No More Secondhand God

4 UNIVERSAL REQUIREMENTS OF A DWELLING ADVANTAGE

4  UNIVERSAL REQUIREMENTS OF A DWELLING ADVANTAGE

i.
Teleologic Schedule

2Check list of the

3 universal design requirements

4 of a scientific dwelling facility—

5 as a component function

6 of a new world encompassing, service industry—

7 predesigned,

8 rather than haphazardly evolved,

9 which thus avoids

10 a succession of short-circuited

11 and overloaded burnouts

12 of premature, and incompetent

13 attempts to exploit the ultimate

14 and most important phase of industrialization,

15 to wit,

16 the direct application of highest potential of scientific advantage

17 toward advancement of world living standards—to be accomplished by inauguration of a comprehensive anticipatory technology

18 scientifically informed of the

19 probable variables and possible randoms—this new volition to succeed

20 the era of ‘‘survival’’—

21 that is survival-despite—

22 despite preponderant submission to ignorance—ignorance of future probabilities

23 and general behavior of nature—

24 which heretofore ‘‘survival’’ tolerated lethal opportunism,

25 wherein the progressive deteriorations bred emergencies which called upon scientific ability

26 to perform last minute miracles but

27 only as a curative dispensation of morbid inertia.

28 The universal design requirements of a scientific dwelling facility are that it accomplish comprehensive advantage for man over all primitive factors of energetic nature. The factors may be broadly classified in four parts as follows.

29 note: That I and II below are subjective and defensive and exclusive and that HI and IV Eire objective and offensive and inclusive.

30 NOTE: That I define the outer ramparts and II the inner defenses while IH represents the inner initiative-taking and IV the full grown outer offensive—conquest—contact.

31 note: That this arrangement is geometrically teleologic, i.e. omnidirectionally convergent-divergent—irreversibly propogative.

32 I. Essentially random and SUBJECTIVE phenomena

A.
Exterior variables—factors of destructive or useful potential; of nakedly intolerable magnitudes, inescapably impinging
B.
Interior variables—factors of destructive or useful potential; of nakedly intolerable magnitudes, inescapably impinging
C.
Exterior constants of relative inertia forgotten through persistent obviosity and randoiply re-encountered
II.
Essentially routine and subjective phenomena—internal TO DWELLING—PREDICTABLY PERIODIC, RHYTHMIC
A.
Inescapable functions of the organic processes, internal to dwelling and external to man
B.
Inescapable functions of the organic processes, internal to dwelling and internal to man
C.
Interior constants of relative inertia forgotten through persistent obviosity, and regularly rediscovered, e.g. furniture to be lifted with each housecleaning.
III.
Essentially random and OBJECTIVE phenomena—INTERNAL TO DWELLING—INITIATIVE, SPONTANEOUSLY INTERMITTENT—TELEOLOGIC
A.
Investment of earned increments of lifetime for free will regeneration of the advantage of life over a priori environment. Realization of man’s potentials as an individual
B.
Implemented and insulated spontaneity of feedback acceleration-continuity of the self amplifying individual
IV.
Essentially INCISIVE and routine OBJECTIVE phenomena— EXTERNAL TO DWELLING—INITIATING A SUSTAINABLE COMPLEX CONTINUITY = design realization of all men's joint potential—TELEOLOGIC
A.
Investment of earned increments of technical advantage of the science-industry complex in design realization of the complex dwelling facility service
B.
Implementation and insulation of synergetic feedback of higher order accruing to spontaneous group realizations of newly evolving potential

33 Expanded expression of those four broad classifications of universal design requirements for a dwelling facility. Original topic of broad classification not repeated and referred to only by number.

