used only in the United States. Why Do We Need

More information

Chapter 2 Matter and Energy

Chapter 2 Matter and Energy 1 Chapter 2 Matter and Energy Matter Matter is the material that makes up all things is anything that has mass and occupies space is classified as either pure substances or mixtures Pure Substances A pure

More information

Energy and Energy Transformations Test Review

Energy and Energy Transformations Test Review Energy and Energy Transformations Test Review Completion: 1. Mass 13. Kinetic 2. Four 14. thermal 3. Kinetic 15. Thermal energy (heat) 4. Electromagnetic/Radiant 16. Thermal energy (heat) 5. Thermal 17.

More information

SAM Teachers Guide Heat and Temperature

SAM Teachers Guide Heat and Temperature SAM Teachers Guide Heat and Temperature Overview Students learn that temperature measures average kinetic energy, and heat is the transfer of energy from hot systems to cold systems. They consider what

More information

Test 5 Review questions. 1. As ice cools from 273 K to 263 K, the average kinetic energy of its molecules will

Test 5 Review questions. 1. As ice cools from 273 K to 263 K, the average kinetic energy of its molecules will Name: Thursday, December 13, 2007 Test 5 Review questions 1. As ice cools from 273 K to 263 K, the average kinetic energy of its molecules will 1. decrease 2. increase 3. remain the same 2. The graph below

More information

Preview of Period 5: Thermal Energy, the Microscopic Picture

Preview of Period 5: Thermal Energy, the Microscopic Picture Preview of Period 5: Thermal Energy, the Microscopic Picture 5.1 Temperature and Molecular Motion What is evaporative cooling? 5.2 Temperature and Phase Changes How much energy is required for a phase

More information

Heat Energy FORMS OF ENERGY LESSON PLAN 2.7. Public School System Teaching Standards Covered

Heat Energy FORMS OF ENERGY LESSON PLAN 2.7. Public School System Teaching Standards Covered FORMS OF ENERGY LESSON PLAN 2.7 Heat Energy This lesson is designed for 3rd 5th grade students in a variety of school settings (public, private, STEM schools, and home schools) in the seven states served

More information

3.3 Phase Changes Charactaristics of Phase Changes phase change

3.3 Phase Changes Charactaristics of Phase Changes phase change When at least two states of the same substance are present, scientists describe each different state as a phase. A phase change is the reversible physical change that occurs when a substance changes from

More information

Chapter 17: Change of Phase

Chapter 17: Change of Phase Chapter 17: Change of Phase Conceptual Physics, 10e (Hewitt) 3) Evaporation is a cooling process and condensation is A) a warming process. B) a cooling process also. C) neither a warming nor cooling process.

More information

Chapter 2 Student Reading

Chapter 2 Student Reading Chapter 2 Student Reading Atoms and molecules are in motion We warm things up and cool things down all the time, but we usually don t think much about what s really happening. If you put a room-temperature

More information

(Walter Glogowski, Chaz Shapiro & Reid Sherman) INTRODUCTION

(Walter Glogowski, Chaz Shapiro & Reid Sherman) INTRODUCTION Convection (Walter Glogowski, Chaz Shapiro & Reid Sherman) INTRODUCTION You know from common experience that when there's a difference in temperature between two places close to each other, the temperatures

More information

Section 7. Laws of Thermodynamics: Too Hot, Too Cold, Just Right. What Do You See? What Do You Think? Investigate.

Section 7. Laws of Thermodynamics: Too Hot, Too Cold, Just Right. What Do You See? What Do You Think? Investigate. Chapter 6 Electricity for Everyone Section 7 Laws of Thermodynamics: Too Hot, Too Cold, Just Right What Do You See? Learning Outcomes In this section, you will Assess experimentally the final temperature

More information

Gravitational Potential Energy

Gravitational Potential Energy Gravitational Potential Energy Consider a ball falling from a height of y 0 =h to the floor at height y=0. A net force of gravity has been acting on the ball as it drops. So the total work done on the

More information

Type: Single Date: Homework: READ 12.8, Do CONCEPT Q. # (14) Do PROBLEMS (40, 52, 81) Ch. 12

Type: Single Date: Homework: READ 12.8, Do CONCEPT Q. # (14) Do PROBLEMS (40, 52, 81) Ch. 12 Type: Single Date: Objective: Latent Heat Homework: READ 12.8, Do CONCEPT Q. # (14) Do PROBLEMS (40, 52, 81) Ch. 12 AP Physics B Date: Mr. Mirro Heat and Phase Change When bodies are heated or cooled their

