University Physics for the Physical and Life Sciences
First Edition ©2012 Philip R. Kesten; David L. Tauck Formats: E-book, Print
As low as C$51.99
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Authors
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Philip R. Kesten
Dr. Philip Kesten, Associate Professor of Physics and Associate Provost for Residential Learning Communities at Santa Clara University, holds a B.S. in physics from the Massachusetts Institute of Technology and received his Ph.D. in high energy particle physics from the University of Michigan. Since joining the Santa Clara faculty in 1990, Dr. Kesten has also served as Chair of Physics, Faculty Director of the ATOM and da Vinci Residential Learning Communities, and Director of the Ricard Memorial Observatory. He has received awards for teaching excellence and curriculum innovation, was Santa Claras Faculty Development Professor for 2004-2005, and was named the California Professor of the Year in 2005 by the Carnegie Foundation for the Advancement of Education. Dr. Kesten is co-founder of Docutek, (A SirsiDynix Company), an Internet software company, and has served as the Senior Editor for Modern Dad, a newsstand magazine.
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David L. Tauck
Dr. David Tauck, Associate Professor of Biology, holds both a B.A. in biology and an M.A. in Spanish from Middlebury College. He earned his Ph.D. in physiology at Duke University and completed postdoctoral fellowships at Stanford University and Harvard University in anesthesia and neuroscience, respectively. Since joining the Santa Clara University faculty in 1987, he has served as Chair of the Biology Department, the College Committee on Rank and Tenure, and the Institutional Animal Care and Use Committee; he has also served as president of the local chapter of Phi Beta Kappa. Dr. Tauck currently serves as the Faculty Director in Residence of the da Vinci Residential Learning Community.
Table of Contents
1 Physics: An Introduction
1. Speaking Physics
2. Physical Quantities and Units
3. Prefixes and Conversions
4. Significant Figures
5. Solving Problems
6. Dimensional Analysis
1. Constant Velocity Motion
2. Acceleration
3. Motion under Constant Acceleration
4. Gravity at the Surface of Earth
1. Horizontal and Vertical Motions are Independent
2. Vectors
3. Vector Components: Adding Vectors, Analyzing by Component
4. Projectile Motion
5. Uniform Circular Motion
1. Newton’s First Law
2. Newton’s Second Law
3. Mass and Weight
4. Free Body Diagrams
5. Newton’s Third Law
6. Force, Acceleration, Motion
1. Static Friction
2. Kinetic Friction
3. Working with Friction
4. Drag Force
5. Forces and Uniform Circular Motion
1. Work
2. The Work – Energy Theorem
3. Applications of the Work – Energy Theorem
4. Work Done by a Variable Force
5. Potential Energy
6. Conservation of Energy
7. Nonconservative Forces
8. Using Energy Conservation
7 Linear Momentum
1. Linear Momentum
2. Conservation of Momentum
3. Inelastic Collisions
4. Contact Time
5. Elastic Collisions
6. Center of Mass
8 Rotational Motion
1. Rotational Kinetic Energy
2. Moment of Inertia
3. The Parallel-Axis Theorem
4. Conservation of Energy Revisited
5. Rotational Kinematics
6. Torque
8. The Vector Nature of Rotational Quantities
9 Elasticity and Fracture
1. Tensile Stress and Strain
2. Volume Stress and Strain
3. Shear Stress and Strain
4. Elasticity and Fracture
1. Newton’s Universal Law of Gravitation
2. The Shell Theorem
3. Gravitational Potential Energy
4. Kepler’s Laws
11 Fluids
1. Density
2. Pressure
3. Pressure versus Depth in a Fluid
4. Atmospheric Pressure and Common Pressure Units
5. Pressure Difference and Net Force
6. Pascal’s Principle
7. Buoyancy – Archimedes’ Principle
8. Fluids in Motion and Equation of Continuity
9. Fluid Flow – Bernoulli’s Equation
10. Viscous Fluid Flow
1. Simple Harmonic Motion
2. Oscillations Described
3. Energy Considerations
4. The Simple Pendulum
5. Physical Oscillators
6. The Physical Pendulum
7. The Damped Oscillator
8. The Forced Oscillator
1. Types of Waves
2. Mathematical Description of a Wave
3. Wave Speed
4. Superposition and Interference
5. Transverse Standing Waves
6 Longitudinal Standing Waves
7. Beats
