Last time: Making Measurements

Similar documents
5 Answers and Solutions to Text Problems

Chapter 4 Practice Quiz

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

UNIT (1) MEASUREMENTS IN CHEMISTRY

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

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

Chapter 10: Temperature and Heat

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

Chapter 1: Chemistry: Measurements and Methods

Chemistry 13: States of Matter

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

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

Unit 3: States of Matter Practice Exam

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

Chapter 2 Measurements in Chemistry. Standard measuring device. Standard scale gram (g)

Thermochemistry. r2 d:\files\courses\ \99heat&thermorans.doc. Ron Robertson

A n = 2 to n = 1. B n = 3 to n = 1. C n = 4 to n = 2. D n = 5 to n = 2

Energy and Matter CHAPTER OUTLINE CHAPTER GOALS

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

Specific Heat (slope and steepness)

Science Department Mark Erlenwein, Assistant Principal

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

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 10 Temperature and Heat

Preview of Period 5: Thermal Energy, the Microscopic Picture

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

Chemistry 110 Lecture Unit 5 Chapter 11-GASES

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

Energy Matters Heat. Changes of State

Physical and Chemical Properties of Matter

Sample Questions Chapter 2. Stoker

CHEMISTRY STANDARDS BASED RUBRIC ATOMIC STRUCTURE AND BONDING

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

1 Introduction The Scientific Method (1 of 20) 1 Introduction Observations and Measurements Qualitative, Quantitative, Inferences (2 of 20)

ES 106 Laboratory # 2 HEAT AND TEMPERATURE

UNIT 1 THERMOCHEMISTRY

Energy and Chemical Reactions. Characterizing Energy:

Chapter 10 Temperature and Heat

KINETIC THEORY AND THERMODYNAMICS

Bomb Calorimetry. Example 4. Energy and Enthalpy

Chapter 4: Transfer of Thermal Energy

Review - After School Matter Name: Review - After School Matter Tuesday, April 29, 2008

Answer, Key Homework 6 David McIntyre 1

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.

Chemical Formulas, Equations, and Reactions Test Pre-AP Write all answers on your answer document.

Chemical Changes. Measuring a Chemical Reaction. Name(s)

Chemistry Unit 3 Reading Assignment Energy and Kinetic Molecular Theory

1. Thermite reaction 2. Enthalpy of reaction, H 3. Heating/cooling curves and changes in state 4. More thermite thermodynamics

TEACHER BACKGROUND INFORMATION THERMAL ENERGY

CHEM 120 Online Chapter 7

Unit 5 Practice Test. Name: Class: Date: Multiple Choice Identify the choice that best completes the statement or answers the question.

SAM Teachers Guide Heat and Temperature

Gas Laws. The kinetic theory of matter states that particles which make up all types of matter are in constant motion.

Worksheet # How much heat is released when 143 g of ice is cooled from 14 C to 75 C, if the specific heat capacity of ice is J/(g C).

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

SEPARATION OF A MIXTURE OF SUBSTANCES LAB

Chemical reactions allow living things to grow, develop, reproduce, and adapt.

Module 5: Combustion Technology. Lecture 34: Calculation of calorific value of fuels

Every mathematician knows it is impossible to understand an elementary course in thermodynamics. ~V.I. Arnold

Temperature. Temperature

CHAPTER 14 THE CLAUSIUS-CLAPEYRON EQUATION

Test Bank - Chapter 3 Multiple Choice

Processes Within an Ecosystem

FXA Candidates should be able to : Define and apply the concept of specific heat capacity. Select and apply the equation : E = mcδθ

Indiana's Academic Standards 2010 ICP Indiana's Academic Standards 2016 ICP. map) that describe the relationship acceleration, velocity and distance.

EXPERIMENT 15: Ideal Gas Law: Molecular Weight of a Vapor

The energy level diagram for this reaction is shown below.

Temperature Scales. The metric system that we are now using includes a unit that is specific for the representation of measured temperatures.

A Study of Matter. Video Notes

Gas Laws. Heat and Temperature

Part B 2. Allow a total of 15 credits for this part. The student must answer all questions in this part.

Chapter Test A. States of Matter MULTIPLE CHOICE. a fixed amount of STAs2 a. a solid. b. a liquid. c. a gas. d. any type of matter.

Exam on Heat and Energy

Phase diagram of water. Note: for H 2 O melting point decreases with increasing pressure, for CO 2 melting point increases with increasing pressure.

Warm-Up 9/9. 1. Define the term matter. 2. Name something in this room that is not matter.

Name: Unit 2- Elements, Compounds and Mixtures and Physical/Chemical Properties and Changes. Elements, Compounds and Mixtures

Chapter 1 Lecture Notes: Science and Measurements

Freezing Point Depression: Why Don t Oceans Freeze? Teacher Advanced Version

Q1. A student studied the reaction between dilute hydrochloric acid and an excess of calcium carbonate.

