Raindrop size can help identify habitable planets beyond the solar system: Study

The shape of raindrops helps in determining the falling speed which varies depending on the thickness of surrounding air and gravity.

FP Trending April 08, 2021 13:39:20 IST
Raindrop size can help identify habitable planets beyond the solar system: Study

The shape of raindrops helps in determining the falling speed which varies depending on the thickness of surrounding air and gravity.

A new study by researchers at Harvard University has proposed that understanding the behaviour and size of raindrops is key to identifying potentially habitable planets beyond the solar system. This is because raindrops are remarkably similar across planetary environments. The study has been published in the Journal of Geophysical ResearchThe researchers at Havard are trying to find simpler ways to understand how clouds evolve. The first step towards this is to know whether cloud droplets evaporate in the atmosphere or not.

Raindrop size can help identify habitable planets beyond the solar system Study

The shape of raindrops helps in determining the falling speed which varies depending on the thickness of surrounding air and gravity.

Robit Wordsworth, the senior author of the paper, said, “If we understand how individual raindrops behave, we can better represent rain in complex climate models”.

Wordsworth and Kaitlyn Loftus, the lead authors of the paper, have recognized a Goldilocks zone for raindrop size using the drop shape, evaporation speed, and falling speed. The study uses these three properties to find out that, within a cloud, only a small fraction of raindrop sizes can reach the surface of the planet.

According to NASA, Earth is the blueprint for life on other planets. In order to find life, astronomers look for Earth-like characteristics, like liquid water. It needs to be just the right distance from its sun because if it is too close or too far, the water will either freeze or evaporate. The 'Goldilocks Zone a.k.a habitable zone, is the range of distance with the right temperatures for water to remain liquid.

If the size is too small, the raindrop will evaporate even before hitting the planet. While, if it's too big, the raindrop will be destroyed because of the insufficient surface tension, whether it's water, methane, or something more unique like superheated, liquid iron found on an exoplanet called WASP-76b.

According to Loftus, “We can use this behaviour to guide us as we model cloud cycles on exoplanets."

The shape of raindrops helps in determining the falling speed which varies depending on the thickness of surrounding air and gravity. The study further states that the raindrops have a spherical shape when small, however, they become more squashed after growing larger.

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