Vertical farming. Sphere or cubes as a grow platform?

First.

Surface areas If suspended.

Sphere: 3 foot radius

Cube: (google.com) both.

Sphere is 6ft wide (assuming). Even if two full cubes available 108ft^2-(18ft^2 touching sides) vs. ~113.1ft-one to x points of contact so one sphere holds more food.

Per the plant life:

It depends on the layers of edibles vs the layers of life needing chaff and unneeded removeable waste.

Instead of using pvc you use water proof wire mesh, with rings of smaller holes for the chaff like a cigar cutter that rotated to remove the chaff routinely, large enough to accommodate a growth layer, and liveable layers. You grow the foods straight outward to get the most growth—lit 360 degrees and misted either from within or out so that the water may drain away from the bottom (or put a drip wire down through the core so water cascades down it if extraneous to cycle through cleanly again), with the liveable layers flowering around it to their smallest radius. Then again, at harvest, you repeat the cutting motion and are left with pre trimmed food that takes up very little space but offers up a lot of food if the right types. You have it in sections of at least two to get to the nurbed root system. You have weighted/sized netting to separate the liveable layer from the food—the food should fall through the catchall of the livable layer.

You grow the layering to be stouter, with more of the upper two layers. Smaller to no waste layer. There are perfect ratios to be attained (not done here) to cost per unit fed to volume of product produced.

You sharpen or replace the blades periodically within the housings. Use the blade I designed as they may not break for years being so sharp.

You could also put the canister of water on it. True. (Or just a gravity feed above it with a rotating core in the center of each sphere so roots may not grow into the system that rotates randomly but feeds continuously). You hang multiple spheres in their 75% volume in a box containment value Then fill in the remaining space with smaller spheres likely with different food types if you wanted diversity or all the same for bulk–up until you reach the maximum allotment. The thing about misting is that it uses less water, makes the sphere smaller so the food can be larger. The lights just have to be sealed l.e.d.s.and the right quick grow type. The water nutrient dense.

These are all just ideas I’ve had over the past few days while I can’t sleep or am bored.

Set up the connections between electron joints so that parallel connections pattern predictably once mapped.

You do this by applying rings of electrons fast enough but not overbearing around Atoms until you find their wave functions.

Then you join them.

Then their rotational points are juiced and patterned. Cross index in 3-d. And you get a matrix for full computation within a finite space. Using atoms with differing wave functions gives you depending on whether you want to get past qubit measurements and get into the next area after that by superimposing vastly more options of travel and spin then you’ll see that not only does it go side ways and up but backwards and down as well. Start from the center or not. It just changes the speed of retaliation and production against the boundaries.

Then you can get patterns within patterns. Fractal states of information as collisions occur and you build higher function math from them.

You’d have a pyramid of carbon with an atom of oxygen fullerene in the center as an optical switch reinforced outside from the temp so there’s only needed size for photon transmission. Heat cool the inside to keep it change state between solid aNd liquid or just solid.

If solid it’s blue—supposedly best colour being the coolest. It’s easily space stable but may burn out unless super fluid. But you could lattice it as a liquid and freeze it using carbon as the cooling agent to get below superfluid state becoming optically superclear as long as the fullerene pyramids are secured and wrapped in tape or foil to not over expand and keep fluid stably inside container. But -455 is 22 times ish larger than their earth size. So you’d make crystal lattices of solid oxygen and focus the beams as well as build switching beams.

So not tiny but not huge either. 170 x 22 1700 3400 3740 pm. Per carbon. Times two 7480 pm. .007480 microns.

Oh no you wouldn’t. You’d do a radial encompassing of carbon. Not a pyramid unless tiny focus is needed. Radial allows tubular bonds and liquid oxygen superfluid construction around any angle.

Radial design.

Audio transcript:

So with the electrons of liquid oxygen cooled to the level of space which I think is negative 400 degrees so that’s at least minus 200 kelvin. So that make that a solid. You line up the electron points. Where they bond and those are your focal points. For the uh low loss high precision light switch and you can get a directional one by cycling the speed of the electron spin as they’re bonded because as they slow down because they’re a solid I don’t know if they’re going to stop or not or if they would,but you’d measure the cycle of number eight is bailable for this number of micro seconds and then it goes 7 dead (or less depending on bit rate) and then 8 again and it’ll carry it so you just ping it on number 8 it carries it around and pings it to the next part and if you wanted to you could ping it continuously all the valence electrons for oxygen or however many are avail label in the build which I think there are 2 since it’s a single atom build easier and less fractal but you could easily add more. It’s a lot of time. Once you do the timing you should be good really.

You could double bond 3 of the carbon from the oxygen and have 4 times the connection speed. It depends on what you want.

If atomic clocks can measure the state of electrons jumping 1/1836 times that will measure the speed of a photon over some distance. Assume C. Electron is 2200 km /sec /1836= 1.19825708061 so we know that the distance traveled is roughly 1.2 kilometers away so you’d have a receiver there. Node system. entanglement is roughly useful because you can have non entangled and entangled as 1/0 and as long as placement is correct they should start computing relative to outside forces. Does an entangle particle hitting another entangled particle make a quad or does it split it into four single lower states. Do the states become additive or are they reversing between each other.

You just build receivers that can take both types in either state fired from either an array a cube or sphere to and encompassing shape of a larger size that lets you translate the material into knowable mathematics.

From there if you can get change states between entangled and non that travel the same distance to be received you can create higher order math functions.

