Why do buildings fall in earthquakes? - Vicki V. May
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Earthquakes have always been a terrifying phenomenon, and they’ve become more deadly as our cities have grown — with collapsing buildings posing one of the largest risks. But why do buildings collapse in an earthquake? And how can it be prevented? Vicki V. May explains the physics of why it is not the sturdiest buildings, but the smartest, that will remain standing.
Additional Resources for you to Explore
Earthquake engineers control the response of a building through many different approaches. Changing the materials and dimensions are probably the easiest ways to vary the response of a building. Watch this video by the Materials Research Society that shows a step in the right direction in the development of earthquake proof houses. But recent innovations such as base isolation, tuned mass dampers, and other energy absorbing devices are significantly improving the response of buildings during earthquakes. Base isolation systems work by de-coupling the motions of the ground from the motions of the building. Tuned mass dampers are installed in buildings to counteract building motions during an earthquake; the mass is tuned such that its oscillations oppose those of the building. Taipei 101, the second tallest building in the world, uses tuned mass dampers. Other types of damping systems and seismic bracing systems that absorb energy by being damaged and then removed are also used in buildings. Visit: How Stuff Works for more great information about protecting buildings from earthquakes.
One of the big challenges that engineers still face is the development of low-cost housing and earthquake engineering systems for poorer communities. The $300 House challenge was initiated in response to the need for affordable housing in poor income areas. Engineers, architects, and contractors continue to strive for affordable housing solutions. National Geographic also has a Safe Houses page with relevant information on materials that could keep you safer in a house located in an earthquake zone. Visit this FEMA Earthquake Safety at Home site and find out more ways you can protect yourself from an earthquake.
For guidance on creating a physical model to experiment with the relationship between building response, mass, and stiffness follow this link!
In May of 2015, Dartmouth will offer a course entitled The Engineering of Structures Around Us. Anyone can register for this free, online course through edX. This course will focus on the response of structures to all types of loading; the final concept in the course will focus on overall building response to earthquakes. Take a look, see if you are interested and sign up!
For more on earthquakes, where they occur and why, visit this TED Ed Lesson!
The effects of earthquakes in California vs China: Andrew Katz
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Meet The Creators
- Educator Vicki V. May
- Director Adam Comiskey
- Animator Ashleigh Campbell
- Artist Adam Southey
- Script Editor Alex Gendler
- Narrator Addison Anderson