University Physics with Modern Physics 15th Edition PDF

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The 13th Edition of the university physics with modern physics helps launch you to success in physics through its clear and research-based problem-solving approach. In this edition, Worked example “Key Concept” statements appear at the end of every example and conceptual example. This edition will also reinforce your problem-solving skills with enhanced End-of-Chapter problem sets. University Physics with Modern Physics 15th Edition PDF book is the best physics book to help you understand physics.

University Physics 15th Edition PDF Book Details

• Title: Sears and Zemansky’s University Physics with Modern Physics 15 Edition
• Author(s): Hugh D. Young, Roger A. Freedman, A. Lewis Ford
• Publisher: Pearson Education
• Year: 2019
• ISBN: 9780136874331,9780135646632, 9780135159705, 9780135216118
• Formats: PDF
• No. of pages:
• Size: 62 MB (65530283 B)
• File Status: Available for Download
• Price: Free

University Physics 15th Edition PDF Book Description

For courses in calculus-based physics.

Practice makes perfect: Guided practice helps students develop into expert problem solvers

Practice makes perfect. The new 15th Edition of University Physics with Modern Physics draws on a wealth of data insights from hundreds of faculty and thousands of student users to address one of the biggest challenges for students in introductory physics courses: seeing patterns and making connections between problem types. Students learn to recognize when to use similar steps in solving the same problem type and develop an understanding for problem solving approaches, rather than simply plugging in an equation.

This new edition addresses students’ tendency to focus on the objects, situations, numbers, and questions posed in a problem, rather than recognizing the underlying principle or the problem’s type. New Key Concept statements at the end of worked examples address this challenge by identifying the main idea used in the solution to help students recognize the underlying concepts and strategy for the given problem. New Key Example Variation Problems appear within new Guided Practice sections and group problems by type to give students practice recognizing when problems can be solved in a similar way, regardless of wording or numbers. These scaffolded problem sets help students see patterns, make connections between problems, and build confidence for tackling different problem types when exam time comes.

The fully integrated problem-solving approach in Mastering Physics gives students instructional support and just-in-time remediation as they work through problems, and links all end-of-chapter problems directly to the eText for additional guidance.

New to This Edition

Give students the problem-solving tools they want, based on input from thousands of students

• Key Example Variation Problems in the new Guided Practice section at end of each chapter are based on selected worked examples. They build in difficulty by changing scenarios, swapping the knowns vs. unknowns, and adding complexity and/or steps of reasoning to provide the most helpful range of related problems that use the same basic approach to solve. These scaffolded problem sets help students see patterns and make connections between problems that can be solved using the same underlying principles and strategies so that they are more able to tackle different problem types when exam time comes. Assignable in Mastering Physics.
• Worked example “Key Concept” statements appear at the end of every example and conceptual example, providing a brief summary of the key idea used in the solution to consolidate what was most important and what can be broadly applied to other problems.
• Reinforce problem-solving skills with enhanced End-of-Chapter problem sets
• Expanded – Challenge problems significantly stretch students by requiring sophisticated reasoning that often involves multiple steps or concepts and/or mathematical skills. They are the most difficult problems in each chapter and often involve calculus, multiple steps that lead students through a complex analysis, and/or the exploration of a topic or application not explicitly covered in the chapter.
• Estimation problems help students learn to analyze problem scenarios, assess data, and work with orders of magnitude. By requiring students to not only estimate some of the data in the problem but also decide what data needs to be estimated based on real-world experience, reasoning, assumptions and/or modeling, this problem type engages students to more thoroughly explore the situation.
• Expanded – Cumulative problems promote more advanced problem-solving techniques by requiring knowledge and skills covered in previous chapters to be integrated with understanding and skills from the current chapter.
• Build conceptual understanding
• Expanded – Caution paragraphs focus on typical misconceptions and student problem areas. Over a dozen more have been added based on common errors made in Mastering Physics.

Reach every student with Mastering

• Alternate problem sets provide additional problem-solving practice and offer instructors more options when creating assignments with hundreds of new questions and problems plus new end-of-chapter problems.
• Direct Measurement Videos are short videos that show real situations of physical phenomena. Grids, rulers, and frame counters appear as overlays, helping students to make precise measurements of quantities such as position and time. Students then apply these quantities along with physics concepts to solve problems and answer questions about the motion of the objects in the video. The problems are assignable in Mastering and can be used to replace or supplement traditional word problems, and they can serve as open-ended questions to help develop problem-solving skills.
• Enhanced End-of-Chapter Questions provide expanded remediation built into each question when and where students need it. Remediation includes scaffolded support, links to hints, links to appropriate sections of the eText, links from the eText to Mastering Physics, Video Tutor Solutions, math remediation, and wrong-answer feedback for homework assignments.
• Key Example Variation Problems build in difficulty by changing scenarios, swapping the knowns vs. unknowns, and adding complexity and/or steps of reasoning to provide the most helpful range of related problems that use the same basic approach to find their solutions. Assignable in Mastering Physics.
• Bridging Problems, now assignable in Mastering Physics. Bridging Problems follow the Key Example Variation Problems in the Guided Practice section of the text and help students move from single-concept worked examples to multi-concept homework problems.

University Physics with Modern Physics 15th Edition PDF Book Table of Contents

MECHANICS

1. Units, Physical Quantities, and Vectors
2. Motion Along a Straight Line
3. Motion in Two or Three Dimensions
4. Newton’s Laws of Motion
5. Applying Newton’s Laws
6. Work and Kinetic Energy
7. Potential Energy and Energy Conservation
8. Momentum, Impulse, and Collisions
9. Rotation of Rigid Bodies
10. Dynamics of Rotational Motion
11. Equilibrium and Elasticity
12. Fluid Mechanics
13. Gravitation
14. Periodic Motion

WAVES/ACOUSTICS

15. Mechanical Waves
16. Sound and Hearing

THERMODYNAMICS

17. Temperature and Heat
18. Thermal Properties of Matter
19. The First Law of Thermodynamics
20. The Second Law of Thermodynamics

ELECTROMAGNETISM

21. Electric Charge and Electric Field
22. Gauss’s Law
23. Electric Potential
24. Capacitance and Dielectrics
25. Current, Resistance, and Electromotive Force
26. Direct-Current Circuits
27. Magnetic Field and Magnetic Forces
28. Sources of Magnetic Field
29. Electromagnetic Induction
30. Inductance
31. Alternating Current
32. Electromagnetic Waves

OPTICS

33. The Nature and Propagation of Light
34. Geometric Optics
35. Interference
36. Diffraction

MODERN PHYSICS

37. Relativity
38. Photons: Light Waves Behaving as Particles
39. Particles Behaving as Waves
40. Quantum Mechanics I: Wave Functions
41. Quantum Mechanics II: Atomic Structure
42. Molecules and Condensed Matter
43. Nuclear Physics
44. Particle Physics and Cosmology

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