Sat Mar 23, 2024 11:33 pm by globalturbo
An Indian Scientist Is Creating A Piece Of The Sun On The Earth
July 23, 2022
More than ever, the globe is in need of energy. We require a lot of energy for daily tasks, such as keeping warm and cozy in our rooms, lighting our homes, and traveling to work. To address this, an Indian scientist is creating a piece of the Sun on the Earth.
A daring traveler who prefers to take undiscovered routes. A casual sketcher who likes creating new things. A bold physicist who persists in thinking she can succeed despite setbacks. A material scientist who sees trial and error as an essential component of her discipline. A lifelong learner who treasures the lessons she has gained via her persistent efforts. Sejal Shah is a scientist at the Institute for Plasma Research (IPR) in Gandhinagar. She is a part of the Indian team working with partners around the world to complete an ambitious project: building a piece of the Sun on Earth. Shah uses her knowledge of physics and material science to assist in simulating the star’s core operations, reports The Print.
More than ever, the globe is in need of energy. We require a lot of energy for daily tasks, such as keeping warm and cozy in our rooms, lighting our homes, and traveling to work. Most of our energy requirements have been satisfied by fossil fuels since the Industrial Revolution in the eighteenth century. However, they have also led to significant emissions of greenhouse gases including methane and carbon dioxide. As a result, there is an approaching climate catastrophe and global warming. We are now searching for a cleaner energy source. As it happens, the Sun might hold the key to solving our puzzle.
Numerous other stars in the universe, including our Sun, are enormous energy generators that release energy in the form of heat and light. The most prevalent element in the universe, hydrogen gas, gathers together at high temperatures to generate stars. The core temperature of stars is approximately 15,000,000°C. Hydrogen atoms start to lose their electrons, converting to plasma, an ionized state of matter. The remaining nuclei then collide extremely quickly and combine to create helium gas. The Sun and other stars are powered by a process known as nuclear fusion that produces enormous amounts of energy. The vibrant auroras in the sky represent plasma in motion, so one need not go to the stars to observe what ionized gas is capable of. They are the result of collisions between charged solar particles and gaseous particles in the Earth’s atmosphere.
It is difficult to replicate nuclear fusion as it occurs in stars on Earth. We need to figure out how to generate the blazing temperatures required for atom collisions. Additionally, we need methods for producing plasma on Earth and keeping it in a lab while the nuclei collide. In the recent decades, scientists have created unique machines called tokamaks that use a strong magnetic field to contain plasma and promote nuclear fusion events. Aditya and SST-1, two tokamaks made in India, are installed at IPR. For small- and medium-sized fusion devices, they have given an invaluable insight of plasma characteristics.
https://greatgameindia.com/india-create-sun/
Thanks to: https://greatgameindia.com
July 23, 2022
More than ever, the globe is in need of energy. We require a lot of energy for daily tasks, such as keeping warm and cozy in our rooms, lighting our homes, and traveling to work. To address this, an Indian scientist is creating a piece of the Sun on the Earth.
A daring traveler who prefers to take undiscovered routes. A casual sketcher who likes creating new things. A bold physicist who persists in thinking she can succeed despite setbacks. A material scientist who sees trial and error as an essential component of her discipline. A lifelong learner who treasures the lessons she has gained via her persistent efforts. Sejal Shah is a scientist at the Institute for Plasma Research (IPR) in Gandhinagar. She is a part of the Indian team working with partners around the world to complete an ambitious project: building a piece of the Sun on Earth. Shah uses her knowledge of physics and material science to assist in simulating the star’s core operations, reports The Print.
More than ever, the globe is in need of energy. We require a lot of energy for daily tasks, such as keeping warm and cozy in our rooms, lighting our homes, and traveling to work. Most of our energy requirements have been satisfied by fossil fuels since the Industrial Revolution in the eighteenth century. However, they have also led to significant emissions of greenhouse gases including methane and carbon dioxide. As a result, there is an approaching climate catastrophe and global warming. We are now searching for a cleaner energy source. As it happens, the Sun might hold the key to solving our puzzle.
Numerous other stars in the universe, including our Sun, are enormous energy generators that release energy in the form of heat and light. The most prevalent element in the universe, hydrogen gas, gathers together at high temperatures to generate stars. The core temperature of stars is approximately 15,000,000°C. Hydrogen atoms start to lose their electrons, converting to plasma, an ionized state of matter. The remaining nuclei then collide extremely quickly and combine to create helium gas. The Sun and other stars are powered by a process known as nuclear fusion that produces enormous amounts of energy. The vibrant auroras in the sky represent plasma in motion, so one need not go to the stars to observe what ionized gas is capable of. They are the result of collisions between charged solar particles and gaseous particles in the Earth’s atmosphere.
It is difficult to replicate nuclear fusion as it occurs in stars on Earth. We need to figure out how to generate the blazing temperatures required for atom collisions. Additionally, we need methods for producing plasma on Earth and keeping it in a lab while the nuclei collide. In the recent decades, scientists have created unique machines called tokamaks that use a strong magnetic field to contain plasma and promote nuclear fusion events. Aditya and SST-1, two tokamaks made in India, are installed at IPR. For small- and medium-sized fusion devices, they have given an invaluable insight of plasma characteristics.
https://greatgameindia.com/india-create-sun/
Thanks to: https://greatgameindia.com