8. Volume, Intensity, and Sound Level
9. Moving Sources and Observers of Waves
1. Temperature
2. A Molecular View of Temperature
3. Mean Free Path
4. Thermal Expansion
5. Heat
6. Latent Heat
7. Heat Transfer: Radiation, Convection, Conduction
15 Thermodynamics II
1. The First Law of Thermodynamics
2. Thermodynamic Processes
3. The Second and Third Laws of Thermodynamics
4. Gases
5. Entropy
16 Electrostatics I
1. Electric Charge
2. Coulomb’s Law
3. Conductors and Insulators
4. Electric Field
5. Electric Field for some Objects
6. Gauss’s Law
7. Applications of Gauss’s Law
1. Electric Potential
2. Equipotential Surfaces
3. Electrical Potential due to Certain Charge Distributions
4. Capacitance
5. Energy Stored in a Capacitor
6. Capacitors in Series and Parallel
7. Dielectrics
1. Current
2. Resistance and Resistivity
3. Physical and Physiological Resistors
4. Direct Current Circuits
5. Resistors in Series and Parallel
6. Power
7. Series RC Circuits
8. Bioelectricity
19 Magnetism
1. Magnetic Force and Magnetic Field
2. Magnetic Force on a Current
3. Magnetic Field and Current –the Biot-Savart Law
4. Magnetic Field and Current–Ampère’s Law
5. Magnetic Force between Current-Carrying Wires
1. Faraday’s Law of Induction
2. Lenz’s Law
3. Applications of Faraday’s and Lenz’s Laws
4. Inductance
5. LC Circuits
6. LR Circuits
1. Alternating Current
2. Transformers
3. The Series LRC Circuit
4. L, R, C Separately With AC
5. L, R, C In Series With AC
6. Applications of a Series LRC Circuit
1. Electromagnetic Waves
2. Maxwell’s Equations
1. Refraction
2. Total Internal Reflection
3. Dispersion
4. Polarization
5. Thin Film Interference
6. Diffraction
7. Circular Apertures
1. Plane Mirrors
2. Spherical Concave Mirrors, a Qualitative Look
3. Spherical Concave Mirrors, a Quantitative Look
4. Spherical Convex Mirrors, a Qualitative Look
5. Spherical Convex Mirrors, a Quantitative Look
6. Lenses, a Qualitative Look
7. Lenses, a Quantitative Look
1. Newtonian Relativity
2. The Michelson and Morley Experiment
3, Special Relativity, Time Dilation
4. The Lorentz Transformation, Length Contraction
5. Lorentz Velocity Transformation
6. Relativistic Momentum and Energy
7. General Relativity
1. Blackbody Radiation
2. Photoelectric Effect
3. Compton Effect
4. Wave Nature of Particles
5. The Atom: Rutherford and Bohr
6. The Atom: Energy Levels and Spectra
1. The Nucleus
2. Binding Energy
3. Fission
4. Fusion
5. Nuclear radiation
1. The Standard Model: Particles
2. The Standard Model: Forces
3. Matter, Antimatter, Dark Matter
Product Updates
Authors
-
Philip R. Kesten
Dr. Philip Kesten, Associate Professor of Physics and Associate Provost for Residential Learning Communities at Santa Clara University, holds a B.S. in physics from the Massachusetts Institute of Technology and received his Ph.D. in high energy particle physics from the University of Michigan. Since joining the Santa Clara faculty in 1990, Dr. Kesten has also served as Chair of Physics, Faculty Director of the ATOM and da Vinci Residential Learning Communities, and Director of the Ricard Memorial Observatory. He has received awards for teaching excellence and curriculum innovation, was Santa Claras Faculty Development Professor for 2004-2005, and was named the California Professor of the Year in 2005 by the Carnegie Foundation for the Advancement of Education. Dr. Kesten is co-founder of Docutek, (A SirsiDynix Company), an Internet software company, and has served as the Senior Editor for Modern Dad, a newsstand magazine.
-
David L. Tauck
Dr. David Tauck, Associate Professor of Biology, holds both a B.A. in biology and an M.A. in Spanish from Middlebury College. He earned his Ph.D. in physiology at Duke University and completed postdoctoral fellowships at Stanford University and Harvard University in anesthesia and neuroscience, respectively. Since joining the Santa Clara University faculty in 1987, he has served as Chair of the Biology Department, the College Committee on Rank and Tenure, and the Institutional Animal Care and Use Committee; he has also served as president of the local chapter of Phi Beta Kappa. Dr. Tauck currently serves as the Faculty Director in Residence of the da Vinci Residential Learning Community.
