Physicists managed to identify and measure the force of gravity in the smallest mass. These calculations can answer some questions of physicists in the future.
According to Tekna technology and technology news service, despite the effect of gravity on the earth and the deflection of light, this force is very weak and if the mass of the objects is small, its absorption power is also less. So that in quantum scales it can be said that there is no force. Recently, physicists in England measured gravity on a very small object.
According to the report published in this case, the object in question is the smallest substance that has been able to show signs of gravity. “We managed to measure and record gravitational signals in the smallest mass,” says Tim Fuchs, a physicist at the University of Southampton and one of the principal researchers in the paper. The result is a great contribution to the ultimate understanding of how gravity and weight work. With the help of the new technique, masses can be made smaller and thus reach the quantum world through quantum mechanics and Newtonian gravity.
Before, it was never thought that the fields of quantum mechanics and Newtonian gravity could be related to each other at some point. Because according to quantum theories, the laws of classical physics never existed and these laws do not apply to small objects.
This important step into gravity and its appearance at the quantum scale could give scientists important clues about answering fundamental questions in physics. To carry out this research, the research team used a mass consisting of three magnets and a glass bead of 0.43 grams. Finally, this team of researchers managed to measure 30 atonetons on this small mass by creating a tantalum-type magnetic trap.
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