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The Shaking Subject of Earthquake Resistant Houses

The Shaking Subject of Earthquake Resistant Houses . BY: OLIVIA TOGGAS, BEN WALLACH,MAY MCLAUGHLIN, AND BROOKE MILLIGAN. Problem/Purpose. What types of structures can be built to best withstand earthquakes. . Research .

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The Shaking Subject of Earthquake Resistant Houses

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  1. The Shaking Subject of Earthquake Resistant Houses BY: OLIVIA TOGGAS, BEN WALLACH,MAY MCLAUGHLIN, AND BROOKE MILLIGAN

  2. Problem/Purpose • What types of structures can be built to best withstand earthquakes.

  3. Research • In research, the information showed different materials that can be used on houses to make them stronger. We learned about using beams and poles to hold up houses. We also learned about designing houses to withstand earthquakes. In one article it told us about building heat systems that shut off when a earthquake starts. Last of all we learned which types of houses best withstand an earthquake.

  4. Hypothesis • If we build 3 different structures, the clay structure will best withstand the shaking. This is because clay sticks together and it holds up well. Clay house Cardboard Popsicle Sticks

  5. Shake Table Data Table Clay Popsicle Sticks Cardboard Pencils Markers Glue Scissor Paper Toothpicks Materials

  6. Procedures Build three medium size houses made out of clay and use toothpicks to keep the clay together. Build three medium houses made out of popsicle sticks. Build three medium houses made out of cardboard. Put 1 clay house on shake table, have someone count the number of shakes it takes to fall. Do this for the rest of clay houses. Record and write down things we notice. Repeat for cardboard and popsicle sticks. Find similarities and differences between structures. Conclude.

  7. Data Table

  8. Data Analysis

  9. Citation • http//www.quake.abag.ca.gov/housing • http//www.npr.org/2011/01/14/1329/4427/in-hatis-rebuilding-callsforstrongerstructures

  10. Conclusion Part 1 Our hypothesis states that if we build 3 types of structures than the clay house will best withstand the shake. Our hypothesis was incorrect. The clay house fell in the fastest time. If we could change our experiment than we would’ve tried to make all the structures as alike as possible. This could of made our information more accurate. We also could of used a stronger type of clay. A factor that effected our results was that all the structures were not the same size. This could have an effect on our results.

  11. Conclusion part ll • Our results relate to the real world because we noticed that the clay houses are weak. Villages might not want to build clay houses because if there was an earthquake, they could fall. A wood house would be the best type of house because it is the strongest and would best withstand an earthquake.

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