Scientific and Technological Literacy
Edition: 3
Copyright: 2023
Pages: 438
Edition: 3
Copyright: 2023
Pages: 432
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INTEGRATED SCIENCE: THE ENERGY CODE is written to help students who are not following a career in science and/or engineering, develop a measure of scientific and technological literacy. It is designed for a one-semester course, with two hours of lecture and a two-hour "hands-on" laboratory session per week.
Preface
Acknowledgments
Chapter 1: Introduction to Scientific and Technological Literacy
Goals
What Is Science Literacy?
“Live Long and Prosper”
Why Should We Study Science and Technology?
Science and Society
Science As a Way of Knowing: Technology As an Act of Doing
Science
Technology
What Is the Scientific Method?
How to “Live Long and Prosper”
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 2: Pattern Recognition
Goals
Periodic Waveform Patterns
Mathematics
Fourier Analysis
The Spiral Spring
The Falling Body
The Fibonacci Sequence
The Fibonacci Constant
The Fibonacci Spiral
Music
Crystallography
DNA
Pattern Recognition
The Unabomber
Periodic Table
Epidemiology
Evolution
Differential Medical Diagnoses
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Cholera
Crystals
Links
Chapter 3: Problem Solving: Blocks and Strategies
Goals
Problem Solving
Problem-Solving Methods
Polya’s Method
Gap Model
Scientific Method
What Is the Scientific Method?
Hypothesis Testing
Exponential Growth
Paper Folding
Blocks to Problem Solving
Critical Thinking Skills
Exercises
Answers to Exercise I
Review Questions
Multiple Choice Questions
Answers to the Evian and Gecko Problem
Bibliography and Web Resources
Controversial Theories
Links
Chapter 4: Models and Matter
Goals
Models
Physical Models
Graphical Models
Mathematical Models
Analog Models
Verbal Models
Building Models
Mouse Model
Model of Matter
Units
Metric System
Density
Matter
Chemical Structures
Compounds
Solutions
States of Matter
Gases
Liquids
Solids
Changes in State
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 5: Models and the Atom
Goals
Rutherford’s Atomic Model
Photons
Light and Waves
Planck’s Theory
Emission Spectra
Bohr’s Atomic Model
The Atom
DNA
Mathematical Models
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 6: Systems
Goals
Systems
Feedback
Systems Analysis
Equilibrium
Hunting
Tacoma Narrows Bridge
The Human Body
The Pacemaker
The Environment
Review Questions
Multiple Choice Questions
Exercises
Bibliography and Web Resources
Links
Chapter 7: Information and Coding
Goals
Codes
Information
Zip Code
Pony Express
Morse Code
Typewriter
Binary Code
Binary Numbering Systems
Digital and Analog
DNA
Musical Coding
Language Coding
Russian
Navajo
Smoke Signals
Semaphores
Automation Technology
Retail Checkout Automation
Advantages
Other Advantages
Customer Acceptance
Technology Development
Societal Impact
Technology Components
Universal Product Code
Reading the Code
QR Code
Reflections
Cryptology
Ancient Codes
Information as a Resource
Artificial Intelligence
Review Questions
Multiple Choice Questions
Exercises
Bibliography and Web Resources
Readings
Links
Chapter 8: Information and Coding in Living Systems
Goals
The Living Cell
Information Coding in the Nervous System
Information Coding in DNA
Human Genome Project
Single-Nucleotide Polymorphisms and the HapMap Project
Commercial Applications
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 9: Energy
Goals
Standards and Units
Force
Energy
Work
Power
Kinetic Energy
Potential Energy
Energy Forms
Origins of Energy
First Law of Thermodynamics
A Star Is Born
Energy Sources
Energy Conversions and Efficiencies
Second Law of Thermodynamics
Loss of Opportunity
Boundary Conditions
Barry Commoner’s View
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 10: A Primer: Energy Sources: Their Nature and Use
Goals
Thermodynamics
Nuclear Energy
Fission
Fusion
Solar Energy
Direct Radiation
Hydropower
Tidal Energy
Wind Energy
Biomass Energy
Photovoltaics
Geothermal Energy
Fossil Fuels
Coal
Natural Gas and Petroleum
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Brief Biography of Codiscoverer of Nuclear Fission
Einstein Web Site
Nuclear Reactor
Nuclear Fusion
Links
Chapter 11: Energy Resources and Their Environmental Effects: (The Carbon Cycle and More)
Goals
Photovoltaics
Systems Approach
Electromagnetic Spectrum
Greenhouse Effect
Natural Gas
Fossil Fuel and Auto Emissions
Are Electric Vehicles the Perfect Solution?
