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AP* Physics 1 Essentials PDF

406 Pages·2015·16.37 MB·English
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AP Physics 1 Essentials * An APlusPhysics Guide 2nd Edition Dan Fullerton Physics Teacher Irondequoit High School Adjunct Professor Microelectronic Engineering Rochester Institute of Technology *AP and Advanced Placement Program are registered trademarks of the College Board, which does not sponsor or endorse this product. Dedication This book is dedicated to the many students and educators who have supported the APlusPhysics site and series of instructional resources. Without your support and encouragement, this project would have dissipated years ago. Thank you. Credits Thanks To: Peter Geschke, Mike Powlin, Tom Schulte, Dolores Gende, Joe Kunz, Laurie Peslak, Mike Dalessandro, Rob Spencer, Karen Finter, Scott Mathieson, Joanne Schwager, Dan Burns, Amy Pezzoni, Bob Enck, Paul Sedita Silly Beagle Productions 656 Maris Run Webster, NY 14580 Internet: www.SillyBeagle.com E-Mail: [email protected] No part of this book may be reproduced in whole or in part by any mechanical, photo- graphic, or electronic process, nor may it be stored in a retrieval system, transmitted, shared, or otherwise copied for public or private use, without the prior written permission of the author. © Copyright 2014 Dan Fullerton [email protected] Cover Design: Interior Illustrations by Dan Fullerton, Jupiterimages and NASA unless otherwise noted All images and illustrations ©2014 Jupiterimages Corporation and Dan Fullerton Edited by Joe Kunz AP, AP Physics 1, Advanced Placement Program, and College Board are registered trademarks of the College Entrance Examination Board, which was not involved in the production of, and does not endorse, this product. Sales and Ordering Information http://www.aplusphysics.com/ap1 [email protected] Volume discounts available. E-book editions available. Printed in the United States of America ISBN: 978-0-9907243-0-8 1 2 3 4 5 6 7 8 9 0 9 8 elcome to AP Physics 1 Essentials - an APlusPhysics Guide. W From mechanics to momentum and sound to circuits, this book is your essential physics resource for use as a standalone guide, a companion to classroom text, or as a review book for your AP Physics 1 course. What sets this book apart from other review books? 1. It reviews the essential concepts and understand- ings required for success in AP Physics 1, and is written specifically to prepare students for optimal performance on the AP Physics 1 Exam. 2. It includes more than 500 sample questions with full solutions, integrated into the chapters immediately following the material being covered, so you can test your understanding. You’ll also find tons of AP-style problems at the end of the book. 3. It is supplemented by the free APlusPhysics.com web- site, which includes: a. Videos and tutorials on key physics concepts b. Interactive practice quizzes c. Discussion and homework help forums supported by the author and fellow readers d. Student blogs to share challenges, successes, hints and tricks e. Projects and activities designed to improve your un- derstanding of essential physics concepts in a fun and engaging manner f. Latest and greatest physics news Just remember, physics is fun! It’s an exciting course, and with a little preparation and this book, you can transform your quest for essential physics comprehension from a stressful chore into an enjoyable and, yes, FUN, opportunity for success. How to Use This Book This book is arranged by topic, with sample problems and solutions inte- grated right in the text. Actively explore each chapter. Cover up the in- text solutions with an index card, get out a pencil, and try to solve the sample problems yourself as you go, before looking at the answer. If you’re stuck, don’t stress! Post your problem on the APlusPhysics website (http://aplusphysics.com) and get help from other students, teachers, and subject matter experts (including the author of this book!). Once you feel confident with the subject matter, test yourself and see how you perform. Re- view areas of difficulty, then try again and watch your understanding improve! * There are a number of topics presented in this book which are typically included in an introductory physics course but are not specifically tested on the AP Physics 1 Exam. These topics are marked with an asterisk to allow those focused solely on preparing for the AP Physics 1 Exam to bypass them in favor of topics that they know will be tested. Table of Contents Chapter 1: Introduction 1 What is Physics? 2 Matter, Systems, and Mass 2 Energy 3 Mass – Energy Equivalence 4 Scope of AP Physics 1 4 Chapter 2: Math Review 7 Significant Figures 8 Scientific Notation 9 Metric System 10 Accuracy and Precision 13 Algebra and Trigonometry 13 Vectors and Scalars 15 Components of Vectors 16 The Equilibrant Vector 21 Chapter 3: Kinematics 23 Position, Distance, and Displacement 25 Speed and Velocity 27 Acceleration 31 Particle Diagrams 33 Position-Time (x-t) Graphs 34 Velocity-Time (v-t) Graphs 36 Graph Transformations 37 Acceleration-Time (a-t) Graphs 40 Kinematic Equations 43 Free Fall 48 Projectile Motion 56 Angled Projectiles 59 Relative Velocity 64 Center of Mass 68 Test Your Understanding 70 Chapter 4: Dynamics 71 Newton’s 1st Law of Motion 72 Free Body Diagrams 74 Newton’s 2nd Law of Motion 76 Newton’s 3rd Law 84 Friction 86 Air Resistance 93 Elevators 94 Ramps and Inclines 95 Atwood Machines 100 Test Your Understanding 104 Chapter 5: Work, Power & Energy 105 Work 106 Power 112 Energy 116 Gravitational Potential Energy 117 Springs and Hooke’s Law 120 Work-Energy Theorem 125 Conservation of Energy 128 Sources