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Balsa Wood Bridge

Balsa Wood Bridge. 8 th. How Does a Bridge Stay Up?. Bridges don ’ t always Stay U p. Forces act on a bridge Engineers must design bridges that account for these forces. Forces can come from many sources. Can you think of any? Cars Bridge materials Wind? Earthquakes?.

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Balsa Wood Bridge

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  1. Balsa Wood Bridge 8th

  2. How Does a Bridge Stay Up?

  3. Bridges don’t always Stay Up • Forces act on a bridge • Engineers must design bridges that account for these forces. • Forces can come from many sources. • Can you think of any? • Cars • Bridge materials • Wind? Earthquakes?

  4. Dealing with Forces • Design • Bridge design allows for thedissipation or transfer of forces. (shown in later slide) Transfer The movement of forces to a specifically designed area to account for force extremes.

  5. Forces on a Bridge • Torsion • Twisting force on a material.

  6. Forces on a Bridge • Tension • Pulling Force on a material

  7. Forces on a Bridge • Compression • Squeezing force on • A material

  8. Basic Bridge Designs

  9. Beam Bridge Beam Bridge…… Consists of a horizontal Beam supported at each end by piers. The weight of the beam pushes straight down on the piers. The farther apart its piers, the weaker the beam becomes. This is why beam bridges rarely span more than 250 Feet.

  10. Forces on Beam Bridge When something pushes down on the beam. The beam bends it top edge is pushed together, and its bottom edge is pulled apart.

  11. Truss Bridge Truss bridge…… Consists of an assembly of triangles. Truss bridges are commonly made from a series of straight, steel bars. Ridged arms extend from both sides of two prier's. Diagonal steel tubes, projecting from the top and bottom of each pier, hold the arms in place.

  12. Forces on Truss Bridge Cantilever bridge Firth of Forth Every bar in this cantilever bridge experiences either a pushing or pulling force. The bars rarely bend.

  13. Arch Bridge • Arch bridge…. • Has a great natural strength. Thousands of years ago, Romans built arches of of stone. Today, most arch bridges are made of steel or concrete, and they can span up to 800 ft.

  14. Forces on Arch Bridge Ancient Roman Aqueduct The arch is squeezed together, and this squeezing force is carried outward along the curve to the supports at each end.

  15. Suspension bridge • The suspension bridge… • Can span 2,000 to 7,000 ft why farther than any other type of bridge. Most suspension bridges have a truss system beneath the roadway to resist bending and twisting.

  16. Forces on Suspension Bridge Golden Gate Bridge Forces act on Suspension Bridge

  17. Cable- Stayed Bridge • Cable stayed bridge….. • Like the suspension bridge, supports the roadway with massive steel cables, but in a different way. The cables run directly from the roadway up to a tower, forming a unique A shape. • Cable stayed bridges can be build much faster then a suspension bridge and can be built faster.

  18. Design Sketch will be done in CADD 3D Must meet the following Requirements.

  19. Requirements • Opening will be 8 in. • Bridge must fit in box that’s - Height 5in • Width 5in • length 12in  

  20. Materials • ¼ piece of balsa wood • Amount will be 7 lin feet ( 84 in ) Total

  21. Sketch • Dimension On graph paper • Clear Lines Drawn to scale View of each side (3) • Top Bottom Side

  22. Print each Side View Inventor

  23. How the test looks likeBolt Placement

  24. Unrealistic

  25. Not going to happen

  26. Look the the cross members

  27. What shape is common?

  28. Point to carry load

  29. Enrichment • How might a natural disaster change your bridge design? • Discuss: • How bridges are designed differently around the world? • Why some bridge materials are used instead of others?

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