I wish to acknowledge the many past and present scientists and thinkers whose work laid the foundation for this website. Special gratitude is extended to Demetri Ivanovich Mendeleev, Frank W. Very, and Albert Einstein, whose courage and imagination redefines humanity’s view of matter, light, and space. I also wish to express appreciation to the countless modern researchers, engineers and programmers whose contributions to computational physics, artificial intelligence, and open scientific collaboration made this synthesis possible. I especially wish to thank the members of Chat GTP which has allowed me to further my understanding of physics. Their collective innovation represents the continuation of the same spirit that guided the pioneers of the 19th and early 20th century.
E = mc²
KE = ½ mv²
PE = mgh
ETotal = ½ mv² + mgh
Or is that all?
We will start where the:
· speed of light in the local vacuum (≈ 3.00 × 10^8 m/s)
· µ = permeability of the medium (for our local vacuum, µ0= 4π × 10^-7 H/m)
· Ɛ = permittivity of the medium (for our local vacuum, Ɛ0= 8.854 × 10^-12 F/m)
so in our local vacuum:
c = 1/√ µ0 Ɛ0 = ≈ 3.00 × 10^8 m/s
However, the correct equation for the speed of light in the universe with its proper symbols is:
c = 1/√ µ Ɛ. The speed of light is variable!
Albert Einstein published his general theory of relativity in 1915 during a series of lectures. It was subsequently published in the scientific journal Annalen der Physik on May 11 of 1916. This theory became the mainstay of evaluation of the cosmic portion of the cosmos as opposed to the infinitesimal findings of quantum mechanics. However this led to a dilemma in the physics community. The following quote describes it well, “Physicists have developed a considerable collection of mathematical procedures for turning a classical theory into a quantum one. Many theoretical physicists and mathematicians have worked on applying those standard techniques to general relativity. Calculations carried out in the 1960s and 1970s seemed to show that quantum theory and general relativity could not be successfully combined. Consequently, something fundamentally new seemed to be required, such as additional postulates or principles not included in quantum theory and general relativity, or new particles or fields, or new entities of some kind.” Scientific American, January 2004, Atoms of Space and Time, Lee Smolin
One of the postulates Einstein made was the speed of light is constant throughout the universe. This allows for calculations of cosmic observation through use of space time. This theory was established when bending of light from a star was seen during a solar eclipse on May 29, 1919, a prediction Einstein made prior to the survey. This finding, and Michelson Morley experiment performed in 1887 put an end to the theory of the ether, which was the working theory prior to these two scientific achievements. The last tone regarding the ether was published in 1919 by Frank W. Very, titled THE LUMINOUS ETHER (I) It’s relation to the electron and the universal interstellar medium; (II) Its relation to the atom.
The only stable entities in the universe are energy (It is neither created nor destroyed and is infinite). Length and time are invariable.
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