I.
A. Structural, mechanical or chemical interception and control of externally impinging factors, either by rejection, reflection, deflection, through shunting, channelling, impounding, modulating and/or retiming of volumetric flows of variable external factors of nakedly-intolerable magnitudes
i.
Immunization against aperiodic, energetic interferences—externally impinging at intolerable magnitudes and heretofore classified as ‘‘cataclysmic,’’ because exceeding the practical stress abilities of as yet available technology. However (new era essence) since accomplishment of higher physio-chemical stress abilities in, for instance, supersonic flight and snorkle submarine, the stress abilities of technology in general now far exceed the predictable stresses of the hitherto cataclysmic structural interferences—the 180 m.p.h. velocity of antarctic hurricane or Pacific typhoon is now a relatively minor aeronautical velocity-of-interaction of designed structures. External impingements are classified in the order of
34

35frequency of probable occurrence and relative magnitudes.

36 A. ‘‘Cataclysmic’’

37 Improbably annual, possibly ‘‘never,’’ and least frequent, but of highest stress when occurring

38

39

40

41

1.
earthquake
2.
tornado
3.
hurricane
4.
typhoon
5.
avalanche
6.
landslide
7.
volcanic eruption

428. bombardment

43g. forest fire

10.
tidal wave
11.
plague
12.
radio activity
13.
lethal gases
14.
B.W. (bacteriological warfare)

44

45

46

47

48

49

50

51

52 B. ‘‘Dangerous’’

53 Probably annual, or borderline ‘‘disaster’’ magnitudes

1.
gale
2.
local fire
3.
flood
4.
pestilence
5.
lightning
6.
selfishness (self-preoccupation pursued until self loses its way and self-generates fear and spontaneous random surging, i.e. panic, the plural of which is mob outburst in unpremeditated wave synchronizations of the individually random components)

54

c.
‘‘Inclement"

71 of high seasonal frequency and of low orders of stress or of naked intolerability

1.
fumes

72 9. heat

10.
cold
11.
epidemic
12.
vermin
13.
insects
14.
fungi
15.
minor random

73 missiles

2.
hail
3.
rain
4.
snow
5.
dust
6.
electrolysis
7.
oxidation
8.
vibration (noise)
2.
Rejection, or deflection for delayed or immediate use as
a.
energy, admitted into direct work as, for instance, radiation or electronic reaction, or indirectly into work as, for instance, impounded wind (aeronautical) or water (hydraulic) power
1.
piped—for direct use
2.
wired—for direct use
3.
valved—for direct or delayed use
4.
stored—in cistern, tank or battery for delayed use
5.
stored—in thermal bank or compost bins, etc.
I.
B. Dynamic Control of Internally Impinging Factors
1.
Interception of and dispellment of the momentum trends of ignorance, through incorporation of experience informing natural design replacements, realized in physical principles.
2.
Interception and neutralization of bacteria by isolation of, or by direct elimination
3.
Elimination of physical fatigue
A.
human robotism and drudgery by provision of adequate mechanics of technical advantage
4.
Elimination of psychological fatigue (repression) by
A.
removal of accident hazard through mechanical adequacy (don’t proofing)
B.
removal of arbitrary cellular limitations to permit free interaction of living functions
C.
provision for selective privacy by push-button sound, sight and smell barriers surrounding any interior space
5.
The elimination of emotional fatigue
74

75A. factors stimulating nerve reactions to be automatically controlled in ‘‘neutral’’ until voluntarily brought into play by the occupant through:

6.
Provision of mechanics for wide range in selection of means and degrees of sensible realization of the prosaic or harmonic phenomenon
A.
visual
B.
aural
C.
tactile
D.
olfactoral, i.e. taste and smell
I.
C. Control by anticipatory design over exterior constants of inertia forgotten through persistent obviosity and only randomly re-encountered
1.
Constants of environment, i.e. the mud forgotten between rains, odorous winds from remote sources, snowdrifting
2.
Control devices installed for seasonal duration only requiring inordinate time investments
3.
Chemical accumulations (oxides, sludges, fumes)
4.
Biological accumulations
A.
vegetation, composts, weed
76

