In a Nigerian hamlet, I was born and reared. Even though the sea is close by, there is no drinking water. He is performing technological study on the simplest approach to obtain drinking water in desert places with American researcher Gil Borico. One out of every eight people on the planet lacks access to safe drinking water. It's possible that they have clean water on their feet. 

Groundwater extraction necessitates the use of motors, pumps, and energy, among other things. This is especially true in low-income areas. As a result, a water pump is not an option. The tree absorbs water, preventing dangerously low groundwater levels. The purpose of IGilem is to learn the subtleties of the tree and design a tool that is similar to it.


Even folks in a dry location can acquire drinking water if a simple solar-powered gadget is set up. The tree uses the salt water beneath the earth to clean and purify it. Knowing the complexities of how a tree takes water from the ground through its roots necessitates the development of an artificial tool. Water is transported to the top of a multi-story building using an electric motor. However, how can you get water to a leaf at the very top of a tall tree?

H2O is the molecule that makes up water. With one oxygen, two hydrogen bonds are formed. An oxygen electron is shared with a hydrogen. Similarly, a hydrogen electron is shared with oxygen. This is referred to as a covalent bond. As a result, electrons collect in the hydrogen-bound oxygen area, slightly increasing the negative charge of the hydrogen atoms. The nature of oxygen is slightly more positive. The hydrogen atom of one molecule sticks to the oxygen atom of another molecule after that. As a result, each molecule is tethered to two water molecules in its immediate vicinity. To put it another way, the water molecule will attract the other water molecule.

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groundwater

SIBY JEYYA

21/10/2021 05:30 AM