Principles of statics, analysis of structures, and friction as applied to the incline plane and wedge. Simple direct and compound stresses, determination of structural sizes as a function of unit stress, and physical properties of the materials. Lecture 3 hours. Prerequisite: MATH 1613 or equivalent or concurrent enrollment.

Grading and Attendance Policy

Textbook Website

Assigned Problems

Engineering Paper

Problem 11.10 Excel file

**Helpful Links**

Bridge Designer

Statics/Mechanics E-courses

Shear and Moment Diagrams

Solving Simultaneous Equations with TI Calculators

**Chapter 17 Problems**

Problem 2 - Critical Load on Column

**Chapter 13 Problems**

Problem 2 - Shear/Moment Diagram

Problem 18/43 - Shear/Moment Diagram

**Chapter 10 Problems**

Problem 4 Long (130 MB) - Internal Reactions

Problem 20 - Stress of Bar

Problem 36 - Find diameter of bar

**Chapter 9 Problems**

Centroid and Moment of Inertia Calculator

Animation on Moment of Inertia and Polar Moment of Inertia

Problem 8 - Centroid (Simple)

Problem 12 - Centroid (Complex - Subtract area)

Problem 22 - Centroid of Angles and Plates

Problem 30 - Moment of Inertia (Simple)

Problem 36 - Moment of Inertia (Complex) - Large File 180 MB

Problem 58 - Moment of Inertia (S - Beams) - Large File 180 MB

Problem 68 - Polar Moment of Inertia

**Chapter 6 Problems**

Problem 2 - Method of Joints

Problem 4 - Method of Joints

Problem 26 - Zero Force Members

Problem 28 Short - Method of Sections

Problem 28 Long (83 MB)