Why Dutch scientist is confident of earthquake in Pakistan?

Why Dutch scientist is confident of earthquake in Pakistan?

Dutch Scientist Frank Hoogerbeets employs an alternative approach to earthquake prediction. Rather than relying on conventional methods, Hoogerbeets explores a distinct avenue for forecasting seismic events. He centers his analysis on the Chaman fault line, which extends from the southern region of Kabul to its terminus in the Arabian Sea, traversing areas like Chaman, Nushki, Kalat, Khuzdar, and Awaran in Balochistan.

In this context, the study of active fault lines and their movements takes center stage. These fault lines denote fractures within the Earth's crust, notorious for their propensity to trigger earthquakes. Scientists diligently map these fault lines and assess their potential for seismic activity.

Hoogerbeets' groundbreaking prediction methodology hinges on scrutinizing a substantial surge in electric activity occurring along these fault lines. His approach extends beyond terrestrial factors, drawing attention to planetary alignments to anticipate impending earthquakes, previously applying this technique to forecast seismic events in Turkey and Syria.

Hoogerbeets' latest statement regarding fault lines in Balochistan stems from his investigation into the pronounced variations in electrical activity within these fault zones. As rocks within a fault zone undergo stress and deformation, they generate electrical currents. Detecting alterations in these currents potentially offers insight into impending earthquakes.

Nevertheless, it's crucial to acknowledge the complexity and contentious nature of this approach within the scientific community. This method is far from being a reliable means of earthquake prediction, as various factors can influence electrical activity in the Earth's crust. Moreover, not all earthquakes are preceded by detectable changes in electrical currents.

Currently, earthquake prediction predominantly relies on conventional disciplines such as seismology, geology, and geophysical measurements, rather than electrical activity. Although scientists continue to explore diverse techniques for earthquake prediction, the accurate forecasting of specific earthquakes remains an enduring challenge.