C-DIFF: Creating an Artificial Biome. Oral Syringe/multi pill blister packs.

Creating artificial Biome to help curtail virulent Cdiff expansion:

This could be made from large vat fermentation (if fermentation is even needed—it just makes it easier to absorb) of materials and made into pill/ oral syringe form.

Other than diarrhea dehydration combating waters with electrolytes.

will need probiotics from live yoghurt. Powdered calcium which can be made from almonds/flax/hemp or soy depending on nation/human type.

Some form of metamucile or powder ground oats, lentils, flaxseed(again glad is great) or some citrus’s.

Powdered egg/chicken or turkey.

The liquid base of the pill gel would be juiced vegetables cooked well. Beets, cucumbers, celery.

Dried powdered potatoes or bananas, white rice as a starch base.

Combining all of these in a powdered form and combining them with liquified vegetables in an oral syringe or multiple pill delivery system should slow or stop c-diff spread as outbreaks occur during upcoming heatwaves. Making the outer shells heat resistant will also be a factor. Not a doctor. Just trying to help.

Best of luck.

-J.

Creating non fissile materials that conduct electricity. Got it to roughly .5 kg at 32,356 kJ/kg. About 9 kWh. It’ll last about 10,000 years. It’ll decay to non radioactive materials wholly unless there’s bad atoms within the build.

Basic data.

Then you can recycle the crystals i designed in it by cutting them out, while the rest of the crystals have decayed into stable non reactive isotopes during the end of their life time, So unless the main handler atom becomes fissile by some other means and spontaneously fissions, which safeties can be set up for, this may be our safest bet so far.

We currently need 23 of the 201 x10^12 Terawatt-hours, so it’ll future proof the planet. ^13= 1813.2363 Terawatt-hours. Then we just add more in as needed. Plus due to its size every country can have one and we all plug in start working on the next issues like acid rains and what it’s going to do to our food supplies. They’re also not subnanometer in size as far as I can tell, though if I’m honest I was too tired to do the volume of the molecule.

Have a good night/day.

-J.

Okay after a rebuild I can get a million miles eV

I redesigned the transistor this morning and this is the mathematics I came up with:

Nine Molecule Build.
236,7107kj/mole = 657.52972222222 kWh.
833/5.54=150.36 units to replace.
657.52972222222 kWh x 150.36 = 98866.1690333 kWh
98866.1690333/3600= 27.4628 kW/Second
Assume it’s duty cycle due to heat is 15 seconds on then off to keep it easy: Keeping it at 44 C or less.
15 Seconds x 27.4628 kW/S= 411.942 kW/S
411.942 kW/S 83 unit/kWh = 4.9631 Unit/S
150 units/4.9631 units/second = 30.2230 seconds until full. So since it has to remain dormant for that long as well we double it to roughly 60.4460 seconds. Though if the person loads, waits, then loads again then its 45.2190 seconds and the person behind them has to wait 15 seconds. Time enough to pull away from the station.

Range: Getting to a million miles.
200kWh = 1000 km
98866.1690kWh/200kWhx1000km= 494,330.845km range on fill up.
1,000,000 miles = 1609344 km.
1609344/494330.845=3.2556
3.2556 x 833kg/1 ton (907.185 kg)=2.9894 tonnes at 150 x 3.2556 units = 488.34 units.
Heavy Cars and Trucks, but everything else will benefit.

How to get a Tesla charge up to 12460 kWh system while getting a range of 62,303.75 KM per charge—all in under two minutes.

My “Batteries” weight roughly 5.54kg or 12lbs meaning you can fit just over 150 units into a 2020 Roadster battery bay and keep the weight ratios the same.

So I’ve figured out how to get this done. I’m hoping people will take it seriously, so I can start working on it properly. I need access to a University so I can sit there and self study with mentor ship as needed for dumb questions I have from the lack of a formal education and what that brings—but yes, this is possible.

You may use batteries if you want, but this system doesn’t. It still allows for regenerative braking in that it slows down immediately after you take your foot off the brake but as long as there’s some charge—which a device within the pedal’s housings could do mechanically (making electrons flow into the system) you would get immediate acceleration due that sheer amount of output the devices create.

I suppose you could say it could do away with the need for batteries all together, though I assume it would be some hybrid type at first while people accept that sort of thing.

