Essential University Physics, Volume 1, Global Edition, Pearson eText -- SMS Setup Record

<p>Volume 1 contains Chapters 1—19</p> <p>Volume 2 contains Chapters 20—39</p> <p>&nbsp;</p> <p>1 Doing Physics  </p> <p>1.1 &nbsp;&nbsp; Realms of Physics  </p> <p>1.2 &nbsp;&nbsp; Measurements and Units  </p> <p>1.3 &nbsp;&nbsp; Working with Numbers  </p> <p>1.4 &nbsp;&nbsp; Strategies for Learning Physics  </p> <p>Part One</p> <p>Mechanics  </p> <p>2 Motion in a Straight Line  </p> <p>2.1 &nbsp;&nbsp; Average Motion  </p> <p>2.2 &nbsp;&nbsp; Instantaneous Velocity  </p> <p>2.3 &nbsp;&nbsp; Acceleration  </p> <p>2.4 &nbsp;&nbsp; Constant Acceleration  </p> <p>2.5 &nbsp;&nbsp; The Acceleration of Gravity  </p> <p>2.6 &nbsp;&nbsp; When Acceleration Isn’t Constant  </p> <p>Chapter 3 Motion in Two and Three Dimensions  </p> <p>3.1 &nbsp;&nbsp; Vectors  </p> <p>3.2 &nbsp;&nbsp; Velocity and Acceleration Vectors  </p> <p>3.3 &nbsp;&nbsp; Relative Motion  </p> <p>3.4 &nbsp;&nbsp; Constant Acceleration  </p> <p>3.5 &nbsp;&nbsp; Projectile Motion  </p> <p>3.6 &nbsp;&nbsp; Uniform Circular Motion  </p> <p>4 Force and Motion  </p> <p>4.1 &nbsp;&nbsp; The Wrong Question  </p> <p>4.2 &nbsp;&nbsp; Newton’s First and Second Laws  </p> <p>4.3 &nbsp;&nbsp; Forces  </p> <p>4.4 &nbsp;&nbsp; The Force of Gravity  </p> <p>4.5 &nbsp;&nbsp; Using Newton’s Second Law  </p> <p>4.6 &nbsp;&nbsp; Newton’s Third Law  </p> <p>5 Using Newton’s Laws  </p> <p>5.1 &nbsp;&nbsp; Using Newton’s Second Law  </p> <p>5.2 &nbsp;&nbsp; Multiple Objects  </p> <p>5.3 &nbsp;&nbsp; Circular Motion  </p> <p>5.4 &nbsp;&nbsp; Friction  </p> <p>5.5 &nbsp;&nbsp; Drag Forces  </p> <p>6 Energy, Work, and Power  </p> <p>6.1 &nbsp;&nbsp; Energy  </p> <p>6.2 &nbsp;&nbsp; Work  </p> <p>6.3 &nbsp;&nbsp; Forces That Vary  </p> <p>6.4 &nbsp;&nbsp; Kinetic Energy  </p> <p>6.5 &nbsp;&nbsp; Power  </p> <p>7 Conservation of Energy  </p> <p>7.1 &nbsp;&nbsp; Conservative and Nonconservative Forces  </p> <p>7.2 &nbsp;&nbsp; Potential Energy  </p> <p>7.3 &nbsp;&nbsp; Conservation of Mechanical Energy  </p> <p>7.4 &nbsp;&nbsp; Nonconservative Forces  </p> <p>7.5 &nbsp;&nbsp; Conservation of Energy  </p> <p>7.6 &nbsp;&nbsp; Potential-Energy Curves  </p> <p>8 Gravity  </p> <p>8.1 &nbsp;&nbsp; Toward a Law of Gravity  </p> <p>8.2 &nbsp;&nbsp; Universal Gravitation  </p> <p>8.3 &nbsp;&nbsp; Orbital Motion  </p> <p>8.4 &nbsp;&nbsp; Gravitational Energy  </p> <p>8.5 &nbsp;&nbsp; The Gravitational Field  </p> <p>9 Systems of Particles  </p> <p>9.1 &nbsp;&nbsp; Center of Mass  </p> <p>9.2 &nbsp;&nbsp; Momentum  </p> <p>9.3 &nbsp;&nbsp; Kinetic Energy of a System  </p> <p>9.4 &nbsp;&nbsp; Collisions  </p> <p>9.5 &nbsp;&nbsp; Totally Inelastic Collisions  </p> <p>9.6 &nbsp;&nbsp; Elastic Collisions  </p> <p>10 Rotational Motion  </p> <p>10.1 Angular Velocity and Acceleration  </p> <p>10.2 Torque  </p> <p>10.3 Rotational Inertia and the Analog of Newton’s Law  </p> <p>10.4 Rotational Energy  </p> <p>10.5 Rolling Motion  </p> <p>11 Rotational Vectors and Angular Momentum  </p> <p>11.1 Angular Velocity and Acceleration Vectors  </p> <p>11.2 Torque and the Vector Cross Product  </p> <p>11.3 Angular Momentum  </p> <p>11.4 Conservation of Angular Mom</p>