77B. insect, animal residues, nestings, general growth changes

5.
Surprise emergencies of environmental complex unique to locality, i.e. possible water, oil, gas springs and seepage

78 II. A. Provision for (unselfconscious) (spontaneous) mechanical performance of inevitable organic routines of the dwelling and its occupants with minimum of invested attention or effort

1.
Fueling of

79 A. house

b.
occupant (eating) (metabolism)
2.
Realignment of house or occupants in sleep by allowed muscular, nerve and cellular realignment accomplished by designed elimination of known restrictive factors

80 5. Refusing of house or occupants

A.
internal, i.e. intestinal, etc.
B.
external, i.e. bathing or pore cleansing
c.
mental, i.e. elimination by empirical dynamics
D.
circulatory: external—atmospheric control; internal —as respiratory functions.

81 II. B. Control by anticipatory design over interior constants of relative inertia forgotten by fatigue cloture of feedback sensibilities and routinely re-encountered (such as heavy furniture to be moved about daily for cleanliness operations, storages to be overhauled to obtain the tentatively retained devices of possible or infrequent use)

1.
By provision of adequate occupational-specialty storage means
2.
By home employment of travel equipment
82

835. By dimensional reduction (e.g. of collections of large data to microfilm)

84 IH. A. Provision of ready mechanical means, complementing or implementing, all development requirements of the individual’s potential growth phenomena—allowing the facile, scientifically efficient, no-energy-or-time- loss—spontaneous development of self-disciplined education, by means of

i.
Conning, i.e. selectively stimulated awareness of the momentary interactions of universal progressions accomplished by means of facile reference to vital data on
A.
history
B.
news
C.
forecasts
85

86calls for a conning facility combining book and periodical library, radio, television facilities, systematically arranged incoming reports on

1.
current supply and demand conditions
2.
current dynamic conditions - weather - earthquakes—latest scientific research findings
87

885. social dynamics-surfacing of commonweal problems of comprehensive readjustment to new potential and concomitant obsolescence factors

4.
latest technical reference in
a.
texts
b.
movie documentation
c.
television university (soon evoluting to increasing importance and reliability as the Autonomous Dwelling Facility becomes widely available)
2.
Adequate mechanics of personal articulation (prosaic or harmonic) for the spontaneous investment of the imagination-gestating intellectual-increments of experience—(teleology) which trend ever to satisfy the evolving need—prosaic or harmonic—routine or plus. This category of original articulations also includes the necessity or crystallization of universal progress
A.
instruments and tools of communication
1.
direct
2.
indirect
3.
aural
4.
visual
5.
tactile
a.
music, writing, drawing, measuring instruments
b.
wood, metal and chemical working tools
c.
typewriter
d.
wire-tape-and-disc-all-purpose-recorder- synced radio-phonograph-filmstrip projector
e.
easel
f.
photographic equipment—taking, developing, printing, projection
3.
Recreation—appropriate equipment to full physical development
4.
Procreation

89 HI. B. Insulation, or Isolation, of the Instrumented Initiatives HI. C. Means of displaying, exposing, experimenting and measuring for progressive improvement of ‘‘target’’ or ‘‘trend to target’’ or ‘‘trend following’’ assumptions-of-realiza- tion-initiative-and-articulation—i.e. ‘‘vital navigation’’ or ‘‘teleology’’; i.e. personal and social and cosmic feedback

90

91control. The comprehensive ‘‘frames,’’ relative to which display, exposure, experiments, measurement and progressive dynamic trend assumptions may be referenced is FOURFOLD.

