Anyway, it wraps everything up about this entire super-area:
-- Everything in that first section is sharply defined, though, and the dot anchoring the seemingly-unusual horizontal line is where a vertical line could go, which, if I'd drawn in, would free my fear so I could have traded the move.
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conclusion
When I say this is a complete super-area, the super-area development is thus:
- I mean that, at first, the sharp, initial section happened;
- then, its initial section's reaction completed;
- next, a copy to this first sub-area elongated, as in a fib count, to limit the upper and lower bounds of the super-area, the latter bounds now created from scratch;
- then, a long and thin trendline went through most of the latter portion of the super-area and,
- after a horizontal line from the first section was also reacted to -- thus, the hz represented the entire section --, the long and thin trendline was heavily reacted to;
- finally, the inside of the entire super-area, being highly developed and yet a simple shape to react to, was returned to.
Notice the shapes get average(1 (first section)), then complex(2 (reaction to first section, together the first sub-area)), then complex and big(3 (second sub-area)), then simple and big (4 TL,5 hz), then average again (6 triangle/compromise).
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p1 adj title of last section, again:
position proportion: a single fan (or other line pattern) -- >detail, area idea(s) around angle series -- >proportion, angle series and building on it, for trade to go -- >area --
p1 addition of section after the one noted above:
Sometimes, you discover where a natural area (example, posts 840-1)) is, which is optional yet beneficial:
a complete super-area, the super-area development is thus:
- I mean that, at first, the sharp, initial section happened;
- then, its initial section's reaction completed;
- next, a copy to this first sub-area elongated, as in a fib count, to limit the upper and lower bounds of the super-area, the latter bounds now created from scratch;
- then, a long and thin trendline went through most of the latter portion of the super-area and,
- after a horizontal line from the first section was also reacted to -- thus, the hz represented the entire section --, the long and thin trendline was heavily reacted to;
- finally, the inside of the entire super-area, being highly developed and yet a simple shape to react to, was returned to.
Notice in the two posts that the shapes get average(1 (first section)), then complex(2 (reaction to first section, together the first sub-area)), then complex and big(3 (second sub-area)), then simple and big (4 TL,5 hz), then average again (6 triangle/compromise).
So the problem then becomes going from one (super-)area to the next, as in a smaller timeframe finding no solid areas and only proportions in a larger timeframe's obvious trending area. A mix of proportioned and area-involved charts is expected.
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entire p1:
interpretation stimulus-response rates of pr(pattern-repetition) shapes: reason(low,lots), memory, excitation (physical), emotion(high,few)
pieces . _ (triangle) (rectangle) (curve),each with opp-copy, in a choice range of combo,multi-line,ray
assembly
assembly machines (ISBN 1185(or 3)-0-07-142957-3):
1 parts feed (orientation,separation,transfer)
2 parts joining (weld(K),rivet(screw),solder(H))
3 parts inspection (condition,parameters,presence,position)
4 functional test (capacitance,torque,pressure,decay)
5 marking (date code,model number,operation chart)
6 ejection: (in (un)control positioning)
rank -- Note angle series (or other area type) w/rectangles can run all the rest, as a pattern type..
TRIANGLE compro; hrmncs,;corner(retrace;t,2,b,u);angle series
RECTANGLE diamond;hi-lo,usdb,opp. polarity;channel twisted channel,wide r/s, pitchfork,parallel line,channel
bracket bracket, stack,puzzle-fit(mimic/counter/twist),line seg't w/opp shapes either end
count retrace,zone, count(V,H,;1,1/2, 1/3,fractal,fib),1/2->1/4->rvs rule;fib of a (gann,viral,round #s) grid
ELLIPSE cap/wave/curve,logr/f.jet/Mt.Pilot/c&h/BRR
dot 2or3btm/top,A-Eves; balance dot,+,anchor jam,logic dot(ellipl,diff't-cycle-spd overlay,diff't-lvl volat),tilde;fan(L>M,sep;w/adverse,mid-,opp-line;rect.series,TLw/e.'s,echo)
exp/cnd(area;candles rng w/add'n alap,PTbalnc);midline(midline ; midline volatility,trend centerlines,random w/midline,slices),sep.,peaks,adv trnd msr,obj's),tense/relax,adv trnd msr obj's
perfect(w/echoes,semi- gp,l.p.5),fill/empty - i/o-sep
cycle ls2,l.p.3,slanted,in-cycle
position proportion: a single fan (or other line pattern) -- >detail, area idea(s) around angle series -- >proportion, angle series and building on it, for trade to go -- >area --
1. Often, I have an area (a psych and technical chart term, here) that is obvious and not predictive.
2. With matching pattern to area type, I can select more logically from several possible pattern types on a chart selection, regardless of pattern-type rank.
3. Then I can rank several such pattern types
4. and use the higher-ranking one, given equal quality of each pattern type shown.
5. Finally, I use the projection(s) of the dominant pattern type in this section of the natural area.
Sometimes, you discover where a natural area (example, posts 840-1)) is, which is optional yet beneficial:
a complete super-area, the super-area development is thus:
- I mean that, at first, the sharp, initial section happened;
- then, its initial section's reaction completed;
- next, a copy to this first sub-area elongated, as in a fib count, to limit the upper and lower bounds of the super-area, the latter bounds now created from scratch;
- then, a long and thin trendline went through most of the latter portion of the super-area and,
- after a horizontal line from the first section was also reacted to -- thus, the hz represented the entire section --, the long and thin trendline was heavily reacted to;
- finally, the inside of the entire super-area, being highly developed and yet a simple shape to react to, was returned to.
