College Physics: Explore and Apply, 3rd edition

Published by Pearson (June 5, 2026) © 2027
  • Eugenia Etkina
  • Gorazd Planinsic
  • Alan Van Heuvelen

Title overview

For courses in introductory algebra-based physics.

Learning physics by doing physics

Physics: Explore and Apply encourages students to participate actively in the learning process and to practice scientific skills such as observing, analyzing and testing through a framework known as the Investigative Science Learning Environment (ISLE). Designed to promote inquiry-based learning, this program facilitates content mastery and enables students to become expert problem solvers who design and evaluate their own experiments, communicate effectively, and most importantly view physics as a process based on evidence.

The 3rd Edition offers a more cohesive, effective, and tangible teaching and learning experience that adapts to all users. Enhancements include new and expanded questions and question types, additional math support and remediation, additional historical context, and much more.

Hallmark features of this title

  • A 4-step problem-solving approach in Worked Examples uses representations to teach students how to solve complex physics problems.
  • Problem-solving Strategy Boxes for broad classes of problems use a unique 2-column layout to pair general steps with a concrete example in applying a structured approach to solving problems.
  • Physics Tool Boxes focus on a particular skill, such as drawing a motion diagram, force diagram, or work-energy bar chart to analyze processes and solve problems that bridge real phenomena and mathematics.
  • A qualitative-first system develops conceptual understanding by introducing concepts in action in the real world, followed by vocabulary and quantitative reasoning.
  • Biological and medical examples provide relevance for life science majors.
  • The Active Learning Guide and Online Active Learning Guide are also available to support in-class group work, experiments, non-traditional physics problems, and real-world applications.

New and updated features of this title

  • Expanded discussion of key concepts includes new definitions and examples of computational components, magnetic force, DC (Data Calibration) circuits, and CO2 vibrations.  
  • 15% of end-of-chapter questions are new, targeting real-world applications and experiences relevant to students’ everyday lives and future careers.  
  • An increase in randomized questions helps to mitigate instructor concern over academic integrity.  
  • New Math in Physics feature provides an intentional focus on the relationship between math and physics, reminding students of key equations and mathematical processes.
  • New Historical Vignettes provide additional information and biographies in every chapter on major historical physics figures, helping students expand their understanding of relevant physics experiments in historical context.  

Key features

Features of Mastering Physics for the 3rd Edition

  • New Experiment videos: Created by the author, new videos throughout engage students in observing and testing experiments in every chapter.
  • Worked Example videos include voiceover descriptions that walk students through the most difficult problems and concepts that appear in the text.  
  • Dynamic Study Modules with math diagnostic and remediation break down concepts with scaffolding, and provide hints and feedback.
  • Interactive Reading Assignments integrate the eText with media, tutorials, multiple question types and more, offering a guided path through core course content in a more modular and interactive format. 

Features of Pearson+ eTextbook for the 3rd Edition

  • Interactive Review Questions help students revisit key concepts and problems from every chapter.
  • Updated Observational Experiment Tables and Testing Experiment Tables: Students must make observations, analyze data, identify patterns, test hypotheses, and predict outcomes.
  • New and modified art, figures, and graphs throughout ensure content is representative of and accessible to more readers.
  • Fully integrated video experience embeds hundreds of videos directly within the eText as students make their way through the content.
  • AI-Powered Study Tool draws from vetted Pearson content to keep students engaged with the materials chosen for the course with instant explanations, on-demand summaries, and additional practice questions.

Table of contents

  1. Introducing Physics
  2. Kinematics: Motion in One Dimension
  3. Newtonian Mechanics
  4. Applying Newton's Laws
  5. Circular Motion
  6. Impulse and Linear Momentum
  7. Work and Energy
  8. Extended Bodies at Rest
  9. Rotational Motion
  10. Vibrational Motion
  11. Mechanical Waves
  12. Gases
  13. Static Fluids
  14. Fluids in Motion
  15. First Law of Thermodynamics
  16. Second Law of Thermodynamics
  17. Electric Charge, Force, and Energy
  18. The Electric Field
  19. DC Circuits
  20. Magnetism
  21. Electromagnetic Induction
  22. Reflection and Refraction
  23. Mirrors and Lenses
  24. Wave Optics
  25. Electromagnetic Waves
  26. Special Relativity
  27. Quantum Optics
  28. Atomic Physics
  29. Nuclear Physics
  30. Composition of the Universe

Author bios

About our authors

Eugenia Etkina is a Distinguished Professor at Rutgers, the State University of New Jersey. She holds a PhD in physics education from Moscow State Pedagogical University and has more than 35 years of experience teaching physics. She is a recipient of 2014 Millikan Medal awarded to educators who made significant contributions to teaching physics, and a fellow of the AAPT. Professor Etkina designed and now coordinates one of the largest programs in physics teacher preparation in the United States, conducts professional development for high school and university physics instructors, and participates in reforms to the undergraduate physics courses. In 1993 she developed a system in which students learn physics using processes that mirror scientific practice. That system, called Investigative Science Learning Environment (ISLE) serves as the basis for this textbook. Since 2000, Professors Etkina has conducted over 100 workshops for physics instructors and co-authored the first edition of College Physics and the Active Learning Guide. Professor Etkina is a dedicated teacher and an active researcher who has published over 60 peer-refereed articles.

Gorazd Planinsic is a Professor of Physics at the University of Ljubljana, Slovenia. He has a PhD in physics from the University of Ljubljana. Since 2000 he has been leading the Physics Education program that prepares almost all high-school physics teachers for the country of Slovenia. He started his career in MRI physics and later switched to Physics Education Research. During the last 10 years, his work has mostly focused on the research of new experiments and how to use them more productively in teaching and learning physics. He is co-founder of the Slovenian hands-on science center House of Experiments. Professor Planinsic is co-author of more than 80 peer-refereed research articles, more than 20 popular science articles, and is the author of a university textbook for future physics teachers. In 2013 he received the Science Communicator of the Year award from the Slovenian Science Foundation.

The late Alan Van Heuvelen held a PhD in physics from the University of Colorado and was a pioneer in physics education research for several decades. He taught physics for 28 years at New Mexico State University, where he developed active learning materials including the Active Learning Problem Sheets (the ALPS Kits) and the ActivPhysics multimedia product. Materials such as these have improved student achievement on standardized qualitative and problem-solving tests. In 1993 he joined Ohio State University to help develop a physics education research group. He moved to Rutgers University in 2000 and retired in 2008. For his contributions to national physics education reform, he won the 1999 AAPT Millikan Medal and was selected a fellow of the American Physical Society. Over the span of his career, he led over 100 workshops on physics education reform. He worked with Professor Etkina in the development of the Investigative Science Learning Environment (ISLE) and co-authored the first edition of College Physics and the Active Learning Guide.

Joshua Rutberg is a physics professor at Rutgers University with a PhD in physics education. Their research explores the professional development of instructors adopting the Investigative Science Learning Environment (ISLE) approach, with a broader focus on evidence-based teaching practices in physics. Joshua began their career as a high school physics teacher in New York City and has since become a leader in educational professional development, facilitating workshops nationwide on active learning strategies, assessment practices, curriculum design, and integrating computation into physics instruction.

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