ambidextrous humans

JUNE 27, 2007, 12:15 am
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Subject: Interferometry is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves; this in turn can be used to explore the differences between the input waves. Because interference is a LEFT+RIGHT RESULTANT

game overInterferometry is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves; this in turn can be used to explore the differences between the input waves. Because interference is a very general phenomenon with waves, interferometry can be applied to a wide variety of fieldsSO GOV AUTO AUDIT OF 3 ENERGY TO MOVE TEND GUARD /SEC NOT RRRRRRRRFOREVER RRRRIGHTY MONOTONY s*** 1 ANSWER OF 3 + PROBABLY 2ND OR 3RD ANSWERS OR NON VIABLE SOLUTION IE A X REACH ON LEFTHAND TURF>>>???GOV HEALTHY LEFT EYE-ARM SPORTS EXERCISES/STANCE + RIGHT ARM SPORTS TOO ITS NOT HARD 1 TINY FRAGILE IDEA ION AN OCEAN OF RIGHT-HANDED SALTWATER ITS FRESH VIRGIN LIKE UNUSED UN RUN IN TO FAST REVS, REVER STIFF BORES AND BARRELS BUTS TEMPORARY/USE AIMED IT GET CLAIMED BY THE FAST BRAIN AS FEASIBLE/USE AND SUPPLYER OF ETC?? STIMULI? FACT STIMULI IMPORTANT DATA/LOOP A 2ND OPINION OF XYZ/TLIMITED NUMBER OF MOVES OR 5 FINGER TECHNIQUES AND ANGLES ALL LOOP PROCESSED/LOOPAMBIDEXTERITY INTERFEROMETRY OF 2 ENERGY IC RRRR , LLLL ,RRRL,LLLR,LLRR,RRLL,LRLR,RLRL, OR RRRR> RECOILS REGRIPS REALIGNS TO AIM IN A TIMEWINDOWS LIKE BELOW??so when i carry my skilll before i move i calibrate left calibrate right and carry both and ambidextrous windows tooi love it its l;ike human i watched it learn straight in AT THE DEEP END 0 TO BIG TOOLS AND LEARN IT FAST DOWN LOADING EXTRA DATA FROM RIGHT SKILL TRANSLATE IT TO LEFT MOTION AND USE E.G. SAFETY LOCK CHANGE POSITIONS IN LEFT OR RIGHT-HAND TRIGGER GRIPS JUST LEARN TO GO AROUND IT LEFTHANDED TOO OPENS THE DOOR TO LEFT GET IE NO USE RIGHT-HAND TO UNLOCK OPENS ITS OWN PUZZLE DOORS NO RIGHT EYE HAND ASSOCIATE???? NEW EXPLORER???? WEIRD AS THEN THERE IS 2RANDOM 2 HAND SWINGS??? SWINGS BECOME ORDERED INTO?? FAST LEAN PATHS BUT??[ SEE EASY LEAN BODY/2HAND ATTACK OR GET?]= 3 FAST PATHS/FOOT STEPS/RUN FAST?? IT LINK LOOPS AS 1 UNIT NOT AIM RRRRRRRRUN,GET??STUPID?? CHEVRONS YOU ALIGN RUN TO PICK/RIGHT THIS VANISHES AND NO LONGER INCLUDED IN MAIN THINK LOOP AUXILLIARY LOOPS ONLY RRRRRR EXTREMES ONLY AS.......................... A ........<<<< IN OUT PATH STUPID??? IN M.O.U.T. FACT GUN>....ANOTHER RRRRSTUPID IS WHEN YOU TURN AROUND MUST WALK ON OTHERSIDE OF JOB AS TURN AS JOB MAY NOT HAVE SPUN??? AND 1 HAND[XED] ONLY TO DO ON OUT??SLOWS THE POWER TRANFER DOWN??? STUPID?? FUN WHAT WOULD YOU DO RIGHT-HANDED I USED TO SPIN AND STEP JOG R.R.R.R. MY CAMERAS THIS STOPPEDSMOOTH ALTERNATE camera use e.g. aim left eye right eye choose but change mind the rrr aim picture are still loaded just fast jump target to target weird but nice fun free easy pleasure occupys the mind while auto think do / lifeSEE THE POSSIBLE 2,3 FORCES[HOW TO LAND HOW TO MOVE 2 AND PROJECT IN TRAJECTORY AT A GLANCE 2 PATHSSEE ITS COMPLEX BUT AUTO LOOK CHOOSE? BALANCE BODY 2 HEMISPHERE THINK/3 FAST PATHS?THAT DIFFERENTIATE INTO HAND METHOD/JOBS THE LEGS FOLLOW AUTO INTO ANY 1 OF 2 STANCES ONLY..THE YELLOW IS SLOW PAINED RESTRICTIVE,ED MOVES THAT HURT TO DO/MOVE/TIME