The thing is that it creates an immense amount of heat if run for a long time. But as long as there’s things are cycled properly then it can pulse energy into the system from one beginning set of batteries through the system to the opposing battery system if that’s even needed at all and it wouldn’t even feel warm to the user. It would also be usable with a 30 Amp 240 volt system as they like to use now, though I wrote that maths down somewhere on a scrap of paper and can’t seem to find it.

It does mean a change in the design of the car outright from motor driven to production driven, which may scare a few people but once they realize their car goes when they hit the pedal and slows when they hit the brake they’re not going to care either way. And if it takes two minutes to charge the device then it will cost almost nothing to charge them because you would use similar tech to replace the grid or at least update it and they could be subsidized. That much I haven’t thought on long to be honest.

Here’s hoping Elon is listening and his team take this seriously. To get 1,000,000 km
200 kWh = 1,000 km
200,000 kWh = 1,000,000 km
200,000/12460.75= 16.0504 x 150 units = 2,408 units. Weighing in at 2,408x 5.54kg = 13337.8809 kg/ 1 ton = 14.7025 tons, so useful for cargo ships, trucks, but perhaps not retail cars at the moment and retail trucks due unless their low center of gravity could be used to keep them on the road, but the tires would have to be able to handle the weight, let alone the frame. What a massive work.

Anyway, have a good night/morning.
-J

1 PicoMeter Lasers

So I think I’ve figured out a way to focus a laser to the one picometer level through some materials I’ve been told to keep to myself so that I can patent them and keep the lithography in line with the sub nanometer semiconductors, but I have started writing my paper’s outline about it—which I also have to keep under wraps so I can patent that once I have some liquid funds to get going again and then I may end up having a couple of patents to my name a chance to make a living. Now the question is do I make the call to On Semiconductor like I said I would—it wouldn’t hurt right, to get some contacts in the field while I work on stuff, since they’re just up the road from me. I’ve heard mixed reviews about their employee happiness though, even though at this point I would take a job over being on disability still. I miss being able to work and being around people. It just depends on how ill I get being around people. There’s always the possibility that I get to work at home other than coming in to do lab work. Who knows.

The issue is that I’m self taught. I’m competent but there’s so much that I don’t know that it’s staggering in a meaningful way—the problem I’ve found is that when you go looking for information learning a new material you have to either know what to look for or have a guide on what to look for. Perhaps I should hit up Khan Academy, though it’s my least favourite way to learn have rote memorization forced on you when it can just be learned naturally incrementally. Not that they’re being without some honestly great services. It’s just not how I learn.

I’ve had some good advice from a Nuclear Particle Physicist named Carl that told me to keep every thing close to the my chest until it’s all patented, which he got from a leading Biomedical developer. So that’s what I’ll have to do. It means years of inaction as I save for patent work, then getting to work in an organized manner which isn’t my best suite when life gets in the way as mum getting ill for two months did for my first patent—though I must say I got the drawings back for the first one and I must say that I’m happy with them. I hope they go through as the mechanism will literally save millions of lives once implemented. Not to mention take care of my family financially as I hope to do so.

I’m also trying to learn how to write my first scientific paper so I’ve got the outline done—which I suppose is good for a start, but since there’s little information that wasn’t cranked out by a google calculator or Wikipedia there’s not much to cite or reference and since I’m also the only author it’s not much I can do to get things sorted by myself, though Carl and an equally smart person in my life Rebecca feel that it’s a good start. So much to do and so little skill in knowing what to do without a school or a university mentor to get me to the right place. It’s just going to be a little slower I suppose.

My second book in the Memoir Series called Alternative Energy. The successor to Divergent Mind. Is almost complete as it runs through the year from one December to the next as gifts for my younger brother to look after. Got to trust someone or they die with me if the computers get stolen or broken. Six weeks left and it’s completed, though I hope to have roughly 14,000 words completed in the next two weeks so that I can complete this years Nanowrimo for fun. This is definitely my lowest word count book, with the most diagrams. But that’s just the case as it is, creating drawings and schematics instead of essays on the subject is just how I think—in pictures. I wish I could read it out loud fully with some software on the iPad but it changes to different languages throughout which is strange and unfortunate. Something to be improved upon I suppose.
Anyway have a wonderful night/day.
-J.