Coal
Plastics
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 12: Metabolism and Nutrition
Goals
Entropy
Energy Extraction through Metabolic Breakdown
Nutrition
Carbohydrates
Fats
Protein
Vitamins
Minerals
Water
Calories
Nutritional Energy Balance
Weight Management
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 13: Population and Growth
Goals
Population Growth
Exponential Growth
Mathematical Review
Exponential Growth and Doubling Time
The Magical Formula
The Exponential Function and Population
Limits to Growth
World3 Model
Report to the Club of Rome (1972)
Population
Carrying Capacity Calculation
Population Growth and Resources Impact
Conclusions: The 1992 Report
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 14: Medical Screening Tests
Goals
Medical Screening Tests
How Effective Are Medical Screening Tests?
Genetic Screening Technologies
COVID-19 Screening
Fetal Screening
Amniocentesis
Fetoscopy
Newborn Screening
Risk–Benefit Analysis in Genetic Screening
Exercises
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 15: Technology and Risk
Goals
Technology and Risk
Chlorinating Water Supplies
Cooking Steaks
Irradiation of Food
Sources of Technological Risk
Hardware Factors
Human Factors
Organizational Factors
External Social Factors
Quantifying Risk
The Association Coefficient
Relative Risk
Performing Cost–Benefit and Risk–Benefit Analysis
Performing Quality-Adjusted Life Year Analysis
Controlling Risk
Automobiles
Cell Phone Regulation
Review Questions
Multiple Choice Questions
Essay Question
Bibliography and Web Resources
Links
Appendix A: Review of Basic Mathematics
Appendix B: Scientific Notation and Significant Figures
Appendix C: Functions
Appendix D: Laboratory Activities
Activity 1—Orientation
Activity 2—Floating and Sinking
Activity 3—The Small and the Large
Activity 4—Measuring Cell Size
Activity 5—Models and Modeling
Activity 6—Collecting Solar Energy
Activity 7—Energy Conversions
Activity 8—Problem Solving: Measuring Temperature with Only Limited Means
Activity 9—Patterns of Problem Solving
Activity 10—Solar Constant and the Earth’s Carrying Capacity
Activity 11—Electromagnetic Spectra
Activity 12—Measuring Your Metabolic Rate
Activity 13—Medical Screening Tests
Activity 14—Schneider Cardiovascular Test
Index
INTEGRATED SCIENCE: THE ENERGY CODE is written to help students who are not following a career in science and/or engineering, develop a measure of scientific and technological literacy. It is designed for a one-semester course, with two hours of lecture and a two-hour "hands-on" laboratory session per week.
Preface
Acknowledgments
Chapter 1: Introduction to Scientific and Technological Literacy
Goals
What Is Science Literacy?
“Live Long and Prosper”
Why Should We Study Science and Technology?
Science and Society
Science As a Way of Knowing: Technology As an Act of Doing
Science
Technology
What Is the Scientific Method?
How to “Live Long and Prosper”
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 2: Pattern Recognition
Goals
Periodic Waveform Patterns
Mathematics
Fourier Analysis
The Spiral Spring
The Falling Body
The Fibonacci Sequence
The Fibonacci Constant
The Fibonacci Spiral
Music
Crystallography
DNA
Pattern Recognition
The Unabomber
Periodic Table
Epidemiology
Evolution
Differential Medical Diagnoses
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Cholera
Crystals
Links
Chapter 3: Problem Solving: Blocks and Strategies
Goals
Problem Solving
Problem-Solving Methods
Polya’s Method
Gap Model
Scientific Method
What Is the Scientific Method?