partial conclusion these windows are event/time buffers so buff 2 events gives body huge time or buff 1 ,2 events 2 handed e.g. LR OR RL vs 1 event buff buff data flow regulate??? [auto]ok right hand opens its SURVIVE WINDOW OF SHARP TOOLS FOOD SOURCES ETCBUT WONT SHARE BUT LEFT THEN GRAB A SEPARATE TOOL BUT RIGHT-HAND CANT USE THE 2 TOOLS AT ONCESO A SECOND SKILL WINDOW OPENS WITH TOOLS//////A 2ND SUPPLY>>>>>>BODY HAPPENSe.g. 100 % left use stance too 0 % rrrrrrrrrrso energy is fast reassigned in fast leftstance[leftfoot forward[50% of all footstepsd]]THE 2 WINDOWS THEN CREATE A SHARED TIME BASE IE IF LEFT TOOLING RIGHT CANT SO RIGHT DOES SOMETHING ELSE ALSO ABLE FOR FAST FREE THOUGHT NO JOB STEP2STEP 3 STEP 4 STEP WAIT SLOW LOOPS THINK FAST LOOPS FREE FROM MOVE E.G. WHAT NEXT AS LEFT TOOLS AND SELECTS NEXT TOOL WHILE LEFT STROKES>> WORKS THUS BREAKING THE RRRR WORK TIMEFRAME FIXED BY RRRRRMAX INPUT/TIME 2 HANDS = FASTER INPUT/TIME??IE = NEW FRONTIERSso technically a 3 rd window opens but this window has 2 paths i.e. enter lrlr or rlrl [hand moves][feet follow creates stance,s 21>> 1<<]so the mind processes the window on a timeshare but 2 fast path in out at a glance i.e. loop look turns over 2 hemisphere look aim on 1 cycle i.e. rrrrrtimeloopframes maybe faster[1/2 processes????]?2 eye 2 arm evolve made the software and nerve auto hardware to do this once reinitiatedits nothing to be scarred about or unknown its only you HEALTHY BODY LOOK AIM SO EXERCISES/ SPORTS BATS RAQUETTES CLUB[TENNIS GOLFS CRICKET BASEBALL ROUNDERS netball SNOOKERS AND BIT OF TOOLING POLISH AND LEFT ELBOW GREASE MAKES A GOOD LEFTARM MOVER/SEC HUGE NICE INPUT TO BRAIN AUTO GRIP FORMATTED TOOAND THE LEFT LEAN REFLEX /LEFT ARM E.G. FIRE BURN REFLEX/FAST SMOVESA AND IF IN A PANIC SITU THEN THE RIGHT-HAND HAS LESS STEPS TO PERFORM SO ANOTHER WINDOW IN TIME OPENS TOO IE RIGHTWARD RIGHT-HAND HAS FEW STEPS TO DO IN TIME SO ITS WINDOW AND THOUGHT TIME STRETCHES INCREASES LESS PROCESSING/ JOB TIME IE LESS MOVES IE A THIRD TIME SHARE WINDOW OPENS UP TOOOK YOU GET USED TO WORK PLANNING LIKE THIS AT A GLANCE 2 PATHS IN OUT STANDARD DEAL STANDARD 2 ESCAPES / EXIT PORTSPELLBOUND STARSTUCK STRANGE HUGE ENERGY SHOCKS ME POINT ME TIME TIME AGAIN I THINK A SCIENTIST WOULD LEAVE ME BEHIND MANY TIMES AS HIS MATHS KNOW WOULD BE SQUARED MAYBE CUBED[ GREY MATTER USE VOLUMES[MIND] EYE NERVE HARDWARE*NEW RESULTS UNKNOWN NEW ORBITS IE THE OTHER SPIN/STANCEAS ALL ENERGY WILL FINAL DISPLACE MY BODY WITH 2* ENERGY INSTEAD = ???? I AM A TECHNICIAN BUT ITS GREAT NOT FAIR OR R AVERAGE BLOODY GREAT FUN AND NEW BODY ENERGY FREE AND FREEI SAY AGAIN FREE THEN STARSTRUCK BOTH INNER-SHELLS FULL OF SKILL AND TECHNIQUE LIKE HELIUM ITS INERT TO OUTSIDE REACTION AND IS THE ROOT FOR HIGHER ATOMIC STRUCTURE LOGIC STRUCTURE??