of Energy on Earth 137 Test Your Understanding 138 Chapter 6: Linear Momentum 139 Defining Momentum 140 Impulse 142 Impulse-Momentum Theorem 143 Non-Constant Forces 146 Conservation of Linear Momentum 148 Types of Collisions 157 Collisions in 2 Dimensions 160 Test Your Understanding 162 Chapter 7: Circular Motion & Rotation 163 Uniform Circular Motion 164 Circular Speed 167 Centripetal Force 168 Frequency and Period 171 Vertical Circular Motion 172 Rotational Kinematics 176 Torque 185 Moment of Inertia 188 Newton’s 2nd Law for Rotation 190 Angular Momentum 193 Rotational Kinetic Energy 196 Test Your Understanding 200 Chapter 8: Gravity 201 Universal Gravitation 202 Gravitational Fields 205 Gravitational Potential Energy 209 Orbits 211 Kepler’s Laws of Planetary Motion* 215 Test Your Understanding 220 Chapter 9: Oscillations 221 Simple Harmonic Motion 222 Horizontal Spring-Block Oscillators 224 Spring Combinations* 228 Vertical Spring-Block Oscillators 229 Ideal Pendulums 231 Test Your Understanding 235 Chapter 10: Mechanical Waves 237 Wave Characteristics 238 The Wave Equation 244 Sound Waves 247 Interference 250 Beats 253 Standing Waves 255 Standing Waves in Instruments 258 Doppler Effect 261 Test Your Understanding 264 Chapter 11: Electrostatics 265 Electric Charges 266 The Standard Model 268 Conductors and Insulators 271 Charging by Conduction* 272 Charging by Induction* 273 Coulomb’s Law 275 Electric Fields* 278 Electric Potential Difference* 284 Parallel Plates* 286 Capacitors* 288 Equipotential Lines* 290 Test Your Understanding 290 Chapter 12: Current Electricity 291 Electric Current 292 Resistance 294 Ohm’s Law 296 Electrical Circuits 299 Energy & Power 300 Voltmeters 302 Ammeters 302 Series Circuits 304 Parallel Circuits 310 Combination Series-Parallel Circuits 317 Test Your Understanding 320 Appendix A: AP-Style Problems 321 Kinematics 321 Dynamics 328 Work, Power & Energy 341 Linear Momentum 347 Circular Motion & Rotation 354 Gravity 366 Oscillations 372 Mechanical Waves 381 Electricity 387 Index 395 Chapter 1: Introduction “There is a theory which states that if ever anybody discovers exactly what the Universe is for and why it is here, it will instantly disappear and be replaced by something even more bizarre and inexplicable. There is another theory which states that this has already happened.” — Douglas Adams Objectives Explore the scope of AP Physics 1 and review prerequisite skills for success. 1. Recognize the questions of physics. 2. List several disciplines within the study of physics. 3. Describe the key topics covered in AP Physics 1. 4. Define matter, mass, work and energy. 5. Explain how systems are comprised of constituent substructures. 6. Recognize when a system may be treated as an object. Chapter 1: Introduction 1 What is Physics? Physics is many things to many different people. If you look up physics in the dictionary, you’ll probably learn physics has to do with matter, energy, and their interactions. But what does that really mean? What is matter? What is energy? How do they interact? And most importantly, why do we care? Physics, in many ways, is the answer to the favorite question of most 2-year- olds: “Why?” What comes after the why really doesn’t matter. If it’s a “why” question, chances are it’s answered by physics: Why is the sky blue? Why does the wind blow? Why do we fall down? Why does my teacher smell funny? Why do airplanes fly? Why do the stars shine? Why do I have to eat my vegetables? The answer to all these questions, and many more, ul- timately reside in the realm of physics. Matter, Systems, and Mass If physics is the study of matter, then we probably ought to define matter. Matter, in scientific terms, is anything that has mass and takes up space. In short, then, matter is anything you can touch – from objects smaller than electrons to stars hundreds of times larger than the sun. From this per- spective, physics is the mother of all science. From astronomy to zoology, all other branches of science are subsets of physics, or specializations inside the larger discipline of physics. In physics, you’ll often times talk about systems as collections of smaller constituent substructures such as atoms and molecules. The properties and interactions of these substructures determine the properties of the system. In many cases, when the properties of the constituent substructures are not important in understanding the behavior of the system as a whole, the system is referred to as an object. For example, a baseball is comprised of many atoms and molecules which determine its properties. For the purpose of analyzing the path of a thrown ball in the air, however, the makeup of its constituent substructures is not important; therefore, we treat the ball as a single object. So then, what is mass? Mass is, in simple terms, the amount of “stuff” an object is made up of. But of course, there’s more to the story. Mass is split into two types: inertial mass and gravitational mass. Inertial mass is an object’s resistance to being accelerated by a force. More massive objects accelerate less than smaller objects given an identical force. Gravitational mass, on the other hand, relates to the amount of gravitational force expe- rienced by an object. Objects with larger gravitational mass experience a larger gravitational force. Confusing? Don’t worry! As it turns out, in all practicality, inertial mass and gravitational mass have always been equal for any object measured, even if it’s not immediately obvious why this is the case (although with an advanced study of Einstein’s Theory of General Relativity you can predict this outcome). 2 Chapter 1: Introduction

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