Table of Contents
1 Physics: An Introduction
1. Speaking Physics
2. Physical Quantities and Units
3. Prefixes and Conversions
4. Significant Figures
5. Solving Problems
6. Dimensional Analysis
1. Constant Velocity Motion
2. Acceleration
3. Motion under Constant Acceleration
4. Gravity at the Surface of Earth
1. Horizontal and Vertical Motions are Independent
2. Vectors
3. Vector Components: Adding Vectors, Analyzing by Component
4. Projectile Motion
5. Uniform Circular Motion
1. Newton’s First Law
2. Newton’s Second Law
3. Mass and Weight
4. Free Body Diagrams
5. Newton’s Third Law
6. Force, Acceleration, Motion
1. Static Friction
2. Kinetic Friction
3. Working with Friction
4. Drag Force
5. Forces and Uniform Circular Motion
1. Work
2. The Work – Energy Theorem
3. Applications of the Work – Energy Theorem
4. Work Done by a Variable Force
5. Potential Energy
6. Conservation of Energy
7. Nonconservative Forces
8. Using Energy Conservation
7 Linear Momentum
1. Linear Momentum
2. Conservation of Momentum
3. Inelastic Collisions
4. Contact Time
5. Elastic Collisions
6. Center of Mass
8 Rotational Motion
1. Rotational Kinetic Energy
2. Moment of Inertia
3. The Parallel-Axis Theorem
4. Conservation of Energy Revisited
5. Rotational Kinematics
6. Torque
8. The Vector Nature of Rotational Quantities
9 Elasticity and Fracture
1. Tensile Stress and Strain
2. Volume Stress and Strain
3. Shear Stress and Strain
4. Elasticity and Fracture
1. Newton’s Universal Law of Gravitation
2. The Shell Theorem
3. Gravitational Potential Energy
4. Kepler’s Laws
11 Fluids
1. Density
2. Pressure
3. Pressure versus Depth in a Fluid
4. Atmospheric Pressure and Common Pressure Units
5. Pressure Difference and Net Force
6. Pascal’s Principle
7. Buoyancy – Archimedes’ Principle
8. Fluids in Motion and Equation of Continuity
9. Fluid Flow – Bernoulli’s Equation
10. Viscous Fluid Flow
1. Simple Harmonic Motion
2. Oscillations Described
3. Energy Considerations
4. The Simple Pendulum
5. Physical Oscillators
6. The Physical Pendulum
7. The Damped Oscillator
8. The Forced Oscillator
1. Types of Waves
2. Mathematical Description of a Wave
3. Wave Speed
4. Superposition and Interference
5. Transverse Standing Waves
6 Longitudinal Standing Waves
7. Beats
8. Volume, Intensity, and Sound Level
9. Moving Sources and Observers of Waves
1. Temperature
2. A Molecular View of Temperature
3. Mean Free Path
4. Thermal Expansion
5. Heat
6. Latent Heat
7. Heat Transfer: Radiation, Convection, Conduction
15 Thermodynamics II
1. The First Law of Thermodynamics
2. Thermodynamic Processes
3. The Second and Third Laws of Thermodynamics
4. Gases
5. Entropy
16 Electrostatics I
1. Electric Charge
2. Coulomb’s Law
3. Conductors and Insulators
4. Electric Field
5. Electric Field for some Objects
6. Gauss’s Law
7. Applications of Gauss’s Law
1. Electric Potential
2. Equipotential Surfaces
3. Electrical Potential due to Certain Charge Distributions
4. Capacitance
5. Energy Stored in a Capacitor
6. Capacitors in Series and Parallel
7. Dielectrics
1. Current
2. Resistance and Resistivity
3. Physical and Physiological Resistors
4. Direct Current Circuits
5. Resistors in Series and Parallel
6. Power
7. Series RC Circuits
8. Bioelectricity
19 Magnetism
1. Magnetic Force and Magnetic Field
2. Magnetic Force on a Current
3. Magnetic Field and Current –the Biot-Savart Law
4. Magnetic Field and Current–Ampère’s Law
5. Magnetic Force between Current-Carrying Wires
1. Faraday’s Law of Induction
2. Lenz’s Law
3. Applications of Faraday’s and Lenz’s Laws
4. Inductance
5. LC Circuits
6. LR Circuits
1. Alternating Current
2. Transformers
3. The Series LRC Circuit
4. L, R, C Separately With AC
5. L, R, C In Series With AC
6. Applications of a Series LRC Circuit
1. Electromagnetic Waves
2. Maxwell’s Equations
1. Refraction
2. Total Internal Reflection
3. Dispersion
4. Polarization
5. Thin Film Interference
6. Diffraction
7. Circular Apertures
1. Plane Mirrors
2. Spherical Concave Mirrors, a Qualitative Look
3. Spherical Concave Mirrors, a Quantitative Look
4. Spherical Convex Mirrors, a Qualitative Look
5. Spherical Convex Mirrors, a Quantitative Look
6. Lenses, a Qualitative Look
7. Lenses, a Quantitative Look
1. Newtonian Relativity
2. The Michelson and Morley Experiment
3, Special Relativity, Time Dilation
4. The Lorentz Transformation, Length Contraction
5. Lorentz Velocity Transformation
6. Relativistic Momentum and Energy
7. General Relativity
1. Blackbody Radiation
2. Photoelectric Effect
3. Compton Effect
4. Wave Nature of Particles
5. The Atom: Rutherford and Bohr
6. The Atom: Energy Levels and Spectra
1. The Nucleus
2. Binding Energy
3. Fission
4. Fusion
5. Nuclear radiation
1. The Standard Model: Particles
2. The Standard Model: Forces
3. Matter, Antimatter, Dark Matter
Product Updates
University Physics for the Physical and Life Sciences, Volume 1
Authors Philip R. Kesten and David L. Tauck take a fresh and innovative approach to the university physics (calculus-based) course. They combine their experience teaching physics (Kesten) and biology (Tauck) to create a text that engages students by using biological and medical applications and examples to illustrate key concepts.