so is political party interferometry possible united partys2 etc+++++uniaim uni purposemulty result,s and baxck step possible[backwards even spin alternate forward homewards
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Sent: Wednesday, June 20, 2007 9:59 AM
Subject: enquiry TAKE 2 SOURCES INTERFEROMETRY SCIENCE OF 2+WAVES SUPERIMPOSED/TIME 2 ENERGY/1BODY WILL BEHAVE APPLY DIFFERENT/2 SOURCES

EASY PEASY AUTO SUBCON DOES THIS NOT MEInterferometry is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves; this in turn can be used to explore the differences between the input waves. Because interference is a very general phenomenon with waves, interferometry can be applied to a wide variety of fieldsEG BODY SCANS/DAT IN OUTHOW TO MAKE A LIVE INTERFEROMETER THAT TRANSMITS INTAKES ALTERNATES COMBINES INTEGRATES DIFFERENTIATES [2 AMPLITUDE THINKS TRANSMITS AND RECEIVES]THE 2 +DIFFERENTIATE INTEGRATE MIX BECOME A 3RD RESULTANT ENERGY/BODYON A 4 WHEEL DRIVE BODY ALL TRAINED TO TRANSFER ENERGY IN, ION +VE >>>DRIVE<<<+VEI WAS AND AM PLEASED WITH MY NEW BODY MOVES WHERE I WAS A DARK PRISONER SUNK LEFT TO DIE DROWN AND COOK IN THE SUN AND TIDES, WINDS BUT 1 DAY I SURVIVED AND IT FLOATED GATHERING SKILL F A C T HOW DO YOU DO??Interferometry is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves;fact i can apply 2 energy/1body=more energy/body/sec FREE HANDY NICE TO DO THE NEW MOVES? FREE EASY LOAD SHAREING NON RRRRR DICTATEYOU CANT GROW ANY EXTRA BRAINCELLS SO LEFTHEMIS*RIGHTEYE-HANDED USES ALL HEMISPHERE NO FREE ROOMLEFT-HAND IS EBBED STUCK SUNK SO IS HEMISPHERE THAT DRIVES IT AIMED BUT THAT ONLY TAKES 3 MONTHS TO KICK LIFE INTO IT THEN ITS LIGHT FLOATS/LEFTSTANCE DOWNHILL>>>>>>>>>>>>>>>>> STRIKE/SECSO AS YOU START USEING THE BLANK HEMISPHERE HIGHER THINKING BECOMES LESS CLUTTERED AND MORE SKILL QUIETER MORE EFFICIENT 2> LOOP DE LOOPUSE MUCH MORE BRAIN THAN I COULD RRRRRRAND AN EMPTY CAN RATTLES LOUDER SO WHAT WAS CHAOS P[AIN BECOMES A SHARP THINKER/KNOWN PLANS AND MOVES/SEC IN THE SAME BRAIN AS YOU USE FOR RRRRRRRR RIGHT-HANDED ONLY LEFT DEAD HEAD ALL REPROGRAMMED REFORMATTED TO 1 LANGUAGE IE YOUR FORMAT E.G. 1 I WANT THAT BUT THEN 2 INSTEAD OF RRRRR <<<<<<>>>DO<<< MEANS I CAN BOUNCE IN [>IN< BOUNCE] HUGE 2+ENERGYS ITS STRANGE BUT ITS CHANGES NORMAL XYZ/TDR +DR +DRS YOU'RE MISSING A HUGE = POINT/SEC/JOB??MAYBE THE MISSING LINK SEE ITS A COMPOSITE ENERGY LINK THAT CAN BOUNCE ENERGY????
OK 2 SOURCES IE THE SAME SOURCE RIGHT ARM IS GREEDY IT GET ITS OWN SOURCES CLOSE GUARDED SO IT WONT SHARE WITH LEFT HAND SO LEFT-HAND SAID f***K AND MADE ITS OWNN SOURCES AS ITS THE BODY FORK FEEDER WHEN THE BODY WAS TIGHT GRIPPING RIGHT SOURCES FROM RIGHT HANDLOGIC SAYS SAME SOURCE BUT RIGHT-HAND HAD ITS SOURCE>>>>>>>>>>>>PICKPICK<<<<<<<<<I DISCOVERED ENERGY IN>>>>BODY<<<I CANT SAY IM NOT A DR BUT IT WORKS?? 2 SOURCES/1BODY/1 TIMESEE 1 BODY 2 ENERGY APPLY/SEC= MORE ENERGY THROUGH 1 BODY WILL PRODUCE NEW RESULTSI FOUND MY BODY WAS EVOLVED TO DO THESE SIMPLE ELEMENTARY 2 HAND SKILL MOVES IT TURNED MY ELECTRIC BRAIN ON TO NEW HIGHER LEVBELS [ LEVELS]I FOUND I HAD EASY BROKEN RECORDS/DO MY OLD MOD[PE]PERME WESTCOTT [STOPWATCH WORKSTUDY TECHNIQUES* LATHES MILLING MACHINE SHOP STUDY?? BROKEN i had to throw the old results away as 1hand dud moves 1 way 1 result etc 1 way in or out??] WORK STUDY RECORDS AS I CAN MANAGE AND SQUEEZE MORE EVENTS INTO THE SAME TIMEFRAME AS I USED TO RRRRWORK INe food i made left-hand do it/ JOB SO I CAN STARVE THE RIGHT HAND TOO????THIS IS HOW A LEFTHANDER FEEDS 100% FORK USE 100% LEFT FINGERS USE TO FEED = NO RIGHTHAND FOOD CONTACT AT ALL FEEDING LEFTHANDEDLOGIC SAYS SO?? I REALISED THE OTHER NITE EATING CHIPS NON USE RIGHT-HAND 100% OF FEED JOB==???? NEW BRAIN REWARD ALLOCATE TO ARM MOVES EVEN THE EYE REACH/FOOD TOOI USED MY LEFT-HAND 1ST TIME I FOUND A VIRGIN HAND IN A WORLD OF DANGER TOOLS EASY KNIVES SAWS ELEMENTARY SAFE TOOL USE LEARNT BUT THEN THERE S 2I FOUND NO SPECIALISED LEFTHAND TOOLS SO ITS HARDER BUT NOT IMPOSSIBLE