92 Objective Aspect

1.
Subvisible

93 Microcosmic

2.
Geo-visible

94 Geographical

95

96{Visible, near}

97 Earth

98 Subjective Aspect nuclear particles atoms molecules cells, genes crystallographic biologic sub-surface surface envelope

99 Consolidated Intellectual
Advantage, or aids

100 atomic charts, periodic, etc. spectrographic charts molecular models biological slides

101 globes, maps, geological stratification maps

102 world and local physiological data

103 spectrum charts

3.
Astro-visible Macrocosmic {Visible,

104 remote)

4.
Supravisible Comprehensive
105

106Omni- permeative

107 comets asteroids planets stars nebula

108 abstracted principles

109 radiation

110 star globes star charts

111 energetic geometry devices (vectorial, formative, transformative, number)

112 number sets group behavior phenomena

113 probability transformations

114

115independent of dimensions

116 finity and definity

117 PHASE I, INDIVIDUAL

118 IV. Realization

119

120The whole program of realization is to be considered in the following order which breaks into two primary categories or phases: (i) the initial work to be undertaken by the individual prior to his engagement of the aid of associates and (2) original and initial work to be undertaken by the first group of associates. These two phases may be subdivided as follows.

121 IV. A. Research and development by initiating individual (prior to inauguration of design action and development action involving full-time employment of others). Inauguration of a general work pattern as a natural pattern coinciding with best scientific procedure to wit: Preliminary

122 Initiation of diary and notebook

123

124Initiation of photographic documentation Initiation of tactical conferences

1.
Comprehensive library study of accrued developments within the pertinent arts *

125 * Pertinent arts to be studied by the initiating individual include:

1.
Anthropological data
2.
Energetic Geometry, the philosophy of mensuration and transformation, relative size
5.
Theory of structural exploration
4.
Theory of mechanical exploration
5.
Theory of chemical exploration
6.
Energy as structure
7.
Dwelling process as an ‘‘energy exchange’’
8.
Dwelling process as an ‘‘energy balance sheet’’
9.
Theory of structural complex
10.
Theory of service complex
11.
Theory of process complex
12.
Theory of structural and mechanical logistics
13.
Theory of complex resolution

126 a. past

B.
contemporary
2.
Listing therefrom of authorities available for further information

127 а. local, personal contact

B.
remote, correspondence
5.
Pursuant to information thus gained, calling at suggested local laboratories
A.
university
B.
industry
C.
setting up of informative tests for first hand knowledge in own laboratory
4.
First phase of design assumption
A.
consideration of novel complex interaction unique to project
B.
preferred apparatus from competitive field
C.
design of appropriate flowsheets
5.
Flowsheets submitted to
A.
those competitive specialists who have proved helpful in steps b and c
B.
industrial producers of similar equipment and assemblies
C.
make informative tests for closure of gaps supporting assumed theory
128

129б. Submit specifications and drawings of general assembly and unique component parts for informative bids by manufacturers

130A. second redesign of flowsheet based on available and suggested apparatus, price information, etc.

7.
Prepare report consisting of diary of above, supported by photographic documentation and collected literature—with trial balance conclusions of indicated economic advantage (which, if positive, will inaugurate Phase II)

131 PHASE II, COLLECTIVE

132 IV. B. Design and development undertaking—involving plural authorship phase and specialization of full-time associates. Consideration of relationship of prototype to industrial complex by constant review of principles of solution initially selected as appropriate to assumptions. Adoption of assumptions for realization in design of pertinent principles and latest technology afforded

i.
Comprehensive survey of whole sequence of operations from original undertaking to consumer synchronization
133

134Realization strategy No. i by individual (Phase I) Realization strategy No. 2 by associates (Phase II)

