Categories
Physics

Max Planck – Ahead of his Time

Max Planck was a tremendously productive physicist. His work is still paying off today! The Neoclassical Physics and Quantum Gravity Model has revealed several insights that trace to the genius of Max Planck.

PREDICTIONS AND HYPOTHESES

  • The Planck units describe a possible reality that may only occur at the most compressed, densest, hottest, highest energy places in the universe.
  • A Planck particle phase may occur in galaxy center active galactic nuclei (AGN) supermassive black holes (SMBH).
  • Planck particles may or may not occur in other high energy objects and events such as blazars, quasars, black holes (BH), BH-BH mergers, Neutron star (NS) – BH mergers, NS-NS mergers, or supernovae.
  • Science already teaches that general relativity does not apply at the Planck scale. Therefore, Planck particles are not gravitationally bound and may escape a black hole.
  • Under certain conditions, Planck particles in a plasma may breach as a jet or a rupture.
  • The exposed Planck plasma INFLATES locally to the galaxy, impacting galaxy dynamics, such as rotation curves.
  • Photons and neutrinos emit from the exposed plasma.
  • Photon products experience local inflationary redshift.
  • Spacetime æther implements general relativity and Einstein’s spacetime.

CHALLENGES FOR THE FIELD OF PHYSICS

  • The galaxy local plasma breach timeline is similar to the big bang theory, and may be improved with new physics. A new body of science is needed for Planck plasma: taxonomy, breaches, reactions, products, timelines, patterns, etc.
  • Redshift science must be updated for local inflation. (Arp!)
  • The Dark Matter Theory may be solved if science can establish this narrative as being real and natural.
  • The Big Bang Theory may be falsified if science can establish this narrative as being real and natural.
  • The Cosmic Microwave Background (CMB) may be explained as the black body radiation of spacetime æther.

WIKIPEDIA
Dr. Don

The NPQG model is consistent with Dr. Don , Planck, and Mead on the Planck scale being units of natural measure, not the shortest distance or time scale possible. NPQG Planck spheres move through Euclidean space in a continuous fashion, not jumping from point to point instantaneously. It is these Planck spheres themselves which give rise to the natural measures. I suppose you could say they are the smallest possible physical measuring rod or ruler. I expect that these fundamental particles give rise to emergence that reproduces the findings of current era particle physics, such as color charge, standard matter particles, weak and strong forces, etc.

Time itself is emergent in the NPQG model. It does seem like the background space is required to be real even though it is not material. And of course there is an absolute abstract time. But there is no fundamental measuring clock for time in NPQG. It is only after some structure emerges that we can talk about the frequency of that structure and have our first physical clock. I presume that most primitive clock is one electrino and one positrino spinning around as a dipole.

J Mark Morris : San Diego : California : June 20, 2019 : v1
J Mark Morris : San Diego : California : August 21, 2020 : v2 – Dr. Don.

p.s. Pun fans: Yes the title was a pun to honor Max.

Categories
Physics

Fresh Thinking on the Cosmic Microwave Background


There are many previously unsolved problems in physics which are or will be solved using the Neoclassical Physics and Quantum Gravity (𝗡𝗣𝗤𝗚) model. In this post I’ll discuss the Cosmic Microwave Background (CMB).

The cosmic microwave background (CMB), in Big Bang cosmology, is electromagnetic radiation as a remnant from an early stage of the universe, also known as “relic radiation”. The CMB is faint cosmic background radiation filling all space. It is an important source of data on the early universe because it is the oldest electromagnetic radiation in the universe, dating to the epoch of recombination. With a traditional optical telescope, the space between stars and galaxies (the background) is completely dark. However, a sufficiently sensitive radio telescope shows a faint background noise, or glow, almost isotropic, that is not associated with any star, galaxy, or other object. This glow is strongest in the microwave region of the radio spectrum. The accidental discovery of the CMB in 1964 by American radio astronomers Arno Penzias and Robert Wilson[1][2] was the culmination of work initiated in the 1940s, and earned the discoverers the 1978 Nobel Prize in Physics.

WIKIPEDIA

As you can see from the quote above, physicists have tightly wed the measured cosmic microwave background (CMB) to the Big Bang theory. Yet in 𝗡𝗣𝗤𝗚 there is no Big Bang, and instead there are many intermittent and ongoing galaxy-local mini-bangs of Planck plasma, including galaxy-local inflation, and each of these events roughly follows the timeline of the Big Bang hypothesis.

Furthermore, physicists play fast and loose with the definition of the “vacuum,” where in some cases it is considered as mostly empty spacetime through which photons transit unimpeded and in other cases it is a roiling quantum vacuum. Let’s see if NPQG can provide a better explanation.

First some facts:

The CMB has a thermal black body spectrum at a temperature of 2.7 K.

The CMB redshift, Z, is thought by scientists to be about 1090.

WIKIPEDIA
WIKIPEDIA

Physicists believe the CMB is radiation is from the “early times” and has redshifted so much that it has a redshift of 1090, which is 100 times more than any radiation redshift we have seen from any other object or event. They believe that at emission, about 380000 years after the Big Bang, the CMB photons had a temperature of around 3000 K.

In 𝗡𝗣𝗤𝗚, the products of a Planck plasma jet or mini-bang are Planck neutrinos and Planck photons which experience rapid inflation and reactions and cooling over time. If we apply the timeline science has hypothesized, then about 380,000 years after Planck particles eject from the Planck core, the ejecta will have spread and cooled to the point where photons can escape en-masse and depart the active galactic nuclei and/or the accumulation points of plasma in jet knots and termini.

Eventually the photons cool through collisions, including the galaxy local expansions traversed on the path, until they reach what appears to be a steady-state. The 2.7 Kelvin black body spectrum of the CMB corresponds to the black body radiation spectrum of cold æther. Those æther particles have yielded their original Planck energy in a series of transactions until each æther particle is nearly tapped out of energy*.

Lastly, note that GR-QM era physicists utilize a single one-time inflation mechanism to explain the isotropy of the CMB. In 𝗡𝗣𝗤𝗚 there is no need for causal connection of the universe where variation in the cosmic microwave background is 1 part in 100000. With galaxy-local micro-bangs and galaxy-local inflation, we have a Planck process, governed by the same physics, throughout the universe. Furthermore, there appears to be some natural steady state where the æther eventually cools to a 2.7 K average**.

* Note 1: Even though each individual particle in the æther averages a very cold temperature of 2.7 K, there are so many particles per unit volume that if we can learn how to tap into the æther it can be the ultimate resource for energy and matter.

** Note 2: We have an open question in NPQG regarding the velocity of spacetime æther particles.

J Mark Morris : San Diego : California : June 20, 2019 : v1