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http://www.metacafe.com/watch/500305/led_zeppelin_whole_lotta_love_left_hand_right_hand_ambidextrous/http://www.metacafe.com/watch/507228/egyptian_cypress_hill_rock_superstar_no_vocals_ambidextrous/VANGELIS SPIRALhttp://www.metacafe.com/watch/527835/vangelis_spiral_unique_ambidextrous_power_pyramid_chart_move_ene/http://www.metacafe.com/watch/502569/rm1x_performs_william_tell_overture_charge_of_the_light_brigade/http://www.metacafe.com/watch/500384/funky_music_the_real_thing_k_rm1x_performed_sung_blake_made_in_w/http://www.metacafe.com/watch/500400/its_not_unusual_2_be_ambidextrous_unique_2_tom_jones_sung_bla/
----- Original Message ----- HOW TO MAKE A LIVE INTERFEROMETER
HOW TO MAKE A PYRAMID OF ENERGY_..|/xxx..|/_ BY = ARM MOVES FINE DETAIL INTERFEROMETER < i did that mod[pe]YOU/SEC HOW YOU THINK WORK/ANY JOB 2 ENERGY TO USE CONSTRUXCTIVE 2ENERGY APPLY 1 AT 1 TI9ME SMOOTHER ALTERNATE IT DOES NO JARRED YOU OR YOUR EYES LIKE RIGHT-HANDED MOVES TO STANCE TO STANCE TO STANCE = 1/2 DATA AND JARRED JARRED JOG THE CAMERAS/VIEW IE THE EYES ARE MOVED ABOUT AS STANCE IS R>r>r>r>r>r EVERTIME UNNECESSARY MOVE/MOVE THE EYES= HUGE TIME DATA RESET / JOB AS YOU R RR R R R R LIMP ABOUT???I WAS THIRTY YRS OLD I WAS LIKE A VIRGIN EXPERIMENTING ALL MY SKILL IN A VIRGIN STANCE UNKNOWN BUT THE BRAIN IS A FAST HUMAN LEARNER OF NEW ELEMENTARY TASKS E.G. NEAT WRITE LEFT-HAND
IN THE BRAIN ITS FAST THINK / TOUCH-TYPE SPEEDS/ANY TOOLS OR GAME E.G. CRICKET CHANGE BATTING HANDS ON A SLOW BALL ? NO FIELDER TO COVER NEW BALL DIRECTION SURPRISED CAUGHT OUTWITTED EVERY GAMEInterferometry is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves; this in turn can be used to explore the differences between the input waves. Because interference is a very general phenomenon with waves, interferometry can be applied to a wide variety of fields, including astronomy, fiber optics, optical metrology, oceanography, seismology and various studies of quantum mechanics. Interferometry can be applied to both one-dimensional waves such as time varying signals, or to multi-dimensional waves such as coherent images produced by laser illumination.I HAD TO HOLD ON AS HARD AS I COULD BOTH HANDS AS MY BODY ENERGY ON APPLY SPEEDS INCREASED TO FULL POWER LEFT-ARM TOO ONLY 1 ARMFULL EXTRA POWER BUT ENOUGH TO OFFSET EVEN REPLACE RIGHT ARM APPLY/TIMELOGIC 2 ENERGY INTO 1 BODY WILLL FLY COMPARED TO RRRRRRRRRRWELL SIMILAR TO WALK/ A MEDIUM OF?????? I AM A TECHNICIAN ONLY BUT THE MACHINE WALKS APPLY POWER L-R-L-R-L-R-L-R WEIRD BUT TRUE AND THE DIRECTION IT SAYS TO MY BRAIN AND BACK IS FORWARD ^^^^^ THATWAY IE UP??? SOWHAT CAN I SAY AS 1 TECH I CAN FLY BUT AUTO KNOW THE AIM ANGLES AND LEFT LEAN>>>>>> SAFE WORK <interferrometry = left apply<<<<<<, >>>>>>>right applyleft apply<<<<<<, >>>>>>>right applyleft apply<<<<<<, >>>>>>>right applyleft apply<<<<<<, >>>>>>>right applyleft apply<<<<<<, >>>>>>>right applyleft apply<<<<<<, >>>>>>>right applyno reload = energy constant apply on body and job = constant accelerate over many steps eg all day long the momentum i build up in a strasight un turning work fashion becomes huge all the add add add add add add add add adds up/time on 1 body ie me??
i can loop bounce>><<><><><><><><>< huge energy not 1 arm# i can inertia bounce the accumulated speeds??
energy in>>>>>>> left>>>>right<<<<real energy not possible rrrrrr
i am not a dr 1 person but the huge energy it conducts is over 0 move resistance and fast times
and any imput input is better than a sunk stuck zombie left-handwhen learning left initaially the input is nothing gearing to super move computer righthandbut when lefthand is skilled it can bounce and pass huge extra energy and processes in known processes with know results eg drop from tree?i dont know i am omly a techniciana monkey can bounce its body weight/huge swing speeds body speeds too DESIGNED TO RACE AS FAS T AS IT CAN SO HUGE ENERGY + FLOWS THROUGH 2 ARMS GRIPS TWISTS AND FLINGSSubject: Fw: ENQUIRY I WAS TALKING OF HIGHER SENSES INTERFERROMETRY is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves; this in turn can be used to explore the differences betw

