n.11.5.0 and n.11.5.2 - happy-fun-box - v.1.4

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Discussion:
Fuckin sweet ways to generate electricity that are logistical ludircrious.

Outline:

Example of concept




Outer Skin
Inner Skin
Box Interior
Cost Benefit Analysis
Creation - Skeleton
Creation - Primary Crystal
Creation - Box Mold
Creation - Cavity Mold
Creation - Secondary Crystal
Creation - Box's Inner skin: properties pertainin to moldability
Creation - Box's Interior
Creation - Types of Gas, Floaters, and the happy-fun-box of torment and despair
Creation - Piston for energy export
Creation - Conducting Loops for energy export

Further Applications

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

-------------/Properties of the Gas/---------------

there are different types of gas that can be used, with different configurations. the most advanced version of the happy-fun-box utilizes a gas with ferromagnetic properties. it is known as the happy-fun-box of torment and despair, and creation of the happy-fun-box of torment and despair is the ultimate goal.

Magnetic Properties of Gas:
Concept:
you could float some iron atoms in the fluid, and then make the box completely self-contained, and figure out a way to extract energy out of the magnetic field (see Equivalence). I am going to imagine an Iron atom as a loops of current with zero radius. I think that using the combination of the eletric force and special relitivity is a lot simplier than magnetic force. So you got two two magnets with parrelel axis of current are in an unstable equilibrium. this is congruent to the d attractive force / d difference from having a parrellel axis of rotation is positive if initially both axis of rotation is perpendicular to the axis of rotation. given two loops of current, if they both have a parrell axis of rotation, then the force is zero (1). if one axis is perpendicular to the connection (a) line, and the other is parrell, the force is still zero (2). therefore, if either is perpendiculat to the connection line, the force is zero. however, if both of their axis of rotations is parrellel to the axis of rotation, the force is attractive there is radial symmtry. parrallel currents attract (b), and attraction is non-linear w/ respect to distance if velocity remains the same, simply because electric force goes as 1/distance squared. thus, as the limit as radius approaches zero yeilds a positive attractive force. if the radii of rotation is anti-parallel, they repel by symmetry. since the attractive force is zero in both the parrarlell and anti parallel case where they are both parallel or antiparallel to the axis of gas rotation, and a discontiuity of force can not exist because of (3). therefore, there is an unstable equilibrium relatively adjacent current loops have a higher d force / d axis deviation because (d force /d axis) / d distance is positive because d electric force / d distance is negative. therefore, the closer the current loops the greater the 'parallel force'. thus, all fe atoms are parallel. the attractive force of the extreme distance points of two current loops is between two current lines, the attractive force, given the same current drops in a non-linear fashion with respect to distance because the length contraction is non-linear with respect to velocity (in the limit as loop radius goes to zero, both extreme points have the same velocity, as does the electric force. However, the length contraction goes to infinity slower than the square of distance (if you double velocity, !!!!!!!!!!!determines if current loop rotationis parallel or antiparrell to axis of rotation!!!!!!!!!!!!!!)

at extreme distance points, d attractive force / angular velocity is orientation of the loop-axis of rotation. the loops tend to have their axis of rotation parallel to the gas. between two adjacent loops, there is less of a repulsive force between the nearest points if one loop where to move perpendicular w/respect to the line between them in the opposite direction of electron flow at it's near point. There is always the problem that the only gas that has been shown to have ferromagnotism needs to be at 1 Kelvin. You *might* be able to have a ferromagnetic solid that is less bouyant than the gas.... Conceptually the key part of the happy-fun-box is to turn heat from it's surroundings into kinetic energy that can be harnessed. Thus if the magnets are heavy, they just have more KE relativity to magnetic moment. The key thing is to have as little friction between the inner sking and the cavity gas. Also, friction with a floating magnet(s) creates feedback heat. Floating magnets have vertical inertia to a certain degree (I think) (meaning that if you have a rotation gas of magnets, and one tries to drop, the others help to keep it up. Also, you might get some help from the KE recieving conductor and/or permanent magnet. It probably couldn't hurt to have a permanent magnet just below the box to add a replusive force non-linear w/respect to distance. I'll get in to production cost issues later on.

this is the most advanced configuration, and the intended one. this configuration is known as the happy-fun-box of torment and despair.

charged gas:
giving the fuild an initnial net chargd would eventually decay the inner fluid being a superfluid might be interesting. however, as it derives it's angular velocity by absorbtion of tempoerature, it would probably jump out of the super fluidic state. however, if it was made to be impossible, that would really be something. maybe get there by gradual contraction?

