Kolemann Lutz

• Bachelor of Science
• Faculty at Multiplanet University

Reference 1:

China unveils video of its moon base plans, which weirdly includes a NASA space shuttle, https://www.space.com/china-moon-base-international-lunar-research-station-video

Reference 2:

A render depicting future ILRS infrastructure on the moon. Azerbaijan, Pakistan and Belarus joined the project in October 2023.

Why is F=ma and not F =mv?

Physicists created first direct image of e- entangelemnt from combination of photoelectron imaging and the coincident detection of reaction fragments. Methods visually image the entanglement between electrons to produce the first images of the square of the two-electron wave function of a hydrogen (H2) molecule.(M. Waitz et al. 2018) Russell-Saunders or L-S Coupling in image outlines vector cross product of particles interacting to quantify angular momentum coupling and orbital velocity direction

Electron Spin equations and models outlined from:

Mass (kg) 6.60E-27 9.13E-31 kg

Charge, q (C) 3.20E-19 1.60E-19 Coulomb

Orbital Velocity Avg 400,000 400,000 m/s

Planck’s constant, ℏ = 1.0545717 × 10 − 34 J-s,

e- magnetic moment μB = 9.27 × 10−24 J T−1

When the electron changes levels, it decreases energy and the atom emits electromagnetic radiation in the form of 'photons'. Both energy absorption and emission events release particles. When an atom absorbs energy, its electron quasi particles move to a higher energy level and it re-emits it in a random direction. The photon-like particle is emitted with the electron moving from a higher energy level to a lower energy level. The energy of the photon is the exact energy that is lost by the electron moving to its lower energy level.

As every reaction has equal and opposite reaction,absorption and emission spectra are associated with wavelength of quanta released ?

includes carregeen moss, dulse(new red algae), kombu (brown kelp), wakame (alga), sea beans (samphire), sesa grapes, Nori from seaweed, and purslane(sea asparagus similar to sea vegatbles halophyts

Imagine an underwater apple or orange !

As opposite charges attract and similar charge spin states repel, what forces and subatomic particles balance atoms ?

Polarons can form when charges induce deformations of the surrounding medium, including local vibrational modes or dielectric polarization .Phonons (excitation association with atoms vibrations) and magnons (excitation with e- spin).

-Could polarons, phonons, and magnons also form in solid, liquid, and gases ?

- if photons comprise (say one to 1bn quasi particles), how to theoeretically experimentally detect quasi particles ?

- could photon absorption and scattering events be associates with quasi particle interactions ?

A primary difference between photons would be:

Radio waves (3 kHz to 30 GHz) have lower frequencies of all types of EMR, and their photons carry less amount of energy. Interactions with matter depends on wavelength and energy density and create EM charges with absorption or emission.

Microwaves (30-300GHz) don’t bend (diffract) around hills or mountains, they don’t reflect back from the ionosphere (Micu, 20230). With higher frequency, microwaves penetrate more than RF waves transmit data over wireless networks, to communicate with satellites and spacecraft.

With natural photons from stars and artificial photons from light sources such as bulbs, fire, some photons interact in way that appears to have slight charge.

If charge polarity gradients exist on photons emitted from light sources, charge state could be from quanta spin angular momentum, excited atoms, Electromagntism, and other factors.

Artificial Photons. With photons from light bulbs, RF, and chemical reactions, the most common types of light bulbs are incandescent bulbs, halogen bulbs, CFL bulbs, and light-emitting diode (LED), bulbs. Heating the atoms of filament, millions and billions of electrons are excited to higher energy shell levels and then simultaneously descend to lower levels, which releases photons with Energy (E=hf) that could also be electrons. Photoelectric effect is also the emission of electrons when electromagnetic radiation, such as light, hits a material.

Some found that RF photon energy is vastly smaller than an optical photon energy, which would suggest two separate particles of different size, spin state, charge, etc. Negative photons are fragments derived from electrons that are negatively charged. X-ray is a positive photon;Photons of different sizes have different masses and spin magnetic moments. negative photon speed was found to be in excellent agreement with the existing light speed constant.(Yuan, et al, 2021) Further research may help quantify polar dynamics of photonic interactions.

If radio frequency (RF) signals perturb clouds, this suggests modulated RF waves or coherent photons could separate H2O vapor droplets and possibly air molecules.With average of 5g of H2O/m^3 of cloud, uniform distribution would suggest 5000 micrograms per 1E6 cm^3 for average cloud.

Electromagnetic-radiation absorption of water is evaluated from (Lunkenheimer et al 2016) as absorption can be quantified by dielectric loss spectra via spectroscopy with EM field peaks.With five bands of cellular signal, between 698 and 2155 MHz, and radio waves primarily in VF and Very high frequency (VHF)from 30 to 300 megahertz (MHz), higher frequency radio waves are more easily absorbed by water.

Potential Effects. RF line path integrals would cross through local air or cloud gradient, which may have cascading effects outlined below.

Background. Clouds can cool the planet by reflecting the sun's rays, or warming the planet especially on cold cloudy nights. Cities interacting with regional climate can enhance local cloud cover by up to 5.7% during the day and and reduce up to 1.8% at night. diurnal urban effects on cloud cover in wintertime have been found to be more related to the regional temperature pattern. (Trang Vo, et al, 2023)

With more common signal RF transmission routes above ground infrastructure such as routers, cell towers, buildings,etc, future research and models could help quantify potential correlations

If aqueous organisms with less bone mass could be better adapted for low gravity environments than land species, how would an Octopus species adapt in aqueous and aerobic environment in (uG) microgravity ?