REMEMBER I WAS TALKING ABOUT 2ENERGY FAST ALTERNATE ON 1 BODY 1,2 JOB,SINTERFEROMETRYBUT THEY MUST BE SAME AMPLITUDE THE 2ENERGYS FAST BOUNCE OFF EACH OTHER AND REACT TO EACH OTHERS OPPOSITE POLES
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- http://www.myspace.com/ambidextrousplanet I AM TALKING STEREO SENSES LINKED BY LOGIC CIRCUITS OF EVOLVEleft>>>> <<<<<but with choice i can choose /stance= huge power flow speed increase on left stancesimple nand gates or hand gates A /-.. but lnand or nland hand gates nice data or unnice data choosedesired gate food,data IE UN NICE DATA IS TRASHED EG LEFTHAND AIM MOVE*STIFF PAIN NEW SOFTWARE??>>>>>right>>>> right>>>>> right<<<<< right<<< ..pg src="http://upload.wikimedia.org/wikipedia/en/6/67/NOT_Using_NAND.jpg" width=114 longDesc=/wiki/Image:NOT_Using_NAND.jpg> >>>>>left>>>>>> left<<<< <<<<I WAS TALKING OF HIGHER SENSES AND MULTY TASKING EASY ISH AT A GLANCE 2 WAYS + THROUGH THE SCIENCE OF MIXING LR RL AMBIDEXTROPUS I WAS TRYING TO SAY BRAIN BECOMES CONFUSED AND COMBINES INTEGRATES THE 2 INTO A THIRD RESULTANT VECTOR MADE OF LLRLRLLR OR RLRLR ETC STEPS THAT KNIT INTO COMPLEX LOGIC GATES MADE FROM SIMPLE NAND HAND GATES eiother it can or cant???ambidextrous Interferometry science technique of superposing (interfering) two or more waves

