Paul dirac live proof of antimatter
So it made Dirac think of a solution to the problem: he proposed a theoretical model called the Dirac Sea in which he imagined that all the negative energy states were already occupied, meaning, that an electron in positive state could not tumble down to negative energy (since according to Pauli's exclusion principle, no two electrons could share a single energy state). This process could continue forever giving off an infinite amount of light!Ĭlearly, that isn't the case in the actual, stable universe real electrons do not behave in such a way. That is, an electron in a positive energy state (bound or free) should be able to emit a photon and make a transition to a negative energy state. Therefore, the negative sign in E=mc² would imply that all the electrons tumble down to infinitely large negative energy. The correct formula, he claimed, should be E=±mc², the minus sign because one has to take the square root of E²=m²c ^4, which was a subtle correction indeed.īut then, according to an axiom of physics, matter particles always tend to the state of lowest energy - for stability.
While developing his equation, Dirac realized that Einstein's famous energy-mass relation, E=mc², was only partially right. His groundbreaking equation also defined the concepts of spin and magnetic moment of electron. This just goes on to show that Paul Dirac was more of a mathematician rather than a staunch physicist.Īfter many years, in 1928, Dirac modified the Schrödinger's equation to make it agreeable with Einstein's special relativity. To him, if the equation he found had mathematical beauty, then he just assumed that he was going on the correct path. Unlike other physicists, those who insisted that revelations in physics be firmly grounded on experimental data, (and rightly so) Dirac relied heavily on mathematical consistency instead. Dirac took this challenge upon himself to find a solution for it. In other words, even though the equation was enough to describe the electronic motion at low velocity, it was yet unable to do the same at speeds approaching that of light. This is based upon Dirac's work that when matter and antimatter collide, they annihilate one another.ĭirac realized that Schrödinger's wave equation was inconsistent with special theory of relativity. What's more: his biggest discovery, prediction of anti-particle, has inspired numerous science fiction writers to create a mirror world in their stories, the collision of which with the real world, would lead to a whole lot of catastrophic activity in the lives of their characters. Even so, his work is of primary importance to electronics, especially how electrons flow in the transistor, devices which form the building blocks of any modern-day computer. Unfortunately, he never was popularized enough, in fact, hardly anyone knows anything about who he was or what he did in his scientific career. So that was a little background information on the man that was Paul Dirac. He coined the term Fermion after Italian physicist Enrico Fermi, despite him having worked on the equation which governed the behavior of Fermions. Dirac, on the other hand, was a lean, meek, shy young fellow, who suffered agonies if forced into any kind of small talk.
PAUL DIRAC LIVE PROOF OF ANTIMATTER FULL
Paul Dirac, on the other hand, an outspoken agnostic, remained true to scientific path, and went on to make many significant contributions to the theory of everything.įurthermore, while Newton was considered arrogant, too full of himself, who often made use of his authority to dismiss others' opinions.
While Newton, in his day, became much involved with pseudosciences such as alchemy he even attempted to reconcile science with faith through his writings.
Both were genius mathematicians socially awkward they made their greatest breakthroughs in their twenties both held the Lucasian chair of Mathematics at Cambridge University.īut some may consider Dirac an even greater scientist due to many reasons. For those who don't know anything about English theoretical physicist Paul Dirac: he has often been compared to one of the fathers of physics, Sir Isaac Newton.