-------------------/Properties of the Gas/-------------------

-------------------/Piston for energy export/-----------------
periodic motion of permanent magnetic cylinder. a permanent magnet above the box with axis of rotation parallel to the gas would be attracted to the box, and be in a stable equilibrium with respect to deviation from deviation from axis angle (2nd derivative of attractive force with respect to deviation angle difference is negative). therefore, if it starts on one side, it will be attracted, and once it goes through the center, it will be attracted back. all the while, it's axis of rotation will be in a stable equilibrium with respect the difference in angle of rotation relative to the net angle of rotation of the magnetic gas.


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use of conducting loops instead of a permanentent magnet:
if the permanet magnet is replaced by two loopw or conductors connected by an infite number of small wires parallel to the axis of the gas (net force on all such wire is zero by symmetry), any initial current in the conductor if parallel to the axis of the gas will experience a second derivative of re-inforcment force from the gas with respect to distance as positive. thus, the closer loop with be re-inforced more. this is true when it is both above and below, and zero at zero distance. this implies the existence of a net attractive force if the two loops are above or below the zero point. this is also true if a third conductor loop, parallel to the axis of rotation for the two loops, is place half-way between the two loops (and connected to the conducting connectors. by induction, a permanent magnet has the same periodic motion. the greater the gas angular velocity, the greater the d periodic force d distance. therefor, since d angular velocity of the gas / d time is positive, the greater the periodic force, and the greater the d transfer of kinetic energy to the KER.

the second derivative of temperature difference between the gas and the outsideis negative. therefore, you don't get a runaway creation of kinetic energy in the KER. the speed of light exists; thus, any impedence of the kinetic energy receptor will create an impeding force with respect to angular velocity of the gas.
'kinetic energy receptor'



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Box:
Box/finite 3-d Structure in the ground.
about the size and shape of a tin of mixed nuts. 20cm high, and 20cm inner radius
it's orientation is as the tin would be on a super-market shelf.

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Box, exterior surface
Earth adjacent surface is an interface for thermal energy. Meaning that for any given nbd of an interface point the derivative of the difference in the taverage temperature between the set of points on either side of the surface is always negative.

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box interior
Geometry makes the fluid rotate. it's not radially symmetric
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let's suppose that the innersurface is vertically symetric along with a smooth, also vertically symmetric (by the nature that the deriviative with respect to distance from the earth is zero. limit as angle goes to zero and surface though radially symmetric looks like it has a derivative of zero with respect to, any direction perpendicular to the line of shortest distance to the center of the earth/axis of rotation of the shaft, and has a derivative of radius from the shaft of zero. suppose you make an indentation that makes the surface look like an omega (upper case, or a skin pour in a acne commercial. the second derivative of temperature for nbds of gas with respect to the box-gas interfacing surface is monotomically increasing with respect to surface area inside thaqt nbd. meaning that given any interface straddling nbd experiences a function f = derivative of temp resulting from the temp of the boxside nbd and the average temp of the gas side nbd. the derivative of f is monotomically increasing with respect to surface area. thus, inside the dimple, if the box surface is greater than the gas surface, gas nbd's will have a greater derivative of temp w/respect to time. and given that the dimple is realtively closed, you better believe that the pressure will increase as well. thus, you have a jet coming out from the dimple. bottom line: in a 2-d cross section, a dimple results in a force parallel to the radius and inward. if the dimple is actually triangular in nature, and then you make it non-isosocles, there will be an asymetriy, and thus a net force in one direction. or maybe you want a reverse dimple, like i think they use in electron microscopes. fasizle: asymmetry is radial distance creates an asymetric in force on the gas with respect to radial distance. angular asymetry creates and asymegtry with respect to angle of the force. either way, there exists a set of asymetries that will cause the gas to rotate. you stack such structure to the limit of creating a 3-d object, cap it at both ends with low friction disks perpendicular to the radial distancde to the center of the earth, and you should be in business.