More information

Convection, Conduction & Radiation

Convection, Conduction & Radiation Convection, Conduction & Radiation There are three basic ways in which heat is transferred: convection, conduction and radiation. In gases and liquids, heat is usually transferred by convection, in which

More information

UNIT (1) MEASUREMENTS IN CHEMISTRY

UNIT (1) MEASUREMENTS IN CHEMISTRY UNIT (1) MEASUREMENTS IN CHEMISTRY Measurements are part of our daily lives. We measure our weights, driving distances, and gallons of gasoline. As a health professional you might measure blood pressure,

More information

Atmospheric Humidity. Chapter 4

Atmospheric Humidity. Chapter 4 Atmospheric Humidity Chapter 4 Circulation of Water in the Atmosphere A general definition of humidity is the amount of water vapor in the air. Remember, humidity is not constant through time or space,

More information

Physics 2AB Notes - 2012. Heating and Cooling. The kinetic energy of a substance defines its temperature.

Physics 2AB Notes - 2012. Heating and Cooling. The kinetic energy of a substance defines its temperature. Physics 2AB Notes - 2012 Heating and Cooling Kinetic Theory All matter is made up of tiny, minute particles. These particles are in constant motion. The kinetic energy of a substance defines its temperature.

More information

Work and Energy. Work = Force Distance. Work increases the energy of an object. Energy can be converted back to work.

Work and Energy. Work = Force Distance. Work increases the energy of an object. Energy can be converted back to work. Work and Energy Ch. 6 Work = Force Distance Work increases the energy of an object. Energy can be converted back to work. Therefore, energy and work have the same unit: Newton meter = Nm Energy per gram,

More information

Chapter 3 Assessment. Name: Class: Date: ID: A. Multiple Choice Identify the choice that best completes the statement or answers the question.

Chapter 3 Assessment. Name: Class: Date: ID: A. Multiple Choice Identify the choice that best completes the statement or answers the question. Name: Class: _ Date: _ ID: A Chapter 3 Assessment Multiple Choice Identify the choice that best completes the statement or answers the question. 1. Which state of matter has a definite volume but a variable

More information

Basic Concepts of Thermodynamics

Basic Concepts of Thermodynamics Basic Concepts of Thermodynamics Every science has its own unique vocabulary associated with it. recise definition of basic concepts forms a sound foundation for development of a science and prevents possible

More information

Current Staff Course Unit/ Length. Basic Outline/ Structure. Unit Objectives/ Big Ideas. Properties of Waves A simple wave has a PH: Sound and Light

Current Staff Course Unit/ Length. Basic Outline/ Structure. Unit Objectives/ Big Ideas. Properties of Waves A simple wave has a PH: Sound and Light Current Staff Course Unit/ Length August August September September October Unit Objectives/ Big Ideas Basic Outline/ Structure PS4- Types of Waves Because light can travel through space, it cannot be

More information

Name Class Date. In the space provided, write the letter of the term or phrase that best completes each statement or best answers each question.

Name Class Date. In the space provided, write the letter of the term or phrase that best completes each statement or best answers each question. Assessment Chapter Test A Chapter: States of Matter In the space provided, write the letter of the term or phrase that best completes each statement or best answers each question. 1. The kinetic-molecular

More information

Welcome to the World of Chemistry

Welcome to the World of Chemistry Welcome to the World of Chemistry The Language of Chemistry CHEMICAL ELEMENTS - pure substances that cannot be decomposed by ordinary means to other substances. Aluminum Bromine Sodium The Language of

More information

Science Standard Articulated by Grade Level Strand 5: Physical Science

Science Standard Articulated by Grade Level Strand 5: Physical Science Concept 1: Properties of Objects and Materials Classify objects and materials by their observable properties. Kindergarten Grade 1 Grade 2 Grade 3 Grade 4 PO 1. Identify the following observable properties

More information

Test Bank - Chapter 3 Multiple Choice

Test Bank - Chapter 3 Multiple Choice Test Bank - Chapter 3 The questions in the test bank cover the concepts from the lessons in Chapter 3. Select questions from any of the categories that match the content you covered with students. The

