Afghanistan earthquake shakes north India, aftershocks unlikely

Afghanistan earthquake shakes north India, aftershocks unlikely

Subject: Geography

Section: Physical Geography (Geomorphology)

Concept:

• Tremors lasting several seconds were felt in Delhi and other parts of North India as a strong 6.6-magnitude earthquake struck Afghanistan recently.

Afghanistan Earthquake

• The earthquake was deep (origin 187.6 km below the earth’s surface) and the epicentre of the earthquake was in northeastern Afghanistan (earthquake prone Hindu Kush region), close to Tajikistan borders.
  • Shallow earthquakes are generally more devastating because they carry greater energy when they emerge on the surface.
  • Deeper earthquakes lose much of their energy by the time they come to the surface – cause less damage and are more unlikely to be followed by
  • However, they spread farther as the seismic waves move radially upwards to the surface.
• That is why the tremors were experienced in Punjab, Rajasthan’s Jaipur, and J&K, however, no damage is reported in India.
• This earthquake was of 5-magnitude.
  • Magnitude is a measure of how big the waves are, while the strength refers to the energy it carries.
• Magnitude 6 earthquakes have 10 times higher amplitude than magnitude 5 earthquakes. The energy differential is even higher, 32 times for every change of 1 in magnitude.

About Earthquake

• An earthquake is an intense shaking of the ground caused by movement under the earth’s surface.
• The location below the earth’s surface where the earthquake starts is called the
• The location directly above the hypocentre on the surface of the earth is called the
• It happens when two blocks (tectonic plates) of the earth suddenly slip past one another releasing stored-up ‘elastic strain’ energy in the form of seismic waves.
• These spread through the earth and cause the shaking of the ground.
• They are measured on scales called the –
  • Moment Magnitude Scale (Mw), based on the total moment (a product of the distance a fault moved and the force required to move it) release of the earthquake.
  • The Richter scale (magnitude scale) – energy released – 0-10.
  • The intensity scale/Mercalli scale – visible damage – 1-12.
• Earthquakes continue to remain the most common natural hazard that cannot be predicted as no early warning systems can be developed.

Earthquake High Risk Zones in India

• Western Himalayas continue to be one of the most dangerous seismic zones in the world.
• According to the scientists, the Himalayan region – the 2500-km stretch from the Hindu Kush mountains to the end of Arunachal Pradesh – is due for a big earthquake (magnitude of over 8 on Richter scale) anytime.
• This is because of the huge amount of energy stored along the fault lines due to the continuous interaction of different tectonic plates.
• This energy can be released only in the form of massive earthquakes.

For further notes on Earthquake, refer – https://optimizeias.com/earthquake-3/