Is mass energy equivalence wrong?
“Einstein mass–energy equivalence equation E=mc2 is wrong because does not contains Dark Matter”. Thus means for Einstein the inertial mass of an object changes if the object absorbs or emits energy. “The elementary particles contain Dark Matter”.
Did Albert Einstein say E mc2?
And the third introduced the theory of special relativity. Then, in this fourth paper, Einstein explained the relationship between energy and mass, described by E=mc2. In other words, energy equals mass times the speed of light squared.
What does the C stand for in e MC squared?
E = Energy. m = Mass. c = Speed of light. from the Latin term celeritas, which means “speed” 2 = Squared.
What does E MC stand for?
E = mc
E = mc2. It’s the world’s most famous equation, but what does it really mean? “Energy equals mass times the speed of light squared.” On the most basic level, the equation says that energy and mass (matter) are interchangeable; they are different forms of the same thing.
What was Einstein’s second mistake with his equation E=mc2?
Einstein’s second mistake with his equation was in his failure to realize that the primary meaning of E=MC 2 is that it defines the mass of the photon as the truest measure of mass. Out of convention and with no experimental verification, Einstein arbitrarily declared the photon to be a massless particle.
What is wrong with E=mc2?
E=mc2 is Wrong – Einstein’s “Special Relativity” Fundamentally Flawed. As a result of these ideas, our understanding of geometry, math, physics, science and the universe would never be the same. However, some scientists are reporting that speed of light is not constant from different experimental observations.
Does the mass of a photon affect E=mc2?
Ignoring the mass of the photon, completely changes the nature of E=MC 2 from the previous interpretation. In this case, matter still contains kinetic energy that has mass, with the exception that the kinetic energy of the photon has no mass.
How did Einstein use Planck’s constant in his experiment?
Einstein used Planck’s Constant to make the transformation between the mass of an atom and the energy of a massless photon. By failing to give the photon mass, he was unable to divide Planck’s constant into its component parts h=MλC. Planck’s constant is equal to the mass of a photon times its wavelength times the speed of light.