A.
Physical tests in principle of the design assumption’s unique inclusions not evidenced in available data
B.
General assembly drawings (schematic) providing primary assembly drawing schedule reference
C.
General assembly assumption, small scale models and mockup full size
D.
Primary assembly, sub-assembly and parts calculations (stress)
E.
Trial balance of probable parts weights and direct manufacturing costs (approximately three times material costs} includes labor, supervision and inspection) and forecast of overall cost magnitudes, and curve plotting—at various rates of production, ratioed to direct costs per part and ‘‘all other costs’’—
i.
e. ‘‘overhead’’ tool and plant ‘‘amortization’’ ‘‘contingencies,’’ ‘‘profit’’
F.
‘‘Freezing’’ of general assembly and its reference drawing
G.
Drawing for first full size production prototype commences in general assembly, primary assembly, subassembly and parts
H.
Budget of calculating and drawing time is set with tactical deadlines for each
I.
Parts drawing and full size lofting and offset patterns
J.
Prototype parts production on ‘‘soft tools’’ commences
K.
Sub-assembly and primary assemblies replace ‘‘mockup’’ parts
L.
Physical tests of parts and sub-assemblies with ‘‘obvious’’ corrections and ‘‘necessary’’ replacements (not ‘‘improvements’’ or ‘‘desirables’’ which must be deferred until second prototype is undertaken after all comprehensive physical tests have been applied)
M.
Photography of all parts and assemblies
N.
Full assembly completed and inspected—cost appraised with estimates of possible ‘‘improvement’’ savings to be effected
O.
Static load tests
P.
Operational tests
Q.
Assembly and disassembly tests
R.
Photography of all phases
S.
Packaging and shipping tests
T.
Estimates of savings to be effected by special powered field tools
U.
Opinion testing
V.
Final production ‘‘clean-up’’ prototype placed in

135 formal calculation and drawing with engineering budgeted with deadlines

136 w. Parts cost scheduled by class ‘‘A’’ tools and time

X.
Production tool layout fixed

137 Y. Production tools ordered

138 z. Production dates set

139 A'. Lofting and offsets produced of full-size-test ‘‘masters’’ and templates

140 B'. Fabrication of special jigs and fixtures

141 C'. Production materials ordered

142 D'. Production tool-jig-fixture tune-up

143 E'. Parts and assembly testing

144 F'. Field operation scheduling

145 G'. Field tools ordered

146 H'. Distribution strategy in terms of initial logistic limitations

147 I'. Field tests with special tools

148 J'. Field tools ordered or placed in special design and fabrication

149 K'. Test target area selected for first production

150 L'. Production commences

151 M'. First field assemblies with power tools

152 N'. Maintenance service instituted and complaints

1.
alleviated
2.
analyzed
3.
change orders of parts instituted

153 o'. Plans for ‘‘new’’ yearly model improvement run through all or previous steps—for original production

2.
Production and distribution velocity assumptions
3.
Plotting the assumed progressive mass-production

154 curves to determine basic velocities of new industry

4.
Tensioning by crystalline, pneumatic, hydraulic, magnetic means
5.
Compressioning by crystalline, pneumatic, hydraulic, magnetic means
6.
Consideration of manufacturer’s basic production forms—relative to proposed design components for determination of minimum steps, minimum tools, and minimum waste in realization
7.
Establishment of priority hierarchies of effort
8.
Time-and-energy-and-cost budgeting

155 g. Assumption of industry responsibility for field practices, not only in mechanical and structural, but in economic design.

10.
Designing for specific longevity of design appropriate to anticipated cycles of progressive obsolescence and replacement ability as ascertained from comprehensive economic trend curves
11.
Designing with ‘‘view to efficient screening of component chemicals for recirculated employment in later designs’’
12.
Maxima and minima stated and realized performance requirements per unit of invested energy and experience and capital advantage of tools and structures employed and devised
13.
Logistics assumptions, compacted shipping considerations as original design requirement in
A.
nesting
B.
packaging
C.
compounded package weight
D.
relationship to carriers of all types
E.
field delivery
F.
field assembly
G.
field service and replacement
14.
Consideration of tool techniques
15.
Consideration of materials’ availability
A.
at time of design
B.
in terms of world economic trends

156 c. in terms of world potential

16.
Consideration of materials ratio per total design
17.
Elimination of special operator technique forming
18.
Elimination of novel special soft tool designing
19.
Numbers of
A.
types
B.
repeat parts

