I compare things to Tesla 2020 roadsters battery pacts because it’s the only thing I’ve got to compare to. But here are my numbers after three minimizations:
Rerun on 2/24/2020
Energy: 6575298 kJ/Mole
Delta Epsilon: 282.72
Run again after jolting coordinates: Energy 6573762
Delta Epsilon: 310.07
Run once more: Energy 6571750 kJ/Mole
Delta Epsilon: 178.80
So let’s just say it’s 6570000 kJ/mol with a delta epsilon under 180 ish.
6570000kJ= 1825kWh 1 unit = 37.54953 kg
833/ 37.54953= 22.18403 units per weight replacement.
(22.18403×1825 kWh) / 200 kWh x 1000 km = 202,429.274 kilometers or 125,783.719 miles.
So if it’s feasible to build these, which I think I have a way of doing, wouldn’t they be better than lithium ion? I think them getting wet is an issue in that they would expand but shielding can be put into place.
So I mess about with simulated capacitors, whatever else I can think of, and their energy potentials and build things that may not be able to be made today, but if they were would be of use to people in the future or now if I could get a more powerful rig to show the possibilities of their derivatives. That includes magnetic monopoles. Yes. No, not in spin ice. Similar—but different enough that I could patent the suckers tomorrow and they’d be under my name. But we know that’s not my style.
So let’s play the game.
Let’s start with a little 4th Dimensional Chemistry. All you need (Currently: First Iteration [Did I mention first try].) is a Bismuth Core, Ruthenium Outer Sheath to connect the Geometry to the outer sides of what I would have to call icicles but in reality is Arsenic crystals if you want extra hydrogen joins or just optional join points. The other is a carbon crystal of the same build that offered a single Delta Epsilon of roughly 9.8 (I don’t know what that means. I’ve looked it up 4 times and it’s just not sticking. if I could ask someone I would.) for and output of 98919 kJ/mol or roughly 27 KwH. If you run electricity through them they expand violently and up the power of a single mole to roughly 150,000 kJ/mol and then return to their shape once the power is through. So perhaps useful in space where they can expand as a net to gather debris if carbide is used to bind them properly. Though the output requires a vastly larger Delta Epsilon. Hydrogen is a better carrier. They are interconnectable into a three tiered lattice. I doubt they would last too long due to the half life of arsenic being 10 Days and Ruthenium only 2 Years, but the cores can be reused if not garbage Bismuth as they have an unheavenly long half life that’s worth looking up. Go on. It’s so long and I’m so lazy. Here’s a picture of the design with no numbers because then I’d have to start up my Wacom and open the app and re run it and then snap the screen and I’m like—nah, you try it. It’s more fun that way.
So you say how do I build this? That’s easy enough, theoretically since I don’t have the tools at hand. A Bi core can be made through 3D printing or layering of gels that hold the atoms in place, if you want to get insanely technical we can do it on the space station using lasers to slow the fall of the atoms into the right places at once so they bond as needed. Doing the same for the Ruthenium and then you have a solid inert core that can have the other crystal “icicles” bonded properly as needed. Then they can be repeated as needed until you have your weave/lattice/or 3D construction. But realize if you you reverse the directions of these builds and jolt them alternating the level of power you’ll get a self walking chemical nanobot. You just divide sections by inserted inert atoms and you have lines of travel that can be independently controlled. Fun times. I’ll have to get to the monopoles—With picutres! Tomorrow. Err later today. It’s almost 2 a.m. and I need to get some sleep. Have a good Night/Day. Yours, -J.
Please go to anchor.fm/DivergentMind for the latest and greatest episodes until I can afford to upgrade my WordPress plan and get the plugin that allows something as simple as entering in a block. In the mean time here are links that all help me out to get to that goal faster.
In the Divergent Mind Episode I talk about black holes, creating my first Machine Learning Ai (I am literally at the baby steps stage but I know the parts I need to learn to get something going using scraped data.)
So this older version of a Thinktank Bag (Version 2.0) is something I inherited from my dad when he died, and he used it to carry camera gear, as I did while traveling before getting too ill to leave my house in a healthy manner. But something special is coming up. Nettio’s and my 10 year anniversary and I’m going to force myself to be out of the house at a hotel (room) —with room service— so we can have a nice time, and I don’t get sick around the other guests. She doesn’t know it but there’s a special podcast I want to do after she opens her gift, which I’ll show you all once it’s set up and going. (I hope you like it). Anyway back to my travel set up.
The bag itself comes with partitions that use hook and loop fasteners to stick to each other and the sides. I also use them to protect parts form jostling one another as you’ll see. What you can see is a kifaru pouch (also left to me in his bug out bag—which is a great hiking bag, but that’s another story.) And my Behringer Euphoria UMC 404 HD which if you want to buy can be found on my affiliates links page with a great deal for some extra cables all for a dollar more than the unit itself from other sellers. Seriously, go check it out. Be warned that the TRS cables (Those that go into the phones and instrument parts are mono and you’ll need to pick up a stereo cable for what I’ll show you later in the setup.) Then there’s what’s hidden underneath the silver partition at the top.
As you can see that’s two pairs of Stereo Behringer HPM-1000’s which are $11.99 each for a great pair of starter phones and they come with a screw off 1/4 in adapter for your interface or older generation phone or what have you. They sound great for the money. They’re incredibly light. They’re not the best of the best, but if you’re starting out the value is huge. Okay let’s see what’s below the Kifaru bag, shall we?
