Tony Smith:
As to the time of Feynman soving the QED problem, in 1941 (according to Mehra’s Feynman biography The Beat of a Different Drum (Oxford 1994)) Feynman had the inspiration from Dirac’s paper of using the Lagrangian method, which led to Feynman’s 1942 Ph.D. thesis. As to that thesis, Mehra says “… Feynman mentioned that “the problem of the form that relativistic quantum mechanics, and the Dirac equation, take from this point of view, remains unsolved. …”. So, Feynman’s Shelter Island relativistic QED solution was developed after his 1942 Ph.D. thesis.
I must admit this morning, I woke up with some questions around non gravitational effects, and how we would see this in relation to the two body problem. Now again, I reiterate, that as a student, I am going to make mistakes, but I am equally enthralled with the idea that a "channel of movement" can exist in our perceptions, where high energy considerations where I had previously thought only the strong gravitatinal influences could exist. Now I know there is more to this then previously thought and I lay out the perception built over this
Scientific relevance of the Equivalence Principle
It is possible to ascribe two conceptually different kinds of masses to a body: an inertial mass and a gravitational mass. The inertial mass is the proportionality factor between a force (any kind of force) applied to the body and the acceleration it acquires in response to it in an inertial laboratory.The gravitational mass is a measurement of the property of the body to attract gravitationally anyother body (gravitational active mass), or to be gravitationally attracted by any other body(gravitational passive mass). Assuming the validity of the action−reaction principle (which leads toconclude that the center of mass of an isolated system must move with constant velocity in aninertial frame of reference) also implies that the gravitational passive and active mass of a bodymust be the same. Since both concepts refer to the same physical interaction, this result appears to be quite natural. The gravitational mass is the analog in a gravitational field, of the electric chargein an electric field −it can be viewed as a gravitational charge− while it has no apparent relation (in spite of the name) with the concept of inertial mass
Current experiments would have to say that our undertanding has changed a bit, by what we have currently and experimentally understood in our involvement as a measure of RHIC production, as philosphical endeavors to change what we now know?
Gravity is the missing link in Grand Unification.
Because of our uniquely poor knowledge of gravity--the weakest of all known forces-- and because gravity must have a key role in any Grand Unification theory, many aspects of gravity must be understood in greater depth and precision.
A SEE mission would improve our knowledge of a number of gravitational parameters and effects which are needed to test unification theories and various modern theories of gravity.
Science Objectives of Project SEE:Test the inverse-square law at separations of
meters the radius of the EarthTest the equivalence principle by composition differences at these separations Test for time variation of G Test for anisotropy of space and other post-Einsteinian effects
In this regard then, Langrangian perspectve in the Sun Earth relation, had some interesting perspective developements that bring satellite travel into perspective, so too our energy consumptions, for extended deep space travel, more then likely as we now "see" these relations.
Yes, I had indeed created some of the understanding that arises from Time Variable measures, and how we now percieve the earth. Not as some illustrous pearl that was the first images of mind, as John Glenn peered upon this planet, but now, through understanding and measure, we "see" the earth in new ways.
Not only having understood the lagrangian perspectve, I found some relevance to how we now "see" in the cosmo, but here now too, I can speak on the "WMAP mapping system" as a functionable reality of this lagrangian perspective, being pointed out in those same maps?
Dr Mark Haskins
Special Lagrangian geometry in particular was seen to be related to another String Theory inspired phemonenon, "Mirror Symmetry". Strominger, Yau and Zaslow conjectured that mirror symmetry could be explained by studying moduli spaces arising from special Lagrangian geometry.
This conjecture stimulated much work by mathematicians, but a lot still remains to be done. A central problem is to understand what kinds of singularities can form in families of smooth special Lagrangian submanifolds. A starting point for this is to study the simplest models for singular special Lagrangian varieties, namely cones with an isolated singularity. My research in this area ([2], [4], [6]) has focused on understanding such cones especially in dimension three, which also corresponds to the most physically relevant case.
Sure, let's be true to ourselves and others, for sure.:)
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