# ENGRCEE 30 Statics (2017-2018)

#### ENGRCEE 30 Statics

**ENGRCEE 30 Statics (Credit Units: 4)** Addition and resolution of forces, distributed forces, equivalent systems of forces centroids, first moments, moments and products on inertia, equilibrium of rigid bodies, trusses, beams, cables. Corequisite: Mathematics 2D. Prerequisite: Math 2D and Physics 7C. School of Engineering majors have first consideration for enrollment. Same as ENGR 30 and ENGRMAE 30. (Design units: 0)

1. Analyze and draw free body diagrams for single particles and rigid body systems.

2. Calculate centroids of areas and moments of inertia.

3. Establish equilibrium equations of particles/rigid bodies for solve for forces and support reactions.

4. Apply the theory and methods to analyze simple trusses.

5. Compute internal forces in cables/beams.

6. Formulate statics problems for simple structural beams.

Newtonian mechanics, kinematics, and dynamics of motion. Differential and integral calculus of real-valued functions of several real variables, including applications.

- Introduction. Fundamental concepts, units, vector and scalar quantities.
- Statics of a particle. Equilibrium of forces in a plan and in space.
- Statics of rigid bodies. Moments and couples, equivalence of force systems.
- Equilibrium of rigid bodies in two and three dimensions.
- Centroids of areas.
- Pin-jointed trusses. Analysis by methods of joints and sections.
- Loaded cables.
- Internal forces in beams.
- Moments of inertia, products of intertia.

Meets for 3 hours of lecture and 1 hour of discussion each week for 10 weeks.

Basic computer skills

None.

Contributes to Engineering Topics Courses of Civil Engineering and Environmental Engineering majors.

None.

- Homework: 20%
- Midterm Exams (2): 40%
- Final Exam: 40%
- Total: 100%

Mathematics and Basic Science: 0.0 credit units

Computing: 0.0 credit units

Engineering Topics: 4.0 credit units

Engineering Science: 4.0 credit units

Engineering Design: 0.0 credit units