Physics for Scientists and Engineers: A Strategic Approach with Modern Physics, Global Edition, 4th edition
Published by Pearson (October 24, 2016) © 2017
- Randall D Knight California Polytechnic State University-San Luis Obispo
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For courses in introductory calculus-based physics.
A research-driven approach, fine-tuned for even greater ease-of-use and student success
For the Fourth Edition of Physics for Scientists and Engineers, Knight continues to build on strong research-based foundations with fine-tuned and streamlined content, hallmark features, and an even more robust MasteringPhysics program, taking student learning to a new level. By extending problem-solving guidance to include a greater emphasis on modeling and significantly revised and more challenging problem sets, students gain confidence and skills in problem solving. A modified Table of Contents and the addition of advanced topics now accommodate different teaching preferences and course structures.
MasteringPhysicsTM not included. Students, if MasteringPhysics is a recommended/mandatory component of the course, please ask your instructor for the correct ISBN and course ID. MasteringPhysics should only be purchased when required by an instructor. Instructors, contact your Pearson representative for more information.
MasteringPhysics from Pearson is the leading online homework, tutorial, and assessment system, designed to improve results by engaging students before, during, and after class with powerful content. Instructors ensure students arrive ready to learn by assigning educationally effective content before class, and encourage critical thinking and retention with in-class resources such as Learning Catalytics.
This title is a Pearson Global Edition. The Editorial team at Pearson has worked closely with educators around the world to include content which is especially relevant to students outside the United States.
Gives instructors greater choice and flexibility
- NEW! Chapter ordering changes allow instructors to more easily organize content as needed to accommodate labs, schedules, and different teaching styles.Work and energy are now covered before momentum, oscillations are grouped with mechanical waves, and optics appears after electricity and magnetism.
- NEW! Addition of advanced topics as optional sections further expands instructors’ options. Topics include rocket propulsion, gyroscopes and precession, the wave equation (including for electromagnetic waves), the speed of sound in gases, and more details on the interference of light.
Builds problem-solving skills and confidence, using an explicit, methodical, and consistent approach.
- NEW! Model boxes enhance the text’s emphasis on modeling—analyzing a complex, real-world situation in terms of simple but reasonable idealizations that can be applied over and over in solving problems. These fundamental simplifications are developed in the text and then deployed more explicitly in the worked examples, helping students to recognize when and how to use recurring models (such as motion with constant acceleration or the photon model of light).
- A consistent 4-step approach provides a problem-solving framework throughout the book (and all supplements): students learn the importance of making assumptions (in the MODEL step) and gathering information and making sketches (in the VISUALIZE step) before treating the problem mathematically (SOLVE) and then analyzing their results (ASSESS).
- Detailed problem-solving strategies for different topics and categories of problems (circular-motion problems, calorimetry problems, etc.) are developed throughout the book, each one built on the above 4-step framework.
- Tactics Boxes give step-by-step procedures for developing specific skills (drawing free-body diagrams, using ray tracing, etc.).
- Worked examples follow the 4-step strategy and include careful explanations of the underlying, and often unstated, reasoning.
- The Student Workbook provides straightforward confidence- and skill-building exercises, bridging the gap between worked examples and end-of-chapter problems. Worksheets following the MODEL/VISUALIZE/SOLVE/ASSESS framework provide tear-out templates for students to follow when practicing solving dynamics, energy, and momentum problems.
Promotes a deeper and better-connected understanding, using a structured learning path and an inductive approach with exceptional clarity.
- REVISED! Enhanced Chapter Previews have been reconceived to address the questions students are most likely to ask themselves while studying the material for the first time. Questions cover the important ideas, and provide a big-picture overview of the chapter’s key principles.
- NEW! Looking Back Pointers enable students to look back at a previous chapter when it’s important to review concepts. Pointers provide the specific section to consult at the exact point in the text where they need to use this material.
- UPDATED! Focused Part Overviews and Knowledge Structures consolidate understanding of groups of chapters and give a tighter structure to the book as a whole. Reworked Part Overviews and Knowledge Structures (one per page) provide more targeted detail on overarching themes.
- Unique and critically acclaimed visual chapter summaries consolidate understanding by providing each concept in words, math, a
Gives instructors greater choice and flexibility
- Chapter ordering changes allow instructors to more easily organize content as needed to accommodate labs, schedules, and different teaching styles. Work and energy are now covered before momentum, oscillations are grouped with mechanical waves, and optics appears after electricity and magnetism.