HOW TO MAKE A LIVIVG INTERFEROMETER EASY AUTO SUBCONSCIOUS DOES IT?..rem russian dance trance studio music mix" src="http://myspace-167.vo.llnwd.net/02033/76/16/2033746167_thumb1.jpg" width=120>?i learnt interferrometry in metrology mod{pe)Interferometry is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves; this in turn can be used to explore the differences between the input waves. Because interference is a very general phenomenon with waves, interferometry can be applied to a wide variety of fields, including astronomy, fiber optics, optical metrology, oceanography, seismology and various studies of quantum mechanics. Interferometry can be applied to both one-dimensional waves such as time varying signals, or to multi-dimensional waves such as coherent images produced by laser illumination.egyptian cypress hill ROCK SUPERSTAR AMBIDEXTROUS DEMO FILM
Interferometry is the science and technique of superposing (interfering) two or more waves, which creates an output wave different from the input waves; this in turn can be used to explore the differences between the input waves. Because interference is a very general phenomenon with waves, interferometry can be applied to a wide variety of fields, including astronomy, fiber optics, optical metrology, oceanography, seismology and various studies of quantum mechanics. Interferometry can be applied to both one-dimensional waves such as time varying signals, or to multi-dimensional waves such as coherent images produced by laser illumination.
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[edit] Interferometer
An interferometer works on the principle that two waves that coincide with the same phase will add to each other while two waves that have opposite phases will cancel each other out, assuming both have the same amplitude. Early interferometers principally used white light sources (e.g., Young's double slit experiment of 1805). Modern researchers often use monochromatic light sources like lasers, and even the wave character of matter can be exploited to build interferometers. One of the first examples of matter interferometers were electron interferometers, later followed by neutron interferometers. Around 1990 the first atom interferometers were demonstrated, later followed by interferometers employing molecules. Currently it is not clear what the maximum particle size for interferometry might be.
The highest-resolution astronomical images are produced using interferometers (at both optical and radio wavelengths). In order to perform interferometric imaging in optical astronomy at least three telescopes are required (more are preferred). One familiar use of the technique is in radio and optical interferometer telescopes.
WM TOO GOOD AN INTERFACE TO BE FORGOTTEN WHY L + R THEN THERE IS 2 INTERFACES DATA INB OUTY/SECWEB M THIS IS NOT SPAM BUT A GROWING IDEA/LIVE COMPUTER CAMERA MICROPHONE XYZ/T FEEL/ A CRANE HAND NAND GATE OUT IN IMPORTANT TO OTHER LOGIC GATES/REV
----- Original Message -----
From: BLAKE HANO
To: sundayhs@hwt.newsltd.com.au ; newsonline.wales@bbc.co.uk ; newsdesk@theage.com.au ; newsdesk@smh.com.au ; news@itvwales.com ; news@itv.com ; news@heraldsun.com.au ; New Scientist Enquiries ; mercuryedletter@dbl.newsltd.com.au ; mercury.sport@dbl.newsltd.com.au
Sent: Wednesday, June 13, 2007 8:47 AM
Subject: NEWS ENQUIRY PICK HAND>>>>>JOB<<<<

