ATAL Tinkering Lab Inaugurated at Prestige International School
(Press Release): In a bid to foster innovation and technological prowess among students, Prestige International School unveiled its latest addition, the ATAL Tinkering Lab, on 8th February 2024 at the school campus today.
The inauguration ceremony, graced by Chief Guest Mullai Muhilan M P IAS (Deputy Commissioner, Mangaluru), was a testament to the school's commitment to nurturing young minds in the realms of AI, IT, and coding.
The event witnessed the presence of Chairman Hyder Ali, members from the management trust, along with the school and college Principals, dedicated teachers, and enthusiastic students, gathered at the Prestige School auditorium.
With the inauguration of the ATAL Tinkering Lab, the school aims to empower its students with hands-on experience in building robots and delving into computer-based learning in this digital age.
Through this initiative, Prestige International School endeavors to equip its students with the necessary skills to thrive in the ever-evolving landscape of technology.
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Groundwater depletion causes Earth's axis to shift by 31.5 inches: Study
A recent study has uncovered a significant impact of human activity on the planet: Earth's axis has shifted by 31.5 inches (nearly 80 centimeters) due to extensive groundwater extraction. Published in the journal Geophysical Research Letters, the research highlights how large-scale pumping of groundwater has changed the distribution of Earth's mass, affecting its rotation and contributing to sea-level rise. The shift in Earth's tilt is linked to a sea-level increase of 0.24 inches, according to Popular Mechanics.
Lead researcher Ki-Weon Seo, a geophysicist at Seoul National University, explained that among climate-related factors, the redistribution of groundwater has had the most significant effect on the movement of Earth's rotational pole. The planet's tilt, or axial precession, is influenced by changes in mass distribution. As glaciers and polar ice sheets in Greenland and Antarctica melt, water migrates towards the equator, shifting the planet's balance—a phenomenon comparable to how a figure skater’s spin changes when they alter their body position.
The study examined data from 1993 to 2010, revealing that approximately 2,150 gigatons of groundwater were pumped out during this time, largely for agricultural and human consumption. This large-scale extraction has contributed to a shift in Earth's axis of about 31.5 inches.
Groundwater, which is water stored underground in soil and rock, plays a crucial role in the hydrological cycle. It originates from precipitation that seeps into the earth, replenishing natural aquifers. These aquifers are vital freshwater resources, supporting drinking water supplies, agriculture, and industry. The availability and quality of groundwater depend on natural factors like recharge rates and human activity.
While the 31.5-inch shift in Earth's axis might seem minor, the consequences could be far-reaching over geological timescales. Changes in water distribution can lead to varying sea-level changes across regions, affecting coastal areas differently. Additionally, shifts in Earth's tilt can influence its internal systems, such as the magnetic field, which acts as a shield against harmful solar radiation.
