University Physics
Inspired by OpenStax University Physics
Authors: David Marx, PhD , Matt Kholmyer…
Table of Contents with Sample Chapters
| 1: Measurement and Problem Solving |
| Introduction |
| 1.1 Science: Advancing Human Knowledge |
| 1.2 Units and Standards |
| 1.3 Unit Conversion |
| 1.4 Solving Problems in Physics |
| 1.5 Uncertainty and Significant Figures |
| 1.6 Estimates and Fermi Calculations |
| 1.7 Dimensional Analysis |
| 2: Vectors |
| Introduction (Sample Section) |
| 2.1 Scalar Quantities and Vector Quantities (Sample Section) |
| 2.2 Coordinate Systems and Vector Components (Sample Section) |
| 2.3 Vector Addition and Subtraction (Sample Section) |
| 2.4 Vector Multiplication (Sample Section) |
| Chapter Summary (Sample Section) |
| 3: Motion Along a Straight Line |
| Introduction (Sample Section) |
| 3.1 Position, Displacement, and Distance (Sample Section) |
| 3.2 Velocity and Speed (Sample Section) |
| 3.3 Acceleration (Sample Section) |
| 3.4 Motion with Constant Acceleration (Sample Section) |
| 3.5 Free Fall Model (Sample Section) |
| 3.6 Finding Velocity and Displacement from Acceleration (Sample Section) |
| Chapter Summary (Sample Section) |
| 4: Motion in Two and Three Dimensions |
| Introduction (Sample Section) |
| 4.1 Displacement and Velocity (Sample Section) |
| 4.2 Acceleration (Sample Section) |
| 4.3 Projectile Motion (Sample Section) |
| 4.4 Circular Motion (Sample Section) |
| 4.5 Relative Motion (Sample Section) |
| Chapter Summary (Sample Section) |
| 5: Newton’s Laws of Motion |
| Introduction (Sample Section) |
| 5.1 Forces (Sample Section) |
| 5.2 Newton’s First Law of Motion (Sample Section) |
| 5.3 Newton’s Second Law of Motion (Sample Section) |
| 5.4 Mass and Weight (Sample Section) |
| 5.5 Common Forces (Sample Section) |
| 5.6 Newton’s Third Law of Motion (Sample Section) |
| Chapter Summary (Sample Section) |
| 6: Applications of Newton’s Laws |
| Introduction |
| 6.1 Problem Solving using Newton’s Laws |
| 6.2 Friction |
| 6.3 Drag Forces |
| 6.4 Centripetal Forces |
| Chapter Summary |
| 7: Work and Kinetic Energy |
| Introduction |
| 7.1 Kinetic Energy |
| 7.2 Work |
| 7.3 The Work-Energy Theorem and Kinetic Energy |
| 7.4 Power |
| Chapter Summery |
| 8: Potential Energy and Conservation of Energy |
| Introduction |
| 8.1 Potential Energy of a System |
| 8.2 Conservative and Nonconservative Forces |
| 8.3 Conservation of Energy |
| 8.4 Potential Energy Diagrams and Stability |
| 8.5 Sources of Energy |
| Chapter Summery |
| 9: Linear Momentum and Collisions |
| Introduction |
| 9.1 Linear Momentum |
| 9.2 Impulse |
| 9.3 Conservation of Linear Momentum |
| 9.4 Momentum Conservation Applications in One Dimension |
| 9.5 Momentum Conservation Applications in Multiple Dimensions |
| 9.6 Center of Mass |
| 9.7 Rocket Propulsion |
| Chapter Summary |
| 10: Fixed-Axis Rotation |
| Introduction |
| 10.1 Rotational Variables |
| 10.2 Rotation with Constant Angular Acceleration |
| 10.3 Relating Angular and Tangential Variables |
| 10.4 Moments of Inertia |
| 10.5 Rotational Kinetic Energy |
| 10.6 Torque |
| 10.7 Rotational Analog of Newton’s Second Law |
| 10.8 Work and Power in Rotational Motion |
| Chapter Summary |
| 11: Angular Momentum |
| Introduction |
| 11.1 Angular Momentum of a Particle |
| 11.2 Angular Momentum of Systems of Particles |
| 12: Static Equilibrium and Elasticity |
| Introduction |
| 12.1 Conditions for Equilibrium |
| 12.2 Equilibrium Applications |
| 12.3 Stress and Strain |
| 12.4 Elasticity & Plasticity |
| Chapter Summary |
| 13: Gravitation |
| Introduction |
| 13.1 Newton’s Law of Universal Gravitation |
| 13.2 Gravitation Near the Surface of Earth |
| 13.3 Gravitation Potential Energy Revisited |
| 13.4 Satellites |
| 13.5 Kepler’s Law of Planetary Motion |
| 13.6 Tidal Forces |
| 13.7 Einstein’s Theory of Gravity |
| Chapter Summary |
| 14: Fluids |
| Introduction |
| 14.1 Density and Pressure |
| 14.2 Pressure Measurements |
| 14.3 Pascal’s Principle |
| 14.4 Archimedes’ Principle |
| 14.5 Fluid Dynamics |
| 14.6 Bernoulli’s Equation |
| 14.7 Viscosity and Turbulence |
| Chapter Summary |