Subject: ENQUIRY PICK HAND>>>>>JOB<<<<

HOPE PICTURES SURVIVE @SEND JUST NAND GATES,& LOGIC CONSTRUCTS/METHOD L---R 2 INPUT L--R B--A /CHOICE L---BODY---R B---BODY---A IN OUT GREAT DATA FORT A SCIENTIST /SEC 2 HEMISPHERE EYE LOGIC SUBCONSCIOUS DO ONLY

Q/A Q..A 2 WAYS TO ANSWER A QUESTION SIMPLE ANSWER PICK LEFT= RIGHT NO PICK OR EXPIRE ENERGY OR USE STANCE IE NEW STANCE= NEW LOOK ANGLE AND WAY COMPUTE/KNOWN LEFT PATH?? you know workstudy flow charts/method blown away as much fasterdear gsi much faster load/2 effort/2 look at paths belowthese new paths LLLLLLLL BECOMES ESTABLISHED BUT ALSO 2 LRLR OR RLRL BECOME ESTABLISHED/SEC SIMPLE 1 MOVE CHOICES BECOME EASY I CAN USE THE GATES GIVE OR TAKE AND DESIRED OBJECT?? ETC IE MORE, ENERGY IN DESIRED FACT/S >>>>right Q,A? <<

left>>>> <<<<<but with choice i can choose /stance= huge power flow speed increase on left stancesimple nand gates or hand gates A /-.. but lnand or nland hand gates nice data or unnice data choosedesired gate food,data>>>>>right>>>> right>>>>> right<<<<< right<<< >>>>>left>>>>>> left<<<< <<<<o.k. but this becomes easy/KNOWN ROUTES AM-NZ DIFFERENTIATED FOR COMFORT / MOVE EASY REACH/BODY..REACH DATAS IN OUT? EASY AUTO ELECTRIC/KNOWN PROCESS/KNOWN RESULT
VERY HANDY NO WALK PICK RRRRRRRR/RRRRRR/1STANCE = PICK ON BOTH STEPS FULL HOUSE?
fine detail <<<<

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but alternate or direct 2 or LLLLL or RRRRR only logic limited results/move/stance fine detail<<<<<< ok with 2 hands and 2 ways *eyes you can do this from simple nand,HAND GATES J right-hand WILL CHOOSE LEFT 0% 50% 100% OF JOB DO J O 2 eyes ALWAYS 100% OB left-hand WILL CHOOSE 0% 50% OR 100% OF JOB BTHIS SIMPLE USE OF EASY REACH CHOICE AND Manage 2 hands/secwill construct more complex gates / hand from simple hand[nand] gates above2 in next step 2 in next step 2 in but choose 1

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fast even pace i.e. LRLLR OR RLRLRL JUST LOOK AUTO COMPUTE/POSITION/REACH*EASYTHE SIMPLE USE OF KNOWN ESTABLISHED LEFT AND RIGHT HAND ROUTES PROVIDE FAST 2 HAND NAND LOGICS IE COMPLEX CONSTRUCT OF HAND GATES ALL KNOWN MOVES apply/jobRIGHT LEFT
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..>..>EASY AUTO/MOVE><<<<<<< CONCEPT s*** EASY???AND FAST GLANCE LOOK DO then RECRUITS EYE SIGHT LIKE THIS AS IN SIMPLE HAND GATE,S/MOVE WHICH HAND ? FACTOR WHICH HAND IS NEARER??????THIS BECOMES VERY VARIED AND DOUBLE HANDY SIMPLE KNOWN 2 MOVE/2RESULT

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Desired Gate
NAND Construction TAKE, GIVE EYE AIM

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..>..>OTHER SENSES NAND GATES APPLY TO CIRCUIT TOO E.G. HEARING TOUCHALL SENSES EFFECT DECISION STANCE AND MOVE?
easy very easy to logic pick doelementary only