More information

ES 106 Laboratory # 2 HEAT AND TEMPERATURE

ES 106 Laboratory # 2 HEAT AND TEMPERATURE ES 106 Laboratory # 2 HEAT AND TEMPERATURE Introduction Heat transfer is the movement of heat energy from one place to another. Heat energy can be transferred by three different mechanisms: convection,

More information

Sample Questions Chapter 2. Stoker

Sample Questions Chapter 2. Stoker Sample Questions Chapter 2. Stoker 1. The mathematical meaning associated with the metric system prefixes centi, milli, and micro is, respectively, A) 2, 4, and 6. B) 2, 3, and 6. C) 3, 6, and 9. D) 3,

More information

ENERGY. Thermochemistry. Heat. Temperature & Heat. Thermometers & Temperature. Temperature & Heat. Energy is the capacity to do work.

ENERGY. Thermochemistry. Heat. Temperature & Heat. Thermometers & Temperature. Temperature & Heat. Energy is the capacity to do work. ENERGY Thermochemistry Energy is the capacity to do work. Chapter 6 Kinetic Energy thermal, mechanical, electrical, sound Potential Energy chemical, gravitational, electrostatic Heat Heat, or thermal energy,

More information

Physical and Chemical Properties of Matter

Physical and Chemical Properties of Matter Physical and Chemical Properties of Matter What is matter? Anything that has mass and takes up space Chemical or Physical Property? Physical properties of matter: characteristics that can be observed or

More information

Work, Energy and Power

Work, Energy and Power Name: KEY Work, Energy and Power Objectives: 1. To understand work and its relation to energy. 2. To understand how energy can be transformed from one form into another. 3. To compute the power from the

More information

STAAR Science Tutorial 25 TEK 8.6C: Newton s Laws

STAAR Science Tutorial 25 TEK 8.6C: Newton s Laws Name: Teacher: Pd. Date: STAAR Science Tutorial 25 TEK 8.6C: Newton s Laws TEK 8.6C: Investigate and describe applications of Newton's law of inertia, law of force and acceleration, and law of action-reaction

More information

Kinetic Molecular Theory (con t) Kinetic Molecular Theory Gas Liquid Solid 1. Slightly 2. High 3. Does not expand to

Kinetic Molecular Theory (con t) Kinetic Molecular Theory Gas Liquid Solid 1. Slightly 2. High 3. Does not expand to Kinetic Energy and (Kelvin) Temperature Temperature is a Kinetic Energy and (Kelvin) Temperature(2) The Kelvin temperature scale is called the Absolute Zero - Zero degrees on the 1. Highly 2. Low 3. Fills

More information

Simple Experiments in Thermochemistry

Simple Experiments in Thermochemistry Simple Experiments in Thermochemistry Purpose: To demonstrate the law of conservation of energy and propose a method for making a chemical heat pack using the heats of solution of sodium bicarbonate and

More information

Thermodynamics AP Physics B. Multiple Choice Questions

Thermodynamics AP Physics B. Multiple Choice Questions Thermodynamics AP Physics B Name Multiple Choice Questions 1. What is the name of the following statement: When two systems are in thermal equilibrium with a third system, then they are in thermal equilibrium

More information

Chapter 10 Temperature and Heat

Chapter 10 Temperature and Heat Chapter 10 Temperature and Heat GOALS When you have mastered the contents of this chapter, you will be able to achieve the following goals: Definitions Define each of the following terms, and use it an

More information

Purpose: To determine the dew and point and relative humidity in the classroom, and find the current relative humidity outside.

Purpose: To determine the dew and point and relative humidity in the classroom, and find the current relative humidity outside. Lab Exercise: Dew Point and Relative Humidity Purpose: To determine the dew and point and relative humidity in the classroom, and find the current relative humidity outside. Relative humidity is a measure

More information

KINETIC MOLECULAR THEORY OF MATTER

KINETIC MOLECULAR THEORY OF MATTER KINETIC MOLECULAR THEORY OF MATTER The kinetic-molecular theory is based on the idea that particles of matter are always in motion. The theory can be used to explain the properties of solids, liquids,

More information

A. Kinetic Molecular Theory (KMT) = the idea that particles of matter are always in motion and that this motion has consequences.

A. Kinetic Molecular Theory (KMT) = the idea that particles of matter are always in motion and that this motion has consequences. I. MOLECULES IN MOTION: A. Kinetic Molecular Theory (KMT) = the idea that particles of matter are always in motion and that this motion has consequences. 1) theory developed in the late 19 th century to

More information

Hot Leaks. See how the temperature of liquids changes the way they flow.

