As Earth’s tectonic plates move and collide, they release vast amounts of energy. On the surface, this energy is manifested as an earthquake. With active visualization, we can get a better understanding of where earthquakes often happen and what the reasons are behind them.
Earthquake visualization advantages
While predicting natural disasters might be nearly impossible, active visualization tools can provide current and historical data. With having access to real-time seismologic data from the US institution, the visualization tools can provide you with valuable insights.
When studying the power and impact of earthquakes, there are many aspects to consider. A 3D map can offer valuable data, such as magnitude, intensity, depth, and exact location where the earthquake happened. This allows both students and scientists to understand the faultlines and their activity, making a correlation between the tectonic plate’s movement and the local seismic activity.
By visualizing the tectonic plates, users can understand how they interact and why they release the stress. By observing the recent earthquakes on the planet, the users can notice where the tectonic plates meet. For example, they can get to know more about the Fire Ring and its seismic activity. The tectonic plate’s boundaries are indicated on the visualization, and you can notice how earthquakes happen around them.
Each earthquake is represented by a dot located in the original epicenter where the event occurred. These dots can vary by size, depending on their magnitude. Another helpful tool is the color variation, allowing users to differentiate between earthquakes with different depths.