Mid-
Monsoon 2019 Lightning Report
Context: For the
first time, a report- Mid-
Monsoon 2019 Lightning Report- has mapped lightning strikes across the country, and the lives they have claimed.
It has been prepared by Climate Resilient Observing Systems Promotion Council (CROPC), a non-profit
organisation that
works closely with India Meteorological Department (IMD).
Lightning strikes have caused at
least 1,311 deaths in the four-month period between April and July this year.
How does it strike?
- The base of these clouds typically lies within 1-2 km of the Earth’s surface, while their top is 12-13 km away.
- Temperatures towards the top of these clouds are in the range of minus 35 to minus 45 degrees Celsius.
- As they move to temperatures below zero degrees celsius, the water droplets change into small ice crystals.
- smaller ice crystals are moving up and bigger crystals are coming down.
- Collisions follow, and trigger the release of electrons — a process that is very similar to the generation of sparks of electricity.
- his process results in a situation in which the top layer of the cloud gets positively charged, while the middle layer is negatively charged.
- The electrical potential difference between the two layers is huge — of the order of a billion to 10 billion volts. In very little time, a massive current, of the order of 100,000 to a million amperes, starts to flow between the layers.
- An enormous amount of heat is produced, and this leads to the heating of the air column between the two layers of the cloud. This heat gives the air column a reddish appearance during lightning. As the heated air column expands, it produces shock waves that result in thunder.
How does this current reach
the Earth from the cloud?
While the Earth is a good
conductor of electricity, it is electrically
neutral. However, in comparison to the middle layer of
the cloud, it becomes positively charged. As a result, about 15%-20% of the current
gets directed towards the Earth as well.
Once it is about 80-100 m from the surface,
lightning tends to change course towards these taller objects. This happens
because air is a poor conductor of
electricity, and electrons
that are travelling through air seek both a better conductor and the shortest
route to the relatively positively charged Earth’s surface.
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