Chapter 6 Thermodynamics: The First Law

States of Matter and the Kinetic Molecular Theory - Gr10 [CAPS]

Chapter 2, Lesson 5: Changing State Melting

Evolution of the Thermometer

The first law: transformation of energy into heat and work. Chemical reactions can be used to provide heat and for doing work.

Phys222 W11 Quiz 1: Chapters Keys. Name:

EXAMPLE EXERCISE 3.1 Metric Basic Units and Prefixes

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

Chapter 5 Student Reading

Chapter 12 - Liquids and Solids

Intermolecular Forces

There is no such thing as heat energy

Convection, Conduction & Radiation

Vaporization of Liquid Nitrogen

Chemical Bonds. Chemical Bonds. The Nature of Molecules. Energy and Metabolism < < Covalent bonds form when atoms share 2 or more valence electrons.

Chemistry 11 Some Study Materials for the Final Exam

REASONING AND SOLUTION

Grade Level: 6 th grade Presented by: Sally Ferrelle, Oglethorpe Academy, Savannah, GA Length of Unit: 5 lessons

Test Review # 9. Chemistry R: Form TR9.13A

KS3 Science: Chemistry Contents

KINETIC THEORY OF MATTER - molecules in matter are always in motion - speed of molecules is proportional to the temperature

Transcription:

Announcements & Agenda (01/15/07) Office Hours (SC 3063) Permanent Change: Thurs 9-11am 9 replaces Mon 3-5pm3 This Week: must cancel Wed 3-5pm 3 OH (will leave @ 2pm) Quiz 1 (the CD quizzes) will be accepted until Wed First in-class quiz (Quiz 2) will be Wed. (Ch 1 & 2) See overhead for your clicker number You should currently be reading Ch 3 Today: Heat and temperature (2.3, 2.4) Phase changes (2.5, 2.6) 1 Last time: Making Measurements. l 2.... l.... l 3.... l.... l 4.. cm The markings on the meter stick at the end of the orange line are read as the first digit 2 plus the second digit 2.7 The last digit is obtained by estimating. The end of the line might be estimated between 2.7 2.8 as half-way (0.5) or a little more (0.6), which gives a reported length of 2.75 cm or 2.76 cm. Measured #s always need units! 2 LAST TIME: Energy Energy the ability to do work 1. Kinetic Energy: energy of motion 2. Potential Energy: stored energy IMPORTANT EXAMPLES: ENERGY OF BONDS ENERGY OF FOOD MOLECULES 3. Thermal Energy 4. Radiant Energy 3 Last Time: Conversion Factors in Problem Solving Write the given and needed units. Write a unit plan to convert the given unit to the needed unit. Write equalities and conversion factors that connect the units. Use conversion factors to cancel the given unit and provide the needed unit. Unit 1 x Unit 2 = Unit 2 Unit 1 Given x Conversion = Needed unit factor unit PRACTICE! 4 1

Heat & Temperature Particles are always moving. When you heat water, the water molecules move faster. When molecules move faster, the substance gets hotter. When a substance gets hotter, its temperature and total energy content increases. measure temperature changes with a thermometer Three Important Temperature Scales Fahrenheit Celsius Kelvin Water boils 212 F 100 C 373 K 180 100 C 100K Water freezes 32 F 0 C 273 K 5 6 On the Fahrenheit scale,, there are 180 F between the freezing and boiling points and on the Celsius scale, there are 100 C. 180 F = 9 F = 1.8 F 100 C 5 C 1 C In the formula for the Fahrenheit temperature,, adding 32 adjusts the zero point of water from 0 C 0 C to 32 F. or T F T F Fahrenheit Formula = 9/5 T C + 32 = 1.8 T C + 32 T C is obtained by rearranging the equation for T F. T F = 1.8T C + 32 Subtract 32 from both sides. T F - 32 = 1.8T C ( +32-32) T F - 32 = 1.8T C Celsius Formula Divide by 1.8 = F - 32 = 1.8 T C 1.8 1.8 T F - 32 = T C 1.8 7 8 2

Solving A Temperature Problem Specific Heat (2.4) A person with hypothermia has a body temperature of 34.8 C. What is that temperature in F? T F = 1.8 T C + 32 T F = 1.8 (34.8 C) + 32 exact tenth's exact = 62.6 + 32 = 94.6 F tenth s 3 sig. figs. based on measured numbers! Copyright 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings 9 Different substances have different capacities for storing energy It may take 20 minutes to heat water to 75 C. However, the same mass of aluminum might require 5 minutes and the same amount of copper may take only 2 minutes to reach the same temperature. THINK ABOUT BOB MAKING MAC & CHEESE 10 Examples of Specific Heats Specific Heat: Mathematical Description TABLE 2.6 cal/g C 0.214 0.0920 0.0308 0.108 0.0562 0.125 0.488 0.588 0.207 0.100 Specific heat (SH) is different for different substances. is the amount of heat that raises the temperature of 1 g of a substance by 1 C Heat of a process = (Specific Heat) x (mass) x ( T) in the SI system has units of J/g C. in the metric system has units of cal/g C. 11 12 3