157 c. sub-assemblies

D.
primary assemblies
20.
Numbers of forming operations
21.
Number of manufacturing tools by types
22.
Schedule of forming operations included on parts drawings
25.
Decimal fraction man hours per operation
24.
Designed-in over-all one-man-ability at every stage of operation
25.
Schedule of design routines and disciplines
26.
Establish a ‘‘parts’’ inventory of ‘‘active’’ and ‘‘obsolete’’ drawings—from beginning
27.
Establish a ‘‘parts’’ budget of ‘‘required’’ designs of ‘‘parts’’ for assemblies and major assembly and general assembly and molds
28.
Drawing dimension standards
29.
Establish a numbering system of controlled parts

158 jo. Establish purchasing techniques, jig and fixture, lofting techniques

159 IV. C. Public Relations

160 To run concurrently with all phases of IV. B.

161 i. Education of public

162 Rule I: Never show half-finished work

A.
General magnitude of product, production, distribution. But no particulars that will compromise latitude of scientific design and production philosophy of IV. B.
B.
Publicize the ‘‘facts,’’ i.e. the number of steps before ‘‘consumer realization’’

163 c. Understate all advantage

D.
Never seek publicity
E.
Have prepared releases for publisher requests when ‘‘facts’’ ripe
2.
Realization by Design

164 A Priori Design Realization Assumptions

165 Asking not why, whither, nor whence man-life?

166 But assuming

167 the accumulated experience evidences

168 that biological phenomena

169 in general

170 and man-life

171 in particular

172 function in universe

173 as the anti-entropic,

174 the anti-random—the simple and complex organic— the systematically convergent phases

175 of the comprehensive

176 omni energy transformations

177 and therefore industrialization

178 constitutes the comprehensive—transformative expansion

179 of the man-life function in universe—

180 and therefore the realization that man-life’s extension

181 into cosmic measurement

182 already billion-folds

183 the sensory limits of integral faculties

184 presages a further successful amplification

185 of the man-life function in universe

186 and therefore

187 that the regenerative ability of intellect

188 in extension, acceleration, and expansion

189 of the extra corporeal cosmic-functioning-stature

190 of the man-life in universe

191 is realizable

192 in comprehensive design initiative

193 relayed through industrialization

194 and therefore the function of comprehensive design

195 is most naturally and effectively

196 preoccupied with omni-abetment

197 of the realization in full

198 of the potentials of the ‘‘individual’’ complex, an organic atomic nebula

199 identified superficially as man—

200 man potential includes

201 regeneratively improving potentials

202 of sequential derivative orders

203 of increasing advantage of the organic

204 over the (random-entropic) chaos growths

205 ‘‘individual’’ man’s highest potential

206 may be realized in terms of full interaction

207 of all men’s potentials—

208 ergo man’s universal function trends

209 to amplify first the pull potential of the individual—

210 but inherently multiplicative man-life

211 therefore

212 on first priority

213 in design consideration

214 is the full realization

215 of individual potential

216 in order to reach the second derivative—

217 full realization for all individuals

218 keys to design realization

219 are the anthropological measurements,

220 of the limiting factors

221 of corporeal man,

222 beyond which extra-corporeal articulation

223 of the integral faculties

224 may be accomplished by extension in principle through atomic-complex trains, and energetic transformations

225 to cosmic stature advantage

226 universal conditions of design realization commence with the static and dynamic dimensions of man

227 and his basic behavior involvements

228 of which there exists a wealth of data

229 Typical

230 How high can he grow?

231 How high can he jump? How high can he reach? How far can he see?

232 How far can he hear?

233 How far can he smell?

234 How long can he live?

235 Etc., etc., etc.

236 Limited to Slow Change Integrally

8.
ft.

237 6 ft.

9.
ft.

238 100,000,000 m.

239 ioo m.

240 etc.

241 etc.

242 Subject to Accelerating
Change Latest
Extra- Corporeal

243 1,200 ft.

244 to the moon

245 to the sun

246 186,000 x 60 x 60 x 24 x 365 x 1 billion m.

247 1,000,000,000 m.

248 etc.

249 etc.

250 All above figures schematic only; for accurate figures see world almanacs.