Skip to main content
Back to top
Ctrl
+
K
1. Introduction
1.2. About this book
1.3. To the Reader
1.4. What is Engineering?
1.5. Engineering Disciplines
1.6. Engineering Careers
1.7. Engineering Tools
1.8. Engineering Education
1.9. The FE and PE Exams
1.10. Summary
1.11. Exersizes
2. Units
2.2. Units and Dimensions
2.3. Dimensional Analysis
2.4. Unit Conversion
2.5. Significant Figures
2.6. Scientific Notation
2.7. Engineering Notation
2.8. Summary
2.9. Exersizes
3. Statistics
3.2. What is Statistics?
3.3. Why Statistics for Engineers?
3.4. Discrete and Continuous Measurements
3.5. Samples and Populations
3.6. Measures of Central Tendency
3.7. Measures of Variation
3.8. Histograms
3.9. Gaussian Distribution
3.10. Exersizes
4. Circuits
4.2. Electricity Basics
4.3. Ohm’s Law
4.4. Combining Resistors
4.5. Circuit Schematics
4.6. Power
4.7. Kirchhoff’s Laws
4.8. Exersizes
5. Vectors
5.2. Vectors and Scalars
5.3. Vector Notation
5.4. Vector Addition and Multiplication
5.5. Unit Vectors
5.6. Vector Magnitude
5.7. 2D Vectors
5.8. 3D Vectors
5.9. Dot Product
5.10. Cross Product
5.11. Exersizes
6. Statics
6.2. What is Statics?
6.3. Free Bodies
6.4. Forces
6.5. Laws of Motion
6.6. Free Body Diagrams
6.7. Static Equilibrium
6.8. 2D Static Analysis
6.9. Exersizes
7. Strengths
7.2. What is Strengths?
7.3. Internal Forces
7.4. Stress and Strain
7.5. Elastic Deformation
7.6. Stress Strain Curves
7.7. Safety Factor
7.8. Exersizes
8. Sustainability
8.2. Why Sustainability?
8.3. What is Sustainability?
8.4. Analyzing Sustainability
8.5. Where do we go from here?
8.6. Summary
8.7. Exersizes
9. Appendix
9.2. Unit Converions
9.3. Z-Score Chart
9.4. Glossary of Symbols
9.5. Equations
9.6. Fundamental Constants
9.7. References
.md
.pdf
Summary
2.8.
Summary
#