Can you Tri split a photon. Yes. Can a photon be split into it natural seven or so states of light waves. All of those are information schema. Or mathematical languages/operators if you want to base them off of straight photon is 1/0. It’s just a matter of figuring out the distances needed to travel to receive and translate. Then you take those early examples and speed them up to shorten the distance until you get any size ( high heat) photon receiving you want. But blue is probably easiest. Perhaps the liquid oxygen optical switch will help. Then you build solid optical switches in each wave length and each receiver ship, likely different distances based on wave function until you get them small enough.

Easiest way to do this is to build them on stands (rural or on top of buildings) that have no interruptions within their path, or the ability because light refracts on mass to aim it as needed. You’ll lose packets if you hit a bird, clouds or smog. Any diffusion. I wonder what the accuracy if teleportation was within. Which boundary. Probably classified.

F function determined by wavelength depth, speed. Position relative to others in series until we reach f alpha or the function asked for. Refraction plays a big part in this too.

Transmission both forwards and backwards. Hits wave length. Gather wavelength at specific point. Determine value by mapping wave lengths values in physical space as numerical weights or as percentages or what have you–some operator through the deterministic material. Wave length can continue or stop but it comes into contact with receiving layer or the function layer which accepts the photon and creates a value. Continues southward until all functions and types of functions are determined.

Here’s what the minimal estimates of humans displaced (not including population growth over ice melt duration) once Antartica melts, and then if all of the ice melts. Includes maps of coastal losses at each stage.

Basically you send out gravitational waves, which have been compensated so that they do no oscillate but remain a constant variable within a range of acceptable outputs and condense time as many times as the canister can output to compensate for the magnitudes of powers of gravity/distance shortened cubed and then reverse output to lengthen time allowing it to slow to nearly a stop or some relative speed need for entry into star system.

Basically the acceleration function is an upside down parabola:

Starting at (-5,0) the starting location and increasing acceleration of the ship at time/space compressesion, up until the y intercept. (0,6) the point where it’s reached its maximum safe and expected compression rate (compresses to a single point when viewed from the outside) and/or the mid point of travel and begins to slow down at an increasing rate until it reaches it destination of (5,0) where it can rejoin normal gravity for that area, the gravitational waves can be directed to their decay path for safe disposal, and the trip is over in relative moments while still “traveling” in normal gravity.

Since every time you enter a gravitation wave tunnel it (I think) condenses space/ time either to the power of the gravitational constant/some distance, or the sum of the powers of condensing times the number of times it’s been condensed which is much greater. So you’d need a white hole excitement field to be able to produce enough electron to withstand the forces.

Something to think about is that each time you send out gravitational wave tunnel it’ll decay so travel will need to be guided to not interfere with excitable atoms/planets, plus you’ll leave a trail.

This is not a mathematical proof but a wider view of what each of these states interact with all solvable problems based on the two major factors determining the bonds between states.

So we would have a series of problems we don’t know to ask. a new state N?NP, which moves into the realm of problems we can’t prove quickly but can be verified as technology advances N≠NP, which then moves into N=NP as technology increases in processing speed to the point where the problems are solved “quickly”. At the center of the diagram we solve all problems within a given domain/dimension instantly. Would that be N=ASI for All problem solved instantly.

I’m schizoaffective and my delusions revolve around being monitored by some group through electronics and the like.

My therapist has advised I don’t use my computer for a couple of weeks to try and clear my head. Since I draw my comic and write my books on it I haven’t had much to do.

I’m teaching myself finite mathematics and statistics on an iPad in the meantime to pass the time while I wait for the delusions to pass and for an increase in my anti psychotic medication to be approved. I still don’t know how you medicate a belief but hopefully it’ll work and I’ll stop seeing messages in my Spotify app and thinking I’m being monitored through my phone and computer. My therapist thinks that my dad building spy software for the us government has something to do with my delusions and he’s probably right.

I’ve been working on a governing theorem for an a.i. I want to build called zed that I’m going to work on while I go to school at the local community college for a mechanical engineering degree. I can only take ten hours of class and study time per week per semester so I don’t lose my disability and health insurance so it’s a slow process. I’m watching YouTube videos and finding PDFs of books to read to teach myself this stuff very slowly. I’m not a very good teacher without someone to ask questions about. It’s a very slow process but it is what it is.

I’m hoping once I get into the algebra class, (I scored one point too low to get into calculus but it’s fine), I can go to my professor and use their office hours time to learn more about probability and writing equations and functions mathematically so I can explain the hierarchy of the a.i. Before I start learning to code. I want to proof my theorems if I can.

I have so much to learn and I don’t know where to start but I know it involves machine learning and capsule networks as well as robotics and data mining and formulation.

I tend to get inventive when I’m ill and I’ve been working on this governing theorem for a couple of weeks steadily but I came up with the brunt of it last year during a moment of clarity. I won’t share it here until the theorems are complete and I have a working hierarchy to implement. It’ll be a while.

My goal is to be a high functioning bipolar schizophrenic and get back into the work force so I can work on my own projects in my free time. Disability doesn’t lend to being able to afford to do anything. I get twenty bucks per week that doesn’t go to bills in some way.

Anyway the comic will come back in a week or two depending on how badly I degrade with these new meds. Please bear with me as I’m not actively trying to go insane and be useless. Sorry for the inconvenience.

Made it to page 100! That’s my first milestone for the year. When I saw Kesh’s challenge to do 100 days of making comics on youtube I thought I would try it too, and I’ve been successful. I’m just shy of one third of the way through the year and I couldn’t be happier.

I’ll keep going until I get to the next hundred pages. I hope you’ll join me.