Hot Leaks. See how the temperature of liquids changes the way they flow. P h y s i c s Q u e s t A c t i v i t i e s Activity 2 1 Hot Leaks See how the temperature of liquids changes the way they flow. Safety: This experiment requires using the hot water tap and straight pins.

More information

Heat Transfer. Phys101 Lectures 35, 36. Key points: Heat as Energy Transfer Specific Heat Heat Transfer: Conduction, Convection, Radiation

Heat Transfer. Phys101 Lectures 35, 36. Key points: Heat as Energy Transfer Specific Heat Heat Transfer: Conduction, Convection, Radiation Phys101 Lectures 35, 36 Heat Transfer Key points: Heat as Energy Transfer Specific Heat Heat Transfer: Conduction, Convection, Radiation Ref: 16-1,3,4,10. Page 1 19-1 Heat as Energy Transfer We often speak

More information

Physical Science Refresher. Self Study Physical Science Refresher

Physical Science Refresher. Self Study Physical Science Refresher Self Study Physical Science Refresher Table of Contents 1. Three phases of matter: Solids, Liquids and Gases 2. The effect of heat and pressure on the phases of matter a) expanding and contracting 3. Changing

More information

5. Which temperature is equal to +20 K? 1) 253ºC 2) 293ºC 3) 253 C 4) 293 C

5. Which temperature is equal to +20 K? 1) 253ºC 2) 293ºC 3) 253 C 4) 293 C 1. The average kinetic energy of water molecules increases when 1) H 2 O(s) changes to H 2 O( ) at 0ºC 3) H 2 O( ) at 10ºC changes to H 2 O( ) at 20ºC 2) H 2 O( ) changes to H 2 O(s) at 0ºC 4) H 2 O( )

More information

Chapter 7: Momentum and Impulse

Chapter 7: Momentum and Impulse Chapter 7: Momentum and Impulse 1. When a baseball bat hits the ball, the impulse delivered to the ball is increased by A. follow through on the swing. B. rapidly stopping the bat after impact. C. letting

More information

Water to Vapor; Water to Ice The Process Is Amazing

Water to Vapor; Water to Ice The Process Is Amazing Science Project Idea 8 th -Grade Energy Water to Vapor; Water to Ice The Process Is Amazing Setting the Scene: Holding On To Heat If you leave a cup of cold water on a counter, it will warm up very quickly.

More information

Write True or False in the space provided.

Write True or False in the space provided. CP Physics -- Exam #7 Practice Name: _ Class: Date: Write True or False in the space provided. 1) Pressure at the bottom of a lake depends on the weight density of the lake water and on the volume of the

More information

= 800 kg/m 3 (note that old units cancel out) 4.184 J 1000 g = 4184 J/kg o C

= 800 kg/m 3 (note that old units cancel out) 4.184 J 1000 g = 4184 J/kg o C Units and Dimensions Basic properties such as length, mass, time and temperature that can be measured are called dimensions. Any quantity that can be measured has a value and a unit associated with it.

More information

States of Matter CHAPTER 10 REVIEW SECTION 1. Name Date Class. Answer the following questions in the space provided.

States of Matter CHAPTER 10 REVIEW SECTION 1. Name Date Class. Answer the following questions in the space provided. CHAPTER 10 REVIEW States of Matter SECTION 1 SHORT ANSWER Answer the following questions in the space provided. 1. Identify whether the descriptions below describe an ideal gas or a real gas. ideal gas

More information

HEAT UNIT 1.1 KINETIC THEORY OF GASES. 1.1.1 Introduction. 1.1.2 Postulates of Kinetic Theory of Gases

HEAT UNIT 1.1 KINETIC THEORY OF GASES. 1.1.1 Introduction. 1.1.2 Postulates of Kinetic Theory of Gases UNIT HEAT. KINETIC THEORY OF GASES.. Introduction Molecules have a diameter of the order of Å and the distance between them in a gas is 0 Å while the interaction distance in solids is very small. R. Clausius

More information

Water on Earth Unique Properties of Water Humidity Atmospheric Stability Clouds and Fog

Water on Earth Unique Properties of Water Humidity Atmospheric Stability Clouds and Fog GEO 101: PHYSICAL GEOGRAPHY Chapter 07: Water and Atmospheric Moisture Water on Earth Unique Properties of Water Humidity Atmospheric Stability Clouds and Fog Water on Earth The origin of water A scientific

