"Time Travelling Microscope" What is in Dental Anesthetic Viles?
"Time Travelling Microscope" What is in Dental Anesthetic Viles?
Part 1 Octocaine
Going to examen three viles of dental anesthetics. How many humans see a Dentist and have this injected into them. 10 years ago anesthetics were clean of NT. RR World Population Counter
Octocaine… First pic out of the soup 250X darfield hydrogel. RR
Is this filament suppose to be in a anesthetic? 250X darkfield. Pic taken moments after going on the slde. RR
There are many of these filaments very similar in appearance 250X darkfield. RR
So is the filaments what gives the anesthetic effect? I think not but I will ask the AI after I post all the pics for today. 250X RR
So what is the hydrogel dragging along in strait lines? Graphene Oxide ? 250X RR
Others under the micro have claimed this is Graphen Oxide. If it is not was is it? We will ask the AI. 250X darkfield RR
Now on other parts of the slide it appears the hydrogel wants to make something out of the soup. 250X darkfield RR
This is all happening minutes after landing on the slide 250X darkfield. RR
Magic in the hydrogel will see what the soup will show us after the slide starts to dry darkfield 250X. RR
All these filaments always have one thing in common crystals and graphene oxide attached. Is that where they get there energy? Has anyone ever asked if the filaments eat what do they excrete? This toxic waste must poisen the system and put a overload on the inmune system. WHY because in all fluids there loaded with filaments of this kind. Parasitic NT 250X darkfield. RR
Now this is the cool pic of the day. I hope your watching FWW put this in your collection book its free I charge nothing darkfield 250X. RR
These masses of hydrogel clumped together in irregular spheres doing what? Will see in the upcoming days 250X darkfield. RR
Dozens of these now 30 minutes or so after crash landing on the slide darkfield 250X darkfield. RR
Looks like a chemical reation. I will call it a NT reaction. Hydrogel in an anesthetic with programing in the soup and 5G modulation to make WHAT. Well others have well documented WHAT after the slides start to dry. What a great way to make a walkie talkie in a human 250X darkfild. RR
Boy this will be interesting to see what soup will make this week 250X darkfield. RR
AI questions and answers. RR
The pic number 11 was here to show the AI. It was eliminated to the substack. RR
TĂº dijiste:
Good evening TT RR
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Good evening! How's everything going today?
4o
TĂº dijiste:
Great I am looking under the micro Octocaine dental anesthetics. Should it have hydrogel? Graphene oxide? or filaments? RR
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It's great to hear you're doing well! When it comes to dental anesthetics like Octocaine, they typically contain standard ingredients such as lidocaine or articaine, along with vasoconstrictors like epinephrine to control bleeding and prolong the anesthetic's effect.
Regarding the specific substances you're asking about:
Hydrogel: This is sometimes used in biomedical applications for drug delivery or wound healing because of its ability to retain water, but it's not a typical ingredient in standard dental anesthetics. In the context of dental anesthesia, there’s no known or commonly approved use of hydrogel as an active or inactive ingredient.
Graphene oxide: This is a material often explored in cutting-edge biomedical research for its electrical and mechanical properties. However, graphene oxide is not a standard or approved ingredient in dental anesthetics like Octocaine. It’s still in experimental stages for certain medical applications but not used in common dental practices.
Filaments: If by "filaments," you're referring to microstructures or fibers used in certain high-tech applications, these are also not present in dental anesthetics. Filaments might be used in advanced materials or nanotechnology, but they do not belong to the typical formulation of anesthetics.
In summary: Dental anesthetics like Octocaine should not contain hydrogel, graphene oxide, or filaments as part of their formulation. These components aren't standard or approved for dental anesthetic use. If you're looking for specific safety or ingredient information, it’s always best to refer to the product’s official ingredients list or consult with a dental professional.
4o
TĂº dijiste:
Can you tell me then what this is? Analize this pic please? RR
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This image appears to be a microscopic view of some sort of substance or material. Based on the texture, structure, and appearance under the microscope, here are some observations:
Structure and Texture: The image shows a flowing or layered structure, with what looks like a smooth area transitioning into a more irregular, bubbled, or cellular area. The tiny circular and oval shapes could be indicative of bubbles, droplets, or cells, which is common when observing liquids or gels under a microscope.
Color and Transparency: The material seems to be transparent or semi-transparent, and it’s illuminated in a way that makes its internal structure visible. This could be typical of biological or synthetic polymers, gels, or even liquids when observed under transmitted light.
Possible Substances:
It might be a gel-like substance or something like a hydrogel, which is commonly used in medical or dental fields for wound healing or drug delivery. Hydrogels often appear semi-transparent with internal structures like bubbles or pockets.
The bubbles or droplets could indicate the presence of a liquid in a matrix or a reaction occurring within the substance.
The sharp edge on the right side could suggest the substance is being viewed at the edge of a droplet or surface, possibly during evaporation or solidification.
Interpretation: This could be an image of a hydrogel, biofilm, or a similar material under a microscope. Without additional context, it is difficult to definitively say whether it contains graphene oxide or any filaments as those would typically require much higher magnifications (like electron microscopy) to be clearly identified.
