Presentation is loading. Please wait.

Presentation is loading. Please wait.

Structural Engineering Notes PowerPoint Courtesy of Amherst Middle School Technology Department TMS Technology Education Presents:

Published byBrandon Glenn Modified over 8 years ago

Similar presentations

Presentation on theme: "Structural Engineering Notes PowerPoint Courtesy of Amherst Middle School Technology Department TMS Technology Education Presents:"— Presentation transcript:

1

2 Structural Engineering Notes PowerPoint Courtesy of Amherst Middle School Technology Department TMS Technology Education Presents:

3 4 Types of Bridges Click on the picture below to answer questions 1 & 2. You will have to read the Section Bridge Basics and click on the links to find the answers.

4 Efficiency Efficiency- compares how much goes in to how much comes out. (example- How much time, effort, or money does it take to accomplish something? Spend less to get more!) Your goal as a Structural Engineer is to design and build the most efficient structure. This means that the REAL winner will be the person who spends very little money to support a lot of weight! This is called efficiency, and here is the definition…

5 Here is how we will determine our winner, the most efficient engineer… Question  How much does it cost to support 1 pound? Answer  Use the efficiency formula! Efficiency = Total Cost ($) Critical load (lbs) Watch this next example to see how this works…

6 Engineer Cost: (millions) Critical Load: (pounds held) Efficiency: (cost to support 1 pound) Amanda$189.4260 ? Amanda spent $ 189.42 to build her design… When she tested her design, it held 60 pounds… So how much did it cost her to support only 1 pound? Use the Efficiency formula!

7 Engineer Cost: (millions) Critical Load: (pounds held) Efficiency: (cost to support 1 pound) Amanda$189.4260 ? Efficiency = Total Cost ($) Critical load (lbs) Efficiency = 189.42 60 Efficiency = $ 3.16 This is her efficiency rating, or how much money it cost her to support 1 pound! (Lower the better!)

8 Engineer Cost: (millions) Critical Load: (pounds held) Efficiency: (cost to support 1 pound) Tim$ 114.8916 ? Jenny$ 138.3536 ? Joe$ 163.7240 ? Sarah$ 220.2150 ? Who is the most efficient engineer below? Use the efficiency formula to complete the chart below… It’s your turn! Need a calculator? Click the picture and click YES 

9 Efficiency Example: The mass of a bridge (BRIDGE A) is 32 grams. The critical load is 45 grams. Calculate the efficiency as a PERCENTAGE! Calculating efficiency for your bridges: Critical Load on the Bridge E = ------------------------------------- MASS OF THE BRIDGE

10 Efficiency 27.9% Which bridge would you rather have? Why? ANSWER: 1.40 x 100 = 140% Efficient Example #2: You have a bridge (BRIDGE B) that holds 12g and the bridge has a mass of 43 g. Calculate the efficiency.

11 Definitions: The amount of weight the structure can withstand before failing (or breaking). Critical Load- Optimization- The process of redesigning something many times to make it better. Trade-offs- An exchange of one thing in return for another. Example- adding more wood makes it stronger (good), but also raises the cost (bad)… which do you choose?

12 Forces Lab: Click on the picture hyperlink below to answer questions 15-19. When you are at the web site, click on the forces in the left hand column to answer the questions.

13 Loads Lab: Click on the picture hyperlink below to answer questions 20-27. When you are at the web site, click on the forces in the left hand column to answer the questions.

14 Materials Lab: Click on the picture hyperlink below to answer questions 28-34. When you are at the web site, click on the forces in the left hand column to answer the questions.

15 Shapes Lab: Click on the picture hyperlink below to answer questions 35-38. When you are at the web site, click on the forces in the left hand column to answer the questions.

16 Parts of a Truss: Truss- A structure made up of many pieces connected together. Commonly used in bridges, buildings, and roller coasters.

