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6.18: Earthquake Safe Structures

Difficulty Level: At Grade Created by: CK-12
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Why is California Memorial Stadium called a "tectonic time bomb"?

The Hayward Fault passes directly beneath both end zones at California Memorial Stadium, the home of football at the University of California, Berkeley. The site probably looked flat and easy to build on in 1922 before knowledge of earthquake faults was very advanced. Now, in the over-built East Bay, the land is worth an incredible amount of money. To make the stadium safe for workers, players, and fans, the stadium is being renovated in a $321 million project involving 10 miles of steel cables, silicone fluid-filled shock absorbers, concrete piers, 3 feet of sand, plastic sheeting, and stone columns. Go Bears!

New Construction

New construction can be made safer in many ways:

  • Skyscrapers and other large structures built on soft ground must be anchored to bedrock, even if it lies hundreds of meters below the ground surface.
  • The correct building materials must be used. Houses should bend and sway. Wood and steel are better than brick, stone, and adobe, which are brittle and will break.
  • Larger buildings must sway, but not so much that they touch nearby buildings. Counterweights and diagonal steel beams are used to hold down sway.
  • Large buildings can be placed on rollers so that they move with the ground.
  • Buildings may be placed on layers of steel and rubber to absorb the shock of the waves.
  • Connections, such as where the walls meet the foundation, must be made strong.
  • In a multi-story building, the first story must be well supported ( Figure below ).

The first floor of this San Francisco building is collapsing after the 1989 Loma Prieta earthquake.


To make older buildings more earthquake safe, retrofitting with steel or wood can reinforce a building's structure and its connections ( Figure below ). Elevated freeways and bridges can also be retrofitted so that they do not collapse.

Steel trusses were built in an x-pattern to retrofit a dormitory at the University of California, Berkeley. The building is very near the Hayward Fault.

Preventing Fire Damage

Fires often cause more damage than the earthquake. Fires start because seismic waves rupture gas and electrical lines, and breaks in water mains make it difficult to fight the fires ( Figure below ). Builders zigzag pipes so that they bend and flex when the ground shakes. In San Francisco, water and gas pipelines are separated by valves so that areas can be isolated if one segment breaks.

In the 1906 San Francisco earthquake, fire was much more destructive than the ground shaking.

Cost Considerations

Why aren’t all structures in earthquakes zones constructed for maximum safety? Cost, of course. More sturdy structures are much more expensive to build. So communities must weigh how great the hazard is, what different building strategies cost, and make an informed decision.

In 1868 marked the Hayward Fault erupted in what would be a disastrous earthquake today. Since the fault erupts every 140 years on average, East Bay residents and geologists are working to prepare for the inevitable event.

See more at http://science.kqed.org/quest/video/the-hayward-fault-predictable-peril/.


  • New structures that are built to meet earthquake safety codes do much better in earthquakes.
  • Old buildings can be retrofitted for better safety.
  • Cost is an important factor in deciding how safe to make the structures in an area.


Use this resource to answer the questions that follow.

1. What is LA's most earthquake proof building?

2. Why is it called a floating building?

3. How many suspension points are in the building?

4. What size earthquake should the building be able to withstand?

5. How far is it designed to move?


1. Why do people build structures in earthquake-prone areas like the San Francisco or Los Angeles areas?

2. Why do fires do so much damage after an earthquake?

3. How do people weigh the costs and benefits to determining how earthquake safe to make structures in an area?




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Difficulty Level:

At Grade


Date Created:

Feb 24, 2012

Last Modified:

Oct 27, 2014
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