Could you provide more details about what substance this is or what its context is? That would help refine the analysis.
Could you show me what the chemical structures are in Octocaine and what they would look like under the microscope?
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Octocaine is a brand name for a local anesthetic commonly used in dentistry. The main active ingredient in Octocaine is Articaine, along with epinephrine as a vasoconstrictor to prolong its effect. Here's a breakdown of what these chemicals are and what their structures might look like under a microscope:
1. Articaine (C13H20N2O3S):
Chemical Structure: Articaine is an amide local anesthetic, and it has a specific structure with an amide bond (between the nitrogen and carbonyl group), a thiophene ring (sulfur-containing five-membered ring), and an ester group.
Microscopic Appearance: Articaine, in its pure form, is usually a white crystalline powder. Under a standard optical microscope, you would likely not see individual molecules. Crystalline forms of articaine would show crystal shapes typical of small organic compounds—perhaps needle-like or plate-like formations. At the molecular level, visualization would require advanced techniques such as X-ray crystallography or electron microscopy.
2. Epinephrine (C9H13NO3):
Chemical Structure: Epinephrine, also known as adrenaline, is a hormone and neurotransmitter. It has a catecholamine structure with a benzene ring, hydroxyl groups, and an amine side chain.
Microscopic Appearance: Epinephrine in its solid form is also typically a white or colorless crystalline powder. Under a microscope, you might observe fine particles or small crystals, though the molecular structure would not be visible at this scale.
Microscopic Appearance of Chemical Structures:
Under standard light microscopy, neither articaine nor epinephrine molecules would be visible directly. Light microscopes don't have the resolution to show molecular structures. Instead, you might see:
Crystals: Many chemical compounds form distinctive crystal patterns when solidified. The appearance of these crystals can vary depending on the compound's purity and how it was prepared.
Liquid Formulations: If you're looking at a liquid formulation (like a solution of Octocaine), it would generally appear clear under a microscope unless mixed with other substances. You might see bubbles or particles depending on impurities or preparation.
Visualization of Chemical Structures (Molecular Models):
If you’re looking for representations of the chemical structure of articaine or epinephrine at a molecular level:
Articaine has a thiophene ring, an ester side chain, and an amide group. The molecular model would show these atoms arranged in a specific three-dimensional structure.
Epinephrine has a benzene ring (catechol group) with hydroxyl groups and an amine chain, forming its typical catecholamine structure.
If you'd like, I can generate visual representations of these molecules as chemical diagrams or models. These would be schematic and not actual microscopic images since molecular structures require special visualization techniques. Would you like to see a chemical diagram or molecular model of these substances?
4o
TĂº dijiste:
Yes do it please.. Thank yo TT RR
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It seems I'm unable to generate molecular structures directly in this environment right now. However, I can describe the chemical structures of both Articaine and Epinephrine in detail, or you could visualize them using external tools like ChemDraw or online molecular viewers.
Here’s a description of their structures:
1. Articaine:
Articaine is an amide local anesthetic.
The molecule has a thiophene ring, which is a five-membered sulfur-containing ring.
There’s an amide linkage connecting the nitrogen to a carbonyl group.
It also contains an ester group that helps it metabolize faster than other anesthetics.
2. Epinephrine:
Epinephrine (adrenaline) is a catecholamine with a benzene ring, two hydroxyl groups attached (making it a catechol group), and an amine group attached to a side chain.
Its structure is simple but highly reactive, enabling it to function as a neurotransmitter.
You can visualize both molecules using software or websites like:
PubChem (for a quick look-up and visualization).
MolView (a free molecular visualization tool online).
If you’d like more assistance with external tools, feel free to ask!
WHATS THE SOLUTION? DONT INJECT ANYTHING IN YOUR BODY ONCE ITS THERE ITS THERE FOREVER! RR
Poem" Not dead" Rosas are red; I believe were not dead; Oh it's been a long year; All full of fear; Almost everybody injected; And nobody infected; Billions might die; And nobody questions why; Who is left will be sterilized; And their minds totally worldized; Is there any hope; I think not nope; Only a twinkle; And maybe a sprinkle; A handful of resistance; Might be all left in existence; RR
Hello Aminata... If you were injected with these bioweapons contact PROTOCOLS CDS /english) Marien Barrientos on telegram... Tell your story and she will try to help you. RR
Hallo R.R,thank you for your resarch.You are writing so cool,this is the pic of the day (it looks like a duck only my thoughts) and that you wouldnt charge it.Whem I read your post,I know directly you dont have any problem with graphene or hydrogel in your blooth.In case if I am wrong I would say sorry and ask for help for people are having the hydrogel with graphene inside their body/blooth.Because of the bloothvessels(made through the graphene-hydrogel) I can hardly move anymore and I had a test swab with apparently the same technologies as they call it, a blueprint that constantly produces proteins,and graphene/hydrogel its a other component it's really sick and it hurts a kill a lot of humanbeing.I need urgent help.not just pictures to look at,I've seen a lot of them now.Really help not to die from these strucures on the photos.thank you very much!