17 Parts of a Truss: Roadbed- The surface where cars would drive on.

18 Parts of a Truss: Span- The actual distance the bridge must go over (shorter than the roadbed). SPAN

19 Parts of a Truss: Members- The individual pieces that make up the truss. We will be using balsa wood.

20 Parts of a Truss: Joints- Where the members intersect, and are glued.

21 Parts of a Truss: Coordinates- These numbers (called X and Y) tell the location of joints on a grid system.

22 Parts of a Truss: Gusset Plates - Cover the joints, strengthening them by adding more glued surface area.

23 Parts of a Truss: Force Vector- Shows the location and direction of the applied force.

Download ppt "Structural Engineering Notes PowerPoint Courtesy of Amherst Middle School Technology Department TMS Technology Education Presents:"

Similar presentations

BRIDGE BUILDING ASSIGNMENT 1.Work with a partner to construct 1 bridge. 2.Last Module Partner. 3.Draw a full size truss pattern from one of the six truss.

BRIDGE BUILDING ASSIGNMENT 1.Work with a partner to construct 1 bridge. 2.Last Module Partner. 3.Draw a full size truss pattern from one of the six truss.
Trusses with no gussets - What next?. Folks, I just received a rather disturbing series of pictures of new construction currently going on in New Jersey.

Trusses with no gussets - What next?. Folks, I just received a rather disturbing series of pictures of new construction currently going on in New Jersey.
The 15th Annual Strongsville Truss Structure Competition

The 15th Annual Strongsville Truss Structure Competition
Characteristics of Three Bridge Types

Characteristics of Three Bridge Types
Jeopardy $100 $100 $100 $100 $100 $200 $200 $200 $200 $200 $300 $300

Jeopardy $100 $100 $100 $100 $100 $200 $200 $200 $200 $200 $300 $300
 Each student has a file in their folder that will help guide the project. The file contains a rubric that explains how it will be graded. The project.

 Each student has a file in their folder that will help guide the project. The file contains a rubric that explains how it will be graded. The project.
TODAY ADD LEGO rubric to end of your lab write-up for LEGO NXT

TODAY ADD LEGO rubric to end of your lab write-up for LEGO NXT
Calculating Truss Forces

Calculating Truss Forces
Anatomy of A Bridge Atin Sinha, Ph.D., P.E. Albany State University Anatomy of A Bridge Atin Sinha, Ph.D., P.E. Albany State University.

Anatomy of A Bridge Atin Sinha, Ph.D., P.E. Albany State University Anatomy of A Bridge Atin Sinha, Ph.D., P.E. Albany State University.
Calculating the “actual” internal force in truss bridge members

Calculating the “actual” internal force in truss bridge members
Bridge Building Notes Physics.

Bridge Building Notes Physics.
The 13 th Annual Strongsville Truss Structure Competition indianalandmarks.org.

The 13 th Annual Strongsville Truss Structure Competition indianalandmarks.org.
Bridge Design Project Using SolidWorks and SolidWorks Simulation to design, test and build structures.

Bridge Design Project Using SolidWorks and SolidWorks Simulation to design, test and build structures.
Bridge Design part 1 By Alan Pennington, materials taken from and adapted West Point Bridge Design.

Bridge Design part 1 By Alan Pennington, materials taken from and adapted West Point Bridge Design.
Bridge Report By Jenny. Gina. Eunji. Matt Team 5.

Bridge Report By Jenny. Gina. Eunji. Matt Team 5.
Manila folder bridges.

Manila folder bridges.
Much of the material from: COL Stephen Ressler, P.E., Ph.D.

Much of the material from: COL Stephen Ressler, P.E., Ph.D.
© 2006 Baylor University EGR 1301 Slide 1 Lab 8 Predicting Strength of Trusses Approximate Running Time – 20 minutes Distance Learning / Online Instructional.

© 2006 Baylor University EGR 1301 Slide 1 Lab 8 Predicting Strength of Trusses Approximate Running Time – 20 minutes Distance Learning / Online Instructional.
Spaghetti Bridges The Pasta Sensations! Take a look at some designs…….

Spaghetti Bridges The Pasta Sensations! Take a look at some designs…….
Elevated Bridge.

Elevated Bridge.

Similar presentations

Ads by Google