Notice in the two posts that the shapes get average(1 (first section)), then complex(2 (reaction to first section, together the first sub-area)), then complex and big(3 (second sub-area)), then simple and big (4 TL,5 hz), then average again (6 triangle/compromise).
So the problem then becomes going from one (super-)area to the next, as in a smaller timeframe finding no solid areas and only proportions in a larger timeframe's obvious trending area. A mix of proportioned and area-involved charts is expected.
p1 condensed version:
group
1. pure-math's entity into position,
2. measures attention as to how to scale initiation of impulse,
3. times entity's impulse to align with current activity,
4. and repeats as if giving choice where there is long-time habit
5. so that attack, which was the initial goal, traps entity into (inverse) submission.
position proportion: a single fan (or other line pattern) -- >detail, area idea(s) around angle series -- >proportion, angle series and building on it, for trade to go -- >area
area (example, posts 840-1)
1. I mean that, at first, the sharp, initial section happened;
2. then, its initial section's reaction completed;
3. next, a copy to this first sub-area elongated, as in a fib count, to limit the upper and lower bounds of the super-area, the latter bounds now created from scratch;
4. then, a long and thin trendline went through most of the latter portion of the super-area and,
5. after a horizontal line from the first section was also reacted to -- thus, the hz represented the entire section --, the long and thin trendline was heavily reacted to;
6. finally, the inside of the entire super-area, being highly developed and yet a simple shape to react to, was returned to.
-- Also, the shapes get average(1 (first section)), then complex(2 (reaction to first section, together the first sub-area)), then complex and big(3 (second sub-area)), then simple and big (4 TL,5 hz), then average again (6 triangle/compromise).
area,too:
patterns, rank -- angle series (or other area type) w/rectangles highest,etc.:
TRIANGLE compro; hrmncs,;corner(retrace;t,2,b,u);angle series
RECTANGLE diamond;hi-lo,usdb,opp. polarity;channel twisted channel,wide r/s, pitchfork,parallel line,channel
bracket bracket, stack,puzzle-fit(mimic/counter/twist),line seg't w/opp shapes either end
count retrace,zone, count(V,H,;1,1/2, 1/3,fractal,fib),1/2->1/4->rvs rule;fib of a (gann,viral,round #s) grid
ELLIPSE cap/wave/curve,logr/f.jet/Mt.Pilot/c&h/BRR
dot 2or3btm/top,A-Eves; balance dot,+,anchor jam,logic dot(ellipl,diff't-cycle-spd overlay,diff't-lvl volat),tilde;fan(L>M,sep;w/adverse,mid-,opp-line;rect.series,TLw/e.'s,echo)
exp/cnd(area;candles rng w/add'n alap,PTbalnc);midline(midline ; midline volatility,trend centerlines,random w/midline,slices),sep.,peaks,adv trnd msr,obj's),tense/relax,adv trnd msr obj's
perfect(w/echoes,semi- gp,l.p.5),fill/empty - i/o-sep
cycle ls2,l.p.3,slanted,in-cycle
p1 adj:
pattern -- angle series (or other area type) w/rectangles highest rank,etc.:
TRIANGLE compro; hrmncs,;corner(retrace;t,2,b,u);angle series
RECTANGLE diamond;hi-lo,usdb,opp. polarity;channel twisted channel,wide r/s, pitchfork,parallel line,channel
bracket bracket, stack,puzzle-fit(mimic/counter/twist),line seg't w/opp shapes either end
count retrace,zone, count(V,H,;1,1/2, 1/3,fractal,fib),1/2->1/4->rvs rule;fib of a (gann,viral,round #s) grid
ELLIPSE cap/wave/curve,logr/f.jet/Mt.Pilot/c&h/BRR
dot 2or3btm/top,A-Eves; balance dot,+,anchor jam,logic dot(ellipl,diff't-cycle-spd overlay,diff't-lvl volat),tilde;fan(L>M,sep;w/adverse,mid-,opp-line;rect.series,TLw/e.'s,echo)
exp/cnd(area;candles rng w/add'n alap,PTbalnc);midline(midline ; midline volatility,trend centerlines,random w/midline,slices),sep.,peaks,adv trnd msr,obj's),tense/relax,adv trnd msr obj's
perfect(w/echoes,semi- gp,l.p.5),fill/empty - i/o-sep
cycle ls2,l.p.3,slanted,in-cycle
position: a single fan (or other low-ranking pattern) -- >detail, (mid-rank pattern) area idea(s) around angle series -- >proportion, angle series and building on it, for trade to go -- >area
1. shapes average(1 (first section)); pure-math's entity into position I mean that, at first, the sharp, initial section happened;
2. shapes complex(2 (reaction to first section, together the first sub-area)); measures attention as to how to scale initiation of impulse its initial section's reaction completed;
3. shapes complex and big(3 (second sub-area)) ; times entity's impulse to align with current activity a copy to this first sub-area elongated, as in a fib count, to limit the upper and lower bounds of the super-area, the latter bounds now created from scratch;
4. shapes simple and big (4 TL,5 hz); repeats as if giving choice where there is long-time habit a long and thin trendline went through most of the latter portion of the super-area and,
5. attack, which was the initial goal, traps entity into (inverse) submission after a horizontal line from the first section was also reacted to -- thus, the hz represented the entire section --, the long and thin trendline was heavily reacted to;
6. shapes average again (6 triangle/compromise); inside of the entire super-area, being highly developed and yet a simple shape to react to, was returned to.
area,too:
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