Hypothesis Testing
Exponential Growth
Paper Folding
Blocks to Problem Solving
Critical Thinking Skills
Exercises
Answers to Exercise I
Review Questions
Multiple Choice Questions
Answers to the Evian and Gecko Problem
Bibliography and Web Resources
Controversial Theories
Links
Chapter 4: Models and Matter
Goals
Models
Physical Models
Graphical Models
Mathematical Models
Analog Models
Verbal Models
Building Models
Mouse Model
Model of Matter
Units
Metric System
Density
Matter
Chemical Structures
Compounds
Solutions
States of Matter
Gases
Liquids
Solids
Changes in State
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 5: Models and the Atom
Goals
Rutherford’s Atomic Model
Photons
Light and Waves
Planck’s Theory
Emission Spectra
Bohr’s Atomic Model
The Atom
DNA
Mathematical Models
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 6: Systems
Goals
Systems
Feedback
Systems Analysis
Equilibrium
Hunting
Tacoma Narrows Bridge
The Human Body
The Pacemaker
The Environment
Review Questions
Multiple Choice Questions
Exercises
Bibliography and Web Resources
Links
Chapter 7: Information and Coding
Goals
Codes
Information
Zip Code
Pony Express
Morse Code
Typewriter
Binary Code
Binary Numbering Systems
Digital and Analog
DNA
Musical Coding
Language Coding
Russian
Navajo
Smoke Signals
Semaphores
Automation Technology
Retail Checkout Automation
Advantages
Other Advantages
Customer Acceptance
Technology Development
Societal Impact
Technology Components
Universal Product Code
Reading the Code
QR Code
Reflections
Cryptology
Ancient Codes
Information as a Resource
Artificial Intelligence
Review Questions
Multiple Choice Questions
Exercises
Bibliography and Web Resources
Readings
Links
Chapter 8: Information and Coding in Living Systems
Goals
The Living Cell
Information Coding in the Nervous System
Information Coding in DNA
Human Genome Project
Single-Nucleotide Polymorphisms and the HapMap Project
Commercial Applications
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 9: Energy
Goals
Standards and Units
Force
Energy
Work
Power
Kinetic Energy
Potential Energy
Energy Forms
Origins of Energy
First Law of Thermodynamics
A Star Is Born
Energy Sources
Energy Conversions and Efficiencies
Second Law of Thermodynamics
Loss of Opportunity
Boundary Conditions
Barry Commoner’s View
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 10: A Primer: Energy Sources: Their Nature and Use
Goals
Thermodynamics
Nuclear Energy
Fission
Fusion
Solar Energy
Direct Radiation
Hydropower
Tidal Energy
Wind Energy
Biomass Energy
Photovoltaics
Geothermal Energy
Fossil Fuels
Coal
Natural Gas and Petroleum
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Brief Biography of Codiscoverer of Nuclear Fission
Einstein Web Site
Nuclear Reactor
Nuclear Fusion
Links
Chapter 11: Energy Resources and Their Environmental Effects: (The Carbon Cycle and More)
Goals
Photovoltaics
Systems Approach
Electromagnetic Spectrum
Greenhouse Effect
Natural Gas
Fossil Fuel and Auto Emissions
Are Electric Vehicles the Perfect Solution?
Coal
Plastics
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 12: Metabolism and Nutrition
Goals
Entropy
Energy Extraction through Metabolic Breakdown
Nutrition
Carbohydrates
Fats
Protein
Vitamins
Minerals
Water
Calories
Nutritional Energy Balance
Weight Management
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 13: Population and Growth
Goals
Population Growth
Exponential Growth
Mathematical Review
Exponential Growth and Doubling Time
The Magical Formula
The Exponential Function and Population
Limits to Growth
World3 Model
Report to the Club of Rome (1972)
Population
Carrying Capacity Calculation
Population Growth and Resources Impact
Conclusions: The 1992 Report
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 14: Medical Screening Tests
Goals
Medical Screening Tests
How Effective Are Medical Screening Tests?
Genetic Screening Technologies
COVID-19 Screening
Fetal Screening
Amniocentesis
Fetoscopy
Newborn Screening
Risk–Benefit Analysis in Genetic Screening
Exercises
Review Questions
Multiple Choice Questions
Bibliography and Web Resources
Links
Chapter 15: Technology and Risk
Goals
Technology and Risk
Chlorinating Water Supplies
Cooking Steaks
Irradiation of Food
Sources of Technological Risk
Hardware Factors
Human Factors
Organizational Factors
External Social Factors
Quantifying Risk
The Association Coefficient
Relative Risk
Performing Cost–Benefit and Risk–Benefit Analysis
Performing Quality-Adjusted Life Year Analysis
Controlling Risk
Automobiles
Cell Phone Regulation
Review Questions
Multiple Choice Questions
Essay Question
Bibliography and Web Resources
Links
Appendix A: Review of Basic Mathematics
Appendix B: Scientific Notation and Significant Figures
Appendix C: Functions
Appendix D: Laboratory Activities
Activity 1—Orientation
Activity 2—Floating and Sinking
Activity 3—The Small and the Large
Activity 4—Measuring Cell Size
Activity 5—Models and Modeling
Activity 6—Collecting Solar Energy
Activity 7—Energy Conversions
Activity 8—Problem Solving: Measuring Temperature with Only Limited Means
Activity 9—Patterns of Problem Solving
Activity 10—Solar Constant and the Earth’s Carrying Capacity
Activity 11—Electromagnetic Spectra
Activity 12—Measuring Your Metabolic Rate
Activity 13—Medical Screening Tests
Activity 14—Schneider Cardiovascular Test
Index