It’s some of that partitioning I was talking about. Extremely useful that. They logo is obscured but it’s a triple pack of Behringer 1800xm’s (I think I’m one of those sort of people that supports a brand now. Their quality has been stellar so far.) that I got for $48.00 on Amazon. That’s $16 or so dollars per mic, and they improve the quality of the cast by a large margin for a starter set. I use them for audiobook recordings and they capture emotion in a great way without any needing to add in fancy effects. I also did something special to them to make them each a bit different.
I’m green, Nettios is Pink, and our first Guest M asked for the Teal/blue one. And I have 27 others to pick from when I get bored or need to clean or replace them.
Okay the first thing you’ll need to see if you’re multi-person casting is a Phone splitter, and I had to go with Behringer again (really?! YES! It was $23 dollars and sounds excellent). So I went with their HA400 AMP. The xlr cables come with the kit in my affiliate link XPix is their brand. I spent an extra $9 for the blue slightly shortly 6 ft cable for my friend to match (Not sure of the brand). I’m sure the amazon basics XLRs are fine at under $7 each. If I get a chance to test one, I’ll let you know. Resting on top of those is the 12 volt power to the AMP—which just got me thinking of what I could add to my setup, a portable battery pack. Which I have. It’s got a US plug on it that gives three hours of straight juice, and I can charge it while running things through it. Check out Lifepowr if you want something that will outlast you. I backed them when they were just a kickstartering glimmer in someone’s eye and love the thing for it’s usefulness. They price point is high though. Just a heads up.
Anyway back to the bag. Below the 404 is a stand from a Blue Snowball Ice because that was my starter mic and a gift from Nettios attached to the Behringer mic handle for a third seated person.
On the top middle is are the miiso 1/4th to 3.55mm connector so someone with regular phones can plug into the amp and still have control. When I can afford a third set of 1000’s that’s what I’ll be buying. There’s also a 1/4th to 1/4th inch phone to AMP connector that’s beautifully short so that they stay together and they match most the cables other than the xlr’s in colour and just look dashing. Lastly is the USB cable to power my 404 into my iPad Pro (2018) 11 in through a Baseus USBC hub. 3.0 usb power is the pips.
The reason to use a camera bag other than a regular bag is that you can strap on your neewer or other arms to the side of the sucker and get going as soon as you’re done for the day. There’s been a design change in the last few years since I got my first one and bought the second one a few weeks ago. The older ones seem to handle spinning the mic a bit better, but the newer (hah!) neewers grip surfaces better. You can choose to pack your ipad into their front pouch (Or inside of course) but I like having it packed nearer to me so that I don’t lose it incase I lose the case—or the plot.
So there we have it. Three people. One set up. One bag. Good to go. Hope that helps you out.
Also you don’t have to use this exact bag. A suitcase with cardboard or pick and pluck foam would do wonders as well. Whatever your budget, do it your way.
Identification of damaging units of RNA Protease reduction at site of entry. Something to absorb the hydrolysis., or at the very least move it away from the affected areas.
The 5’ methylated CH3 chain can be blocked by using Flash Photolysis to destroy the hydrogen that cuts into the amino acid/peptide. Breaking the chain so that the methylated cap binds to itself (shown how later) leaving only C Remainder bond open for set up.
Couldnt we intercept the Triple adenine base messenger RNA with Uracil or even Guanine if they can make it through and then flash them as well if its even needed as it could become inert at that point. At which the Damaging RNA is connectionless. Just within the cell.
So what we could build is a chain of Uracil since they’re hydrogen bonding, and excite them with an extra electron and add them to the end of the adenine seeing as you need 6 hydrogen to Uricils 4 meaning you would just excite three or add in addition hydrogen as needed (so that they are no longer strong enough for hydrolysis towards the host RNA). So it’s a matter of folding the carbon in on itself through propulsed flashing and then swinging it to bond to the other end of the virus making them inert. Shaped similarly like a pringle, I suppose.
So what happens if we insert these builds into the system through a breathing device after they’ve been flashed so that the farthest depth can be reached within the body making sure that the red blood cells carry the good stuff to the damaged area, so that they reach the cells that are affected, transfer into the systems of the cells, or at least bump into them, and cause the folding from interferons doing their duty once they realize that the virus is now inert and they can take it as waste to be disposed of while alerting other cells for the same infection.
But how to do this within a syringe. Flashing seems simple enough to, rapidly done over the body. Painful and dangerous perhaps due to the weakened state of the patient. Perhaps an IV that keeps the body cool and creates a greater heat difference between the virus RNA and the cell its infecting so that they can be found and flashed without bringing the overall temperature of the human body into unsafe measures.
Then it’s a matter of developing an interferon that can be made outside the body such as within inert viruses at differing temperatures and with the inert virus folded (showing that it can be done so first) so that it knows to attack it, which is should naturally know because its an unknown. Though it may present fever which may worsen people’s respiratory infections. Then those are injected through a shot and the body takes in the interferons and teaches it to immunize against the Coronavirus.
If I had more information at hand about the complexity of it’s structure I could build a better road map. So lets call this a trial run, since I have no laboratory.