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transportation of kinetic energy outside the box:
shaft:
there exists a relatively clyindrical bar or something that peirces the box. like a hotdog with the centeral axis vertical. at the interface of the box to shaft, is some grease or something that has low friction, yet maintains and air-tight seal, and does not drip attached to the shart are playing cards. orientation a finier point. gas spins, applies asymterical pressure to blades (cards), causes the shaft to spin as well at this point, the part of the shaft exterior to the box is just like the shaft extending from a turbine in a power plant, thus, you know, do the same ol thing and get some power.
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creation of the inner surface while not f'ing up the outer surface (outer surface is radially symmetric, inner is not):

***************

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getting around conservation of angular momentum:
the angular momentum of the gas is allowed to increase because its counter angular momentum is absorbed by the earth. the relative size differential should keep things cool for the time being.


iron atoms in the spinning gas could be nice. or net charge.




----------/Further Applications/--------------------

Refrigeration and Electricity in Space
the fundamental property of a happy-fun-box is to convert thermal energy to kinetic energy, and then to electric energy. Thus, it decreases the temperature of it's environment. If this is it's purpose, and you need to have a shaft, you probably want to coat it, or enclose it, in a poor heat conducting substance. I refer to this configuration as the 'hot box of limitless energy.


SuperFluid:
-super liquid (lPhonon)
-super electron sea (ePhonon)
-super magnet sea (mPhonon)
-super gas (don't know what to call a Phonon in one of these as gPhonon, so it's good I haven't heard of a super-gas yet)

Diodes
Transistors
-this combined with super-fluid-helium fun go towards the hPhonon and the Dark Crystal.


this also might be used as a self cooling device. I call this configuration the hot box of power.


--------------/Cost-Benefit Analysis/Size Matters/--------------


in case you didn't npotice, i as ommitted an aanlaysis ability to modulate voltage. I will continue to ommit that, but I will discuss a little about production costs. One key property is the supremum of KE that the gas can have. There is inheritly a minium amout of harnessable energy to be able to begin power production.
Overview:
material cost ~ cube of box radius
rate of heat transfer ~ square of surface area
supremum of KE ~ volume of cavity (cube of box radius)


i would like to ride with assumption that material science, if not now, will eventually advance to the point that the reuquired matrials will allow this device to become econimical. And it would probably require power prices stay within the top 87th percentile of standard models during the expected time-frame. However, this is a bit more than optimism. The happy-fun-box is more of a demonstration than a proposal. Implementation is not the point of this page. But if it by some miracle it is economic.. I got your ass biatch!
--------------/Cost-Benefit Analysis/Size Matters/--------------


Outer Skin
Inner Skin
Box Interior
Cost Benefit Analysis
Creation - Skeleton
Creation - Primary Crystal
Creation - Box Mold
Creation - Cavity Mold
Creation - Secondary Crystal
Creation - Box's Inner skin: properties pertainin to moldability
Creation - Box's Interior
Creation - Types of Gas, Floaters, and the happy-fun-box of torment and despair
Creation - Piston for energy export
Creation - Conducting Loops for energy export
box creation:

iterative molding process:

over the Skeleton, grow cyrstal as fractal for which it's surface will be the interface surface
emerger in box mold
solidify the fluid, now you have like a rough draft for the box
dissolve crystal
fill mold with VMF2, the Cavity Mold
grow secondary crystals on the cavity mold. there was probably a great loss of surface area in the creation of the cavity mold off of the box mold.
pour over an initial layer of a what will be the final box
while solidying, twist VMF2, and this will creat the the radial asymmetry you need.
the entire box will NOT be a solid block of uniform material. it will be designed to focus heat absorbed from it's surroundings to the jets (which do not really resemble jets anymore).



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Creation - Skeleton
cheap and reusable


Creation - Primary Crystal
fractal like structure, on the order of milli-meters, the micro-meter level detail will be provided by the secondary crystal.
must also be strong-enough to withstand the twisting process and the box mold solidifies

Creation - Box Mold
designed to be able to maintain millimeter detail, and twist while solidyfing

Creation - Cavity Mold
again, millimeter detail, and cheap and re-usable.

Creation - Secondary Crystal
this will provide the finest detail. it must withstand the heat and pressure experienced during the creation of the happy-fun-box of torment and despair's (discussed below, it is the pinnacle form of the happy-fun-box) inner surface.

Creation - Box's Inner skin: properties pertainin to moldability and heat conductivity
as it will be injecting the heat into the cavity, this will be it's primary function. HOwever, inorder to do that, it needs to have moldability as well as the level of detail in it's surface also determines the rate of heat transfer.

Specificity (featuring punkmasterfresh)

v.1.4