More information

Lecture 36 (Walker 18.8,18.5-6,)

Lecture 36 (Walker 18.8,18.5-6,) Lecture 36 (Walker 18.8,18.5-6,) Entropy 2 nd Law of Thermodynamics Dec. 11, 2009 Help Session: Today, 3:10-4:00, TH230 Review Session: Monday, 3:10-4:00, TH230 Solutions to practice Lecture 36 final on

More information

Review Chapter 10, 12, 13, 14, 15, 16. Conceptual Physics, 10e (Hewitt) Chapter 10

Review Chapter 10, 12, 13, 14, 15, 16. Conceptual Physics, 10e (Hewitt) Chapter 10 Review Chapter 10, 12, 13, 14, 15, 16 Conceptual Physics, 10e (Hewitt) Chapter 10 23) What prevents satellites such as a space shuttle from falling? A) gravity B) the absence of air drag C) Nothing; they're

More information

Energy Heats Maine. Heat Transfer Scenes

Energy Heats Maine. Heat Transfer Scenes Energy Heats Maine 1G G2 Energy Heats Maine Energy Heats Maine 3G G4 Energy Heats Maine Energy Heats Maine 5G G6 Energy Heats Maine Energy Heats Maine 7G G8 Energy Heats Maine Energy Heats Maine 9G G10

More information

Chemistry Unit 3 Reading Assignment Energy and Kinetic Molecular Theory

Chemistry Unit 3 Reading Assignment Energy and Kinetic Molecular Theory Chemistry Unit 3 Reading Assignment Energy and Kinetic Molecular Theory The story behind the difficulty we have with energy is fascinating to those of us who struggle with trying to teach energy in a coherent

More information

PS-6.2 Explain the factors that determine potential and kinetic energy and the transformation of one to the other.

PS-6.2 Explain the factors that determine potential and kinetic energy and the transformation of one to the other. PS-6.1 Explain how the law of conservation of energy applies to the transformation of various forms of energy (including mechanical energy, electrical energy, chemical energy, light energy, sound energy,

More information

Chapter 4 Practice Quiz

Chapter 4 Practice Quiz Chapter 4 Practice Quiz 1. Label each box with the appropriate state of matter. A) I: Gas II: Liquid III: Solid B) I: Liquid II: Solid III: Gas C) I: Solid II: Liquid III: Gas D) I: Gas II: Solid III:

More information

9. The kinetic energy of the moving object is (1) 5 J (3) 15 J (2) 10 J (4) 50 J

9. The kinetic energy of the moving object is (1) 5 J (3) 15 J (2) 10 J (4) 50 J 1. If the kinetic energy of an object is 16 joules when its speed is 4.0 meters per second, then the mass of the objects is (1) 0.5 kg (3) 8.0 kg (2) 2.0 kg (4) 19.6 kg Base your answers to questions 9

More information

Physics Notes Class 11 CHAPTER 2 UNITS AND MEASUREMENTS

Physics Notes Class 11 CHAPTER 2 UNITS AND MEASUREMENTS 1 P a g e Physics Notes Class 11 CHAPTER 2 UNITS AND MEASUREMENTS The comparison of any physical quantity with its standard unit is called measurement. Physical Quantities All the quantities in terms of

More information

Energy Flow in Marine Ecosystem

Energy Flow in Marine Ecosystem Energy Flow in Marine Ecosystem Introduction Marin ecosystem is a functional system and consists of living groups and the surrounding environment It is composed of some groups and subgroups 1. The physical

More information

Thermodynamics. Thermodynamics 1

Thermodynamics. Thermodynamics 1 Thermodynamics 1 Thermodynamics Some Important Topics First Law of Thermodynamics Internal Energy U ( or E) Enthalpy H Second Law of Thermodynamics Entropy S Third law of Thermodynamics Absolute Entropy

More information

Specific Heat (slope and steepness)

Specific Heat (slope and steepness) 1 Specific Heat (slope and steepness) 10 pages. According to the Physical Science text book, the Specific Heat of a material is DEFINED as the following: Specific heat is the amount of heat energy required

More information

Phys222 W11 Quiz 1: Chapters 19-21 Keys. Name:

Phys222 W11 Quiz 1: Chapters 19-21 Keys. Name: Name:. In order for two objects to have the same temperature, they must a. be in thermal equilibrium.

More information