Heat Equation Rearranging the specific heat expression gives the heat equation. Heat = g x C C x J = J g C The amount of heat lost or gained by a substance is calculated from the mass of substance (g). temperature change ( T).( specific heat of the substance (J/g C) C). Learning Check A. When ocean water cools, the surrounding air 1) cools. 2) warms. 3) stays the same. B. Sand in the desert is hot in the day, and cool at night. Sand must have a 1) high specific heat. 2) low specific heat. Key Point: If one substance heats up by a certain amount, another substance must exactly lose that same amount of heat! 13 14 How many kilojoules are needed to raise the temperature of 325 g of water from 15.0 C to 77.0 C (SH of water = 4.184 J/(g o C)? 0% 1) 20.4 kj 0% 2) 77.7 kj 0% 3) 84.3 kj Solution How many kilojoules are needed to raise the temperature of 325 g of water from 15.5 C to 77.5 C? 3) 84.3 kj 77.0 C 15.0 C = 62.0 C 325 g x 62.0 C x 4.184 J x 1 kj g C 1000 J = 84.3 kj 1 2 3 4 5 15 16 4

Another Example What is the specific heat of a metal if 24.8 g absorbs 275 J of energy and the temperature rises from 20.2 C C to 24.5 C? Solution What is the specific heat of a metal if 24.8 g absorbs 275 J of energy and the temperature rises from 20.2 C C to 24.5 C? Given: 24.8 g metal, 275 J of energy, 20.2 C C to 24.5 C Need: J/g C Plan: SH = Heat/g C T T = 24.5 C 20.2 C = 4.3 C Set Up: 275 J = 2.6 J/g C (24.8 g)(4.3 C) 17 18 Why are we so interested in heat? States of Matter Chemical reactions that produce heat Exothermic Solid Liquid Gas Chemical reactions that absorb heat Endothermic Heat is related to whether a chemical or biological process will happen! 19 20 5

States of Matter Phases Changes Solid Liquid Gas deposition melting sublimation (e.g. freeze-drying) freezing 21 condensation vaporization 22 The Heat of Fusion The heat of fusion is the amount of heat released when 1 gram of liquid freezes (at its freezing point). is the amount of heat needed to melt 1 gram of a solid (at its melting point). for water (at 0 C) 0 is 80. cal 1 g water Calculations Using Heat of Fusion The heat needed to freeze (or melt) a specific mass of water (or ice) is calculated using the heat of fusion. Heat = g water x 80. cal 1 g water Example: : How much heat in cal is needed to melt 15.0 g of water? 15.0 g water x 80. cal = 1200 cal 1 g water 23 24 6

Heat of Vaporization The heat of vaporization is the amount of heat absorbed to vaporize 1 g of a liquid to gas at the boiling point. released when 1 g of a gas condenses to liquid at the boiling point. Boiling Point of Water = 100 C Heat of Vaporization (water) = 540 cal 1 g water How many kilocalories (kcal) are released when 50.0 g of steam from a volcano condenses at 100 C? (Heat of Vaporization = 540 cal/g) 0% 1) 27 kcal 0% 2) 540 kcal 0% 3) 54 kcal 0% 4) 2700 kcal 25 1 2 3 4 5 26 Summary of Phase Changes: Heating Curves A heating curve illustrates the changes of state as a solid is heated. uses sloped lines to show an increase in temperature. uses plateaus (flat lines) to indicate a change of state. Cooling Curve Using the heating curve of water as a guide, draw a cooling curve for water beginning with steam at 110 C and ending at -20 C. 27 28 7

Combined Heat Calculations To reduce a fever, an infant is packed in 250. g of ice. If the ice (at 0 C) melts and warms to body temperature (37.0 C), how many calories are removed from the body? Step 1: Diagram the changes 37 C T T = 37.0 C - 0 C C = 37.0 C 0 C solid liquid melting temperature increase 29 Combined Heat Calculations (continued.) Step 2: Calculate the heat to melt ice (fusion) 250. g ice x 80. cal = 2.000 10 4 cal 1 g ice Step 3: Calculate the heat to warm the water from 0 C to 37.0 C (SH of water = 1 cal/g) 250. g x 37.0 C x 1.00 cal = 9 250 cal g C Total: Step 2 + Step 3 = 29 200 cal (rounded to 3 SF) 30 8

2024 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information