Truss Bridges: Strength Explained

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In summary, truss bridges are strong because of the numerous triangular forms in their structure. Unlike rectangles, triangles cannot change angles without changing the length of their sides, resulting in a strong resistive force against external forces. Other shapes, such as pentagons, do not have this property and are not as effective in creating strong structures.
  • #1
JimmyRay
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What makes truss bridges so strong? Like if you have something supported by triangles, why is it good? I don't really understand the physics behind it.
 
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you must look at the entire structure itself to understand. each member is supported by teo other members whose stress is oppisite the one being supported
 
  • #3
A truss bridge gains it's strength from the numerous triangular forms contained in it's structure. Were the structural members of the span arranged in rectangles instead of triangles, the bridge would be weak and collapse. This is because in a rectangle, a lateral force can change the angles without changing the lengths of any of the sides (the beams), allowing the rectangle to collapse without any compressive or tension forces to resist the collapse.

But in a triangular object (or I think any other polygon with an odd number of sides - isn't that right?) you cannot change the angles without changing the lengths of the sides. So the beams push back on any force that tries to change their shape. Since the triangle has the least number of angles of any odd sided figure, even a small change in angle would require a large change in side length, resulting in a large resistive force.
 
  • #4
Bob3141592 said:
But in a triangular object (or I think any other polygon with an odd number of sides - isn't that right?)
Nope. Stick with triangles.

Build a pentagon from straws. You can easily distort its angles without any change in the length of its sides.
 

1. What are truss bridges and what makes them unique?

Truss bridges are a type of bridge that is made up of a series of interconnected triangles. These triangles work together to distribute the weight of the bridge and provide stability. This design allows for longer spans and greater weight capacity compared to other bridge types.

2. How does the strength of a truss bridge compare to other types of bridges?

Due to their unique design, truss bridges are known for their strength and ability to support heavy loads. They can withstand high levels of tension and compression forces, making them ideal for long spans and heavy traffic.

3. What materials are commonly used to build truss bridges?

Truss bridges can be made from a variety of materials, including wood, steel, and concrete. Each material has its own benefits and drawbacks, but the most commonly used material for modern truss bridges is steel due to its strength and durability.

4. How are truss bridges able to support such heavy loads?

The design of a truss bridge allows for the weight to be distributed evenly across the structure, with each individual member of the truss carrying a portion of the load. This distributes the weight and prevents any one part of the bridge from bearing too much weight, ensuring its overall strength and stability.

5. What factors should be considered when designing a truss bridge for maximum strength?

When designing a truss bridge, engineers must consider factors such as the type of materials used, the type of truss configuration, and the expected load and traffic conditions. The design must also take into account the forces that will act on the bridge, such as wind, earthquakes, and temperature changes. Proper analysis and testing are crucial to ensure the strength and safety of the truss bridge.

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