Authors: George Rajna
A team of researchers affiliated with several institutions in China and one in Russia has devised two new ways to measure the gravitational constant.  The historic first detection of gravitational waves from colliding black holes far outside our galaxy opened a new window to understanding the universe.  Using data from the first-ever gravitational waves detected last year, along with a theoretical analysis, physicists have shown that gravitational waves may oscillate between two different forms called "g" and "f"-type gravitational waves.  Astronomy experiments could soon test an idea developed by Albert Einstein almost exactly a century ago, scientists say.  It's estimated that 27% of all the matter in the universe is invisible, while everything from PB&J sandwiches to quasars accounts for just 4.9%. But a new theory of gravity proposed by theoretical physicist Erik Verlinde of the University of Amsterdam found out a way to dispense with the pesky stuff.  The proposal by the trio though phrased in a way as to suggest it's a solution to the arrow of time problem, is not likely to be addressed as such by the physics community— it's more likely to be considered as yet another theory that works mathematically, yet still can't answer the basic question of what is time.  The Weak Interaction transforms an electric charge in the diffraction pattern from one side to the other side, causing an electric dipole momentum change, which violates the CP and Time reversal symmetry. The Neutrino Oscillation of the Weak Interaction shows that it is a General electric dipole change and it is possible to any other temperature dependent entropy and information changing diffraction pattern of atoms, molecules and even complicated biological living structures.
Comments: 22 Pages.
[v1] 2018-08-30 08:42:10
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