- Addition of advanced topics as optional sections further expands instructors’ options. Topics include rocket propulsion, gyroscopes and precession, the wave equation (including for electromagnetic waves), the speed of sound in gases, and more details on the interference of light.
Builds problem-solving skills and confidence, using an explicit, methodical, and consistent approach.
- Model boxes enhance the text’s emphasis on modeling—analyzing a complex, real-world situation in terms of simple but reasonable idealizations that can be applied over and over in solving problems. These fundamental simplifications are developed in the text and then deployed more explicitly in the worked examples, helping students to recognize when and how to use recurring models (such as motion with constant acceleration or the photon model of light).
Promotes a deeper and better-connected understanding, using a structured learning path and an inductive approach with exceptional clarity. Â Â
- REVISED! Enhanced Chapter Previews have been reconceived to address the questions students are most likely to ask themselves while studying the material for the first time. Questions cover the important ideas, and provide a big-picture overview of the chapter’s key principles.
- Looking Back Pointers enable students to look back at a previous chapter when it’s important to review concepts. Pointers provide the specific section to consult at the exact point in the text where they need to use this material.
- UPDATED! Focused Part Overviews and Knowledge Structures consolidate understanding of groups of chapters and give a tighter structure to the book as a whole. Reworked Part Overviews and Knowledge Structures (one per page) provide more targeted detail on overarching themes.
- Unique and critically acclaimed visual chapter summaries consolidate understanding by providing each concept in words, math, and figures and organizing these into a vertical hierarchy—from General Principles (top) to Applications (bottom).
Pioneers the implementation of proven visual techniques that cognitive science has shown significantly increase engagement, assimilation, and retention of science concepts.
- UPDATED! Visual program has been enhanced with over 500 pieces of revised art that increase the focus on key ideas, eliminating extraneous detail, information, and color. A hallmark of Knight since the beginning, figures are streamlined to focus on the physics by, for example, using the same color for the object of interest in mechanics, or by using the same color for force throughout the text.
Draws on nationwide student metadata to optimize assessment and practice material. Analysis of national student metadata (including time spent, most common wrong answers, and comment rate) has allowed every problem to be enhanced for educational effectiveness and accurately calibrated in difficulty (in the book) and duration (in MasteringPhysics®). Similar analysis has allowed problem sets in every chapter to be revised to ensure ideal topic coverage, balance of qualitative and quantitative problems, and range of difficulty and duration.
Significantly revised end-of-chapter problem sets include more challenging problems that will expand the range of physics and math skills students will use to
I. Newton’s Laws
1. Concepts of Motion
2. Kinematics in One Dimension
3. Vectors and Coordinate Systems
4. Kinematics in Two Dimensions
5. Force and Motion
6. Dynamics I: Motion Along a Line
7. Newton’s Third Law
8. Dynamics II: Motion in a Plane
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II. Conservation Laws
9. Work and Kinetic Energy
10. Interactions and Potential Energy
11. Impulse and Momentum
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III. Applications of Newtonian Mechanics
12. Rotation of a Rigid Body
13. Newton’s Theory of Gravity
14. Fluids and Elasticity
IV. Oscillations and Waves
15. Oscillations
16. Traveling Waves
17. Superposition
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V. Thermodynamics
18. A Macroscopic Description of Matter
19. Work, Heat, and the First Law of Thermodynamics
20. The Micro/Macro Connection
21. Heat Engines and Refrigerators
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VI. Electricity and Magnetism
22. Electric Charges and Forces
23. The Electric Field
24. Gauss’s Law
25. The Electric Potential
26. Potential and Field
27. Current and Resistance
28. Fundamentals of Circuits
29. The Magnetic Field
30. Electromagnetic Induction
31. Electromagnetic Fields and Waves
32. AC Circuits
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VII. Optics
33. Wave Optics
34. Ray Optics
35. Optical Instruments
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VIII. Relativity and Quantum Physics
36. Relativity
37. The Foundations of Modern Physics
38. Quantization
39. Wave Functions and Uncertainty
40. One-Dimensional Quantum Mechanics
41. Atomic Physics
42. Nuclear Physics
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