Cuz just went to the Hospital. He was avoiding it for a week. Took all the right meds. High does of ivermectin, zinc, quercetin, Vit D. Oxegen. AntiVax household. Hate that he is in there right now. Strict orders on No Vent or Remdes. Aunt is a vaxxer and shaming them for not getting the Vax. What a web.

Auto immune issues, the body having nanobots manipulating and controlling, causing imbalance?

Or the immune sytem cannot make a distinction between the body’s own fatty lipid cell membranes compared to the fatty acid lipids that come from fatty lipid membranes that encapsulate solid lipid nanoparticle vaccines?

Fusion is the process by which two lipid bilayers merge, resulting in one connected structure. If this fusion proceeds completely through both leaflets of both bilayers, a water-filled bridge is formed and the solutions contained by the bilayers can mix. Alternatively, if only one leaflet from each bilayer is involved in the fusion process, the bilayers are said to be hemifused. Fusion is involved in many cellular processes, in particular in eukaryotes, since the eukaryotic cell is extensively sub-divided by lipid bilayer membranes. Exocytosis, fertilization of an egg by sperm activation, and transport of waste products to the lysozome are a few of the many eukaryotic processes that rely on some form of fusion. Even the entry of pathogens can be governed by fusion, as many bilayer-coated viruses have dedicated fusion proteins to gain entry into the host cell.

Absolutely love the information shared on the mac page.
Freshing and unique, Thank Q, blissing with information, creating fusion?

Viruses Or nanoparticles acting as viruses?
What kind, type of viruses?
What viruses are concerns for humans?
Where do viruses come from?
Are there viruses from nature?
Are viruses man made?

Tobacco mosaic virus was the first virus to be crystallized. It was achieved by Wendell Meredith Stanley in 1935 who also showed that TMV remains active even after crystallization.

The positive influence of ultrasound (US) on crystallization processes is shown by the dramatic reduction of the induction period, supersaturation conditions and metastable zone width. Manipulation of this influence can be achieved by changing US-related variables such as frequency, intensity, power and even geometrical characteristics of the ultrasonic device (e.g. horn type size). The volume of the sonicated solution and irradiation time are also variables to be optimized in a case-by-case basis as the mechanisms of US action on crystallization remain to be established. Nevertheless, the results obtained so far make foreseeable that crystal size distribution, and even crystal shape, can be ‘tailored’ by appropriate selection of the sonication conditions.

https://www.bitchute.com/video/fKa7EIKwtQke/

https://youtube.com/c/ZakaosBreedloveEwing

🙏🏻

Thank Q right back.
👏👏👏

https://youtu.be/XiHbyYhZDtU

❤️

Have you seen Freemason lodges in small towns or cities with large inverted pentagrams or Pentagram?

Lapis is the Latin word for "stone" and lazulī is the genitive form of the Medieval Latin lazulum, which is taken from the Arabic لازورد lāzaward, itself from the Persian لاجورد lājevard. It means "sky" or "heaven"; so this is a "sky stone" or "heaven stone". Historically, it was mined in Badakhshan region of upper Afghanistan, but also mined in Lājevard, Persia. Lazulum is etymologically related to the color blue and used as a root for the word for blue in several languages, including Spanish and Portuguese azul.

Lapis lazuli usually occurs in crystalline marble as a result of contact metamorphism

Metamorphic rocks can change without melting. Heat causes atomic bonds to break, and the atoms move and form new bonds with other atoms, creating new minerals with different chemical components or crystalline structures (neocrystallization), or enabling recrystallization.[3] When pressure is applied, somewhat flattened grains that orient in the same direction have a more stable configuration.

The term "recrystallization" broadly refers to the many metamorphic processes that change the size and/or shape of crystal formations and preserve the chemical composition and mineralogy of the original mineral. Because recrystallization accounts for the majority of all visible changes produced by neomorphism, the terms "neomorphism" and "recrystallization" implicitly allude to each other and can therefore be used interchangeably under most circumstances. In petrology, there are two forms of recrystallization: recrystallization by inversion and recrystallization by replacement.

Inversion is a complex form of neomorphism in which the recrystallization process transforms polymorphs into different polymorphs. Polymorphs, to be clear, are minerals that differ from one another in their crystalline structures but are otherwise composed of identical quantities and types of elements. As with any change in mineral structure, the alteration of polymorphs occurs most often in environments characterized by certain optimal temperatures and pressure levels. Optimal temperature and pressure levels vary in accordance to the type of mineral(s) under consideration.

Specifically, an increase in temperature incites an increase in atomic vibrations, which instigates atoms to distance themselves from each other. The excited atoms continue expanding until the increase in temperature can no longer provide the energy necessary for further expansion. Affected crystals and/or minerals are forced to adapt to the aforementioned atomic changes by expanding their skeletal structures, which results in visible changes of the aforementioned crystals and minerals. All the while, pressure continuously compresses the altered crystals and minerals into dense structures; the final product is a collection of chemically-identical crystals that differs structurally and visibly from its predecessor.

A molecular vibration is excited when the molecule absorbs energy, ΔE, corresponding to the vibration's frequency, ν, according to the relation ΔE = hν, where h is Planck's constant. A fundamental vibration is evoked when one such quantum of energy is absorbed by the molecule in its ground state. When multiple quanta are absorbed, the first and possibly higher overtones are excited.

لَازُوَرْد or لَازَوَرْد • (lāzuward or lāzaward) m

lapis lazuli

azure

😉👉🏻❤️

forwards and backwards

back and forth

Water-dispersible conjugated polymer microspheres were obtained by enwrapping with graphene oxide (GO) nanosheets. Simply mixing the polymer microspheres and GO in water results in an exclusive formation of GO-wrapped microspheres. The photoluminescence (PL) spectra of the GO-wrapped single microsphere show whispering gallery modes, in which the PL lines are broadened in comparison with bare microspheres without GO. The broadening is attributed to scattering and reabsorption of the confined PL.

Nanocarbons such as graphene and carbon nanotubes (CNTs) are materials with promising electronic and mechanical properties, such as high flexibility, high stiffness, and light weight.1 However, nanocarbons hardly disperse in a medium because of their poor solubility in both water and organic solvents, which makes it difficult to fabricate composites with other materials such as polymers.2 Recently, conjugated polymers (CPs) were found to adsorb strongly on nanocarbons via π–π interaction.3 As a result of the strong adsorption of CPs, the nanocarbon composites become highly dispersive in various organic solvents. On the other hand, graphene oxide (GO) has also received increasing attention due to its oxidizing, electron-accepting, and catalytic properties.4 Due to charged substituents such as carboxy, epoxy, and hydroxy groups at the periphery of GO, composites of GO with nanocarbons and CPs are highly dispersive in water.5

In this letter, we show that self-assembled CP microspheres can be entirely wrapped with GO. As a result of being wrapped by GO, the microspheres become dispersible in water. The GO-wrapping of the microspheres is confirmed by electron microscopy and surface potential studies, and further evidenced by micro-photoluminescence (µ-PL) spectroscopy. The whispering gallery mode (WGM) PL lines from GO-wrapped CP microspheres are noticeably broadened, possibly because of light scattering and reabsorption by the GO layers at the surface of the microspheres.