University Physics for the Physical and Life Sciences teaches the fundamentals of introductory physics, while weaving in formative physiology, biomedical, and life science topics to help students connect physics to living systems. The authors help life science and pre-med students develop a deeper appreciation for why physics is important to their future work and daily lives. With its thorough coverage of concepts and problem-solving strategies, University Physics for the Physical and Life Sciences can also be used as a novel approach to teaching physics to engineers and scientists or for a more rigorous approach to teaching the college physics (algebra-based) course.
• A seamless blend of physics and physiology with interesting examples of physics in students’ lives,
• A strong focus on developing problem-solving skills (Set Up, Solve, and Reflect problem-solving strategy),
• Conceptual questions (Got the Concept) built into the flow of the text,
• “Estimate It!” problems that allow students to practice important estimation skills
• Special attention to common misconceptions that often plague students, and
• Detailed artwork designed to promote visual learning
Looking for instructor resources like Test Banks, Lecture Slides, and Clicker Questions? Request access to Achieve to explore the full suite of instructor resources.
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Are you a campus bookstore looking for ordering information?
MPS Order Search Tool (MOST) is a web-based purchase order tracking program that allows customers to view and track their purchases. No registration or special codes needed! Just enter your BILL-TO ACCT # and your ZIP CODE to track orders.
Canadian Stores: Please use only the first five digits/letters in your zip code on MOST.
Visit MOST, our online ordering system for booksellers: https://tracking.mpsvirginia.com/Login.aspx
Learn more about our Bookstore programs here: https://www.macmillanlearning.com/college/us/contact-us/booksellers
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Our courses currently integrate with Canvas, Blackboard (Learn and Ultra), Brightspace, D2L, and Moodle. Click on the support documentation below to find out more details about the integration with each LMS.
Integrate Macmillan courses with Blackboard
Integrate Macmillan courses with Canvas
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If you’re a verified instructor, you can request a free sample of our courseware, e-book, or print textbook to consider for use in your courses. Only registered and verified instructors can receive free print and digital samples, and they should not be sold to bookstores or book resellers. If you don't yet have an existing account with Macmillan Learning, it can take up to two business days to verify your status as an instructor. You can request a free sample from the right side of this product page by clicking on the "Request Instructor Sample" button or by contacting your rep. Learn more.
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-
Sometimes also referred to as a spiral-bound or binder-ready textbook, loose-leaf textbooks are available to purchase. This three-hole punched, unbound version of the book costs less than a hardcover or paperback book.
-
-
-
We can help! Contact your representative to discuss your specific needs for your course. If our off-the-shelf course materials don’t quite hit the mark, we also offer custom solutions made to fit your needs.
-
University Physics for the Physical and Life Sciences
Authors Philip R. Kesten and David L. Tauck take a fresh and innovative approach to the university physics (calculus-based) course. They combine their experience teaching physics (Kesten) and biology (Tauck) to create a text that engages students by using biological and medical applications and examples to illustrate key concepts.
University Physics for the Physical and Life Sciences teaches the fundamentals of introductory physics, while weaving in formative physiology, biomedical, and life science topics to help students connect physics to living systems. The authors help life science and pre-med students develop a deeper appreciation for why physics is important to their future work and daily lives. With its thorough coverage of concepts and problem-solving strategies, University Physics for the Physical and Life Sciences can also be used as a novel approach to teaching physics to engineers and scientists or for a more rigorous approach to teaching the college physics (algebra-based) course.
• A seamless blend of physics and physiology with interesting examples of physics in students’ lives,
• A strong focus on developing problem-solving skills (Set Up, Solve, and Reflect problem-solving strategy),
• Conceptual questions (Got the Concept) built into the flow of the text,
• “Estimate It!” problems that allow students to practice important estimation skills
• Special attention to common misconceptions that often plague students, and
• Detailed artwork designed to promote visual learning
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