E=mc2 Einstein In The Firing Line As Light Speedily Veers Off Course, Part 1-unfccc

Science In 1905, Albert Einstein issued two postulates in a document that formalized the edifice of what is now known as Special Relativity. In particular, he indicated that light should be viewed as a constant speed that is given the unique designation "c" in scientific terminology. However, astronomers and other technology professionals are identifying enormous breaches in the structure of this one hundred year old theory. If it .es to pass that the theory of Special Relativity has fundamental errors within itself, this unthinkable discovery would shatter modern physics at its center. As a consequence, related theoretical ideas would likewise be affected and would have to be reanalyzed as a result. Albert Einstein demanded in his Special Relativity Theory that the 1) laws of physics are the same in all inertial frames of reference; and that 2) the speed of light in a vacuum is a constant value ‘c’ for all observers in all inertial reference frames regardless of the motion of the light source or of the observers. Most people will be surprised to learn that a group of Sydney technologists has found a discrepancy in the constancy of light. The captain of the research team that reviewed these ideas, Mr. Webb, describes their New South Wales findings that photons of light from far away stellar sources do not follow the known theoretical predictions as they should have. Because the densely packed distant stellar object known as a quasar are a readily predictable source of information, the Wales team decided to use them as a testing ground for the constancy of light. Because quasars are located at extremely large distances measured in many multiples of light years, there is a great deal of trust in the observational data that can be gleaned from observing these bright sources of light. The behavior of the quasars left the group baffled since the observations seemed to show that the speed of light could not be constant as demanded by Albert Einstein in his groundbreaking papers of over a century ago. There Einstein dealt with a variety of issues but most importantly he left the world an outstanding mathematical legacy in the most celebrated equation E=mc2. This expression means that the energy of an object is equal to its mass multiplied by the speed of light squared and has been apparently verified by many experiments. It is without doubt the most notorious equation that has been the core construction of modern physics. This expression describes mass-energy equivalence and if the New South Wales group is correct, there could be big trouble in the little expression E=mc2. One of the team members, in fact the leader of the group Mr. Webb, intimated that it is possible, as a result of the observations and analysis conducted, that special relativity theory would have to be revised. He created a means of verifying the results by validating them against a profound mathematical analysis thereof. To perform this analysis Webb chose Mr. Davies as someone with both the breadth and intelligence to accurately interpret the .plex data. Presently a professor at Arizona State, Mr. Paul Davies had previously served at Macquarie University; he was challenged with the .plex task of evaluating and maintaining the integrity of the data, methodology and results. About the Author: 相关的主题文章: