Welcome students and prepare for the week. Review the entire six week objectives. Show video and have students complete worksheet while watching the video.

First day objectives

• Introductions and class procedures
• Explain course syllabus
• Show video tape and complete worksheet
• Teambuilding activities (icebreakers)

Links for Lesson:

• Lesson Plan
• Bridges Video Worksheet
• Course syllabus
• Teambuilding activities
• Video Sources

Guided discussion, PowerPoint presentation. Create teams for research project and hand out assignment.

PowerPoint presentation

• Job Categories
• Typical jobs
• Benefits
• Skills to develop in high school

Links for Lesson:

• PowerPoint presentation
• Water Treatment article
• Research assignment
• American Society of Civil Engineers

Research topic and prepare presentation.

Great Civil Structures

• Research and prepare PowerPoint presentation

Link for Lesson:

• American Society of Civil Engineers

Presentation and Evaluation

Students present research results

Class procedure

• Teams have 5-7 minutes each
• Teacher (and peer) evaluations using rubric worksheets

Link for Lesson:

• Presentation rubric for evaluation

Students present research results

Class procedure

• Teams have 5-7 minutes each
• Teacher (and peer) evaluations using rubric worksheets

Link for Lesson:

• Presentation rubric for evaluation

A guest speaker from industry or academia who brings some visual aids, such as different sizes of reinforcement bar (re-bar), shear test samples, and field experiences is a powerful motivational introduction.

Motivational Activities

• Industry guest speaker from a Civil Engineering firm.
• Academia guest speaker from nearby junior college, college, or university.
• Icebreakers (Team building exercises)

Links for Lesson:

• Lesson Plan
• Guest speaker Invitation

Guided discussion, PowerPoint presentation. This introduces materials terminology and gives examples of stresses, failures, and a material's response to stresses.

Materials Terminology and Definitions

• Demonstrate concepts of elasticity, compression, and tension
• Introduce mathematical concepts in materials
• Explain materials characterization and how they influence selection
• Optional homework assignment

Links for Lesson:

• PowerPoint presentation
• Background Technical Paper
• Optional homework assignment

Student teams will setup the lab to apply a force (weight) and measure the deflection on different materials and cross sections.

Materials characterization lab

• Download the Excel file to plot the data points.
• Setup the beam and equipment for measurements
• Add weights, measure the deflection, and plot the data. Should get a linear response.

Links for Lesson:

• Lab Procedure
• Excel spreadsheet
• Background technical paper

Continue lab work from Wednesday.

Materials characterization lab (continued)

• Addtional time for the prior days lab.

Links for Lesson:

• Lab Procedure
• Excel spreadsheet
• Background technical paper

Presentation of Results

Presentation and Evaluation

• Students present graphed data and calculated Modulus of Elasticity calculations
• Compare to published literature
• List potential sources of error and improvement methods
• Quiz

•  
  • Quiz
  • Presentation rubric for evaluation
Links for Lesson:

Begin construction of the manila file-folder bridge

Attention Grabber

• Show file-folder material and the 5kg load it will support
• PowerPoint presentation of some construction techniques
• Form construction teams of four to five students

Links for Lesson:

• Lesson Plan
• PowerPoint presentation
• Lab Procedure
• Supervisor Feedback Form

Continue bridge construction

Continue bridge construction

Continue bridge construction

Continue bridge construction

Simulate bridge design on the PC.

Attention Grabber

• Introduce simulator, compression in red, tension in blue
• Variables: tubes, bars, geometries, types of steel

Links for Lesson:

• Lesson Plan
• Characterization Lab Procedure
• Lab Spreadsheet
• Bridge Simulator Assignment

Guided PowerPoint discussion teaching testing machine theory and how to characterize different shaped truss members. Each team will characterize a certain geometry member. Other teams will be continuing their bridge construction. An alternative is to bypass the characterization and use the tension and compression data from the book. If choosing this option, be sure to modify the homework and evaluation.

PowerPoint topics

• Factor of Safety in Design
• Principles of the lever
• Generating tension and compression characterization data

Links for Lesson:

• PowerPoint presentation
• Homework

Each team will characterize a certain geometry member. Other teams will be continuing their bridge construction

Each team will characterize a certain geometry member. If any bridges are complete, weight test them from both top chord and bottom chord. All other teams should be completing their bridge construction.

• Weight test the top chord and bottom chord.
• Bridges should be completed and dry overnight for the Friday weight test.

Link for Lesson:

• Weight loading procedure

Weight load bridges, both top chord and bottom chord.

Activities

• Collect homework
• Quiz
• Weight test the bridges.

Links for Lesson:

• Quiz
• Weight loading procedure

Use the forces attention grabber to visualize the effects of angles. Show the bridge to reinforce concept of triangles. Begin PowerPoint presentation on Static Analysis I.

Activities

• Attention grabber about forces
• Each team examine bridges, count number of geometric shapes
• Demonstration of strength of triangles
• Begin PowerPoint presentation

Links for Lesson:

• Lesson plan
• Forces attention grabber
• Triangle attention grabber
• PowerPoint presentation

Guided PowerPoint discussion reviewing the mathematics involved in structural analysis. Hand out homework after the presentation.

PowerPoint Topics

• Define structural analysis
• Pythagorean Theorem and trigonometric functions sine and cosine
• Mathematical vectors and their components
• Concept of equilibrium
• Reactions
• Static Determinancy

Links for Lesson:

• PowerPoint presentation
• Homework assignment

Attention grabber about vectors. Do example problems and help students. Advanced students can work on the simulator designs.

• Force vectors demonstration
• Examples of vector addition

Link for Lesson:

• Vector attention grabber

Review concepts from the PowerPoint presentation. Advanced students can work on their bridge simulations.

Activities

• Vector addition examples
• Reaction examples
• Static determinancy examples

Collect homework Quiz

Link for Lesson:

• Quiz

Select a well constructed bridge for taking to catastrophic failure. Recall it was designed for a 5kg load, and the Factor of Safety from the Week 4 homework was over 2.0. Construction techniques will make it lower.

Attention Grabber

• Load one bridge until catastrophic failure

Links for Lesson:

• Lesson Plan
• PowerPoint presentation

Guided PowerPoint presentation. This is the most complex lecture as it demonstrates how to use the Method of Joints to determine the internal forces on bridge members. I recommend doing many examples, alternating between white board, desk, and team solutions.

PowerPoint topics

• Free Body Diagrams
• Method of Joints Internal Force Solutions

Links for Lesson:

• PowerPoint presentation
• Homework

Mathematical static analysis examples

Activities

• Isolated joint examples

Link for Lesson:

• Example problems

Mathematical static analysis examples

Activities

• Isolated joint examples

Link for Lesson:

• Example problems

Last quiz of the module.

Activities

• Collect homework
• Quiz

Link for Lesson:

• Quiz