Science Models
1000sciencefairprojects
Science Fair Projects

Published on Feb 13, 2016

Abstract

The objective:

The purpose of this experiment was to determine how three different shaped blocks, acting as barriers,affect a tsunami. How do different barrier shapes on the shoreline affect a tsunami?

If the wave hits the rectangular barrier with the half circle cut, then the barrier will stop the tsunami because this particular shaped barrier makes a focal point which compresses the wave. When the wave is compressed,its speed will be reduced drastically.

Methods/Materials

A rectangular plastic bin was filled with water and 2 pieces of plywood were placed at each end of the bin to act as drop zone and run-up ramps.

A third plywood piece clipped with paper was supported horizontally to simulate the shore.

Each barrier was placed at the beginning of the shoreline and the tsunami was created by dropping a medicine ball down the drop zone ramp. The brown paper absorbed the water that went over the barrier.

The absorption limit on the brown paper represented the distance the wave traveled behind the barrier. The distance was measured from the back of the barrier.

Results

The triangular barrier was most effective. When the wave hit the tip of the triangle, it separated the water into two different paths.

The wave did not flow over the barrier because was diverted to the sides. Only twice did water come over the barrier.

The rectangular barrier with the half circle cut was the second most effective. Because of the concave shape of the barrier, the wave met at a focal point when it hit the barrier.

When the wave met at the focal point,it traveled over the barrier with less energy. The rectangular barrier was the least effective having the highest average distance.

When the water hit the flat surface on the face of the rectangular barrier,the energy was directed upwards and then over the barrier.

Conclusions/Discussion

The hypothesis was not supported through the experiment and the data gathered. It was learned that a triangular barrier can be effective in tsunami defense.

The triangular barrier was most effective because when the wave hit the tip of the triangle, it separated the water into two different paths thus diverting it from flowing over the barrier.

The purpose of this lab was to determine how three different shaped wood blocks, acting as barriers, affected a tsunami.

Science Fair Project done By Derek K. Lindquist