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..>..>THESE ABOVE ARE SIMPLE 1 STEP LOGIC GATES BUT INFO CAN 0 OR MAX IN OUT OVER OR BUT FOR 2 HANDS LOAD/2 APPLY/2 THE DATA FLOW THROUGH RRRRRRRR BECOMES LRLRLR OR RLRL STEP [ CAN DIFFERENTIATE BETWEEN LRLR OR RLRL INB OUT]LEFT..>..>
RIGHT>>><<<<<<>>>>>>>><<<>>>>>>>>>>>>
same simple L--BODY--R DATA IN DECIDES THE OPTION ME AS FACED WITH CHOICE OF WHICH HAND ? 1 HAND WILL LOGICALLY BE CLOSERLEFT>>>><<<<>>>>>><<<<>>>>>>>>>>>>>>AND I HAVE THE EXTRA LOGIC COMMANDS/SEC E.G. LEFT PICK LEFT PUT LEFT STOP LEFT INVERT TURN LEFT SCREW LEFT ANY SKILL Apply but torque and FINAL DIRECT SWEEP AND SPIN I HAVE CHOICE OF 1, 2 HAND GATES TO EJECT BYit can easy HANDLE LOGIC STEPS LIKE THIS AS 1 WAY WILL BE MUCH FASTER/STRIDE THAN RRRRRRRRRRRRRR.......... RRRRRRRRRRRRRRR 1 EYE 1 HEMISPHERE 1 HAND 1 STANCE 1 WAY DEAD END LOGIC SAY SO OKAND YOU OUR RRRRRRRRR LEADERS CLOSE TO THE EDGE LEDGE KNOWLEDGESO I CAN FAST DO THINGS BEYOND RRRRRRRRR DOMAIN AND REASON E.G. 2 REASONS 2 WAYS CHOOSE THE BEST FASTEST SAFEST PATHWAY THROUGH

RRRRRRR IS DAngerous and a STATISTICDATA IN>><======zone is fine detail stare/use zone.. you dont work by pointing head down/stance always level/stance you lean body or stance as more comfy to do


[edit] Types of Interferometers



Main article: List of types of interferometers

There are many other types of interferometers. They all work on the same basic principles, but the geometry is different for the different types of interferometers.

[edit] Michelson Interferometer


Main article: Michelson interferometer

A Michelson interferometer.
A very common example of an interferometer is the Michelson (or Michelson-Morley) type. Here the basic building blocks are a monochromatic source (emitting light or matter waves), a detector, two mirrors and one semitransparent mirror (often called beam splitter). These are put together as shown in the figure.
There are two paths from the (light) source to the detector. One reflects off the semi-transparent mirror, goes to the top mirror and then reflects back, goes through the semi-transparent mirror, to the detector. The other one goes through the semi-transparent mirror, to the mirror on the right, reflects back to the semi-transparent mirror, then reflects from the semi-transparent mirror into the detector.
If these two paths differ by a whole number (including 0) of wavelengths, there is constructive interference and a strong signal at the detector. If they differ by a whole number and a half wavelengths (e.g., 0.5, 1.5, 2.5 ...) there is destructive interference and a weak signal. This might appear at first sight to violate conservation of energy. However energy is conserved, because there is a re-distribution of energy at the detector in which the energy at the destructive sites are re-distributed to the constructive sites. The effect of the interference is to alter the share of the reflected light which heads for the detector and the remainder which heads back in the direction of the source.
The interferometer setup shown to the right was used in the famous Michelson-Morley experiment that provided evidence for special relativity. In Michelson's day, the interference pattern was obtained by using a gas discharge lamp, a filter, and a thin slot or pinhole. In one version of the Michelson-Morley experiment, they even ran the interferometer off starlight. Starlight is temporally incoherent light, but since for small instruments it can be considered as a point source of light it is spatially coherent and will produce an interference pattern. The Michelson interferometer finds use not only in these experiments but also for other purposes, e.g., in astronomical interferometers (see astronomical section below) and gravitational wave detectors.

[edit] Mach-Zehnder interferometer

A Mach-Zehnder interferometer.



Main article: Mach-Zehnder interferometer

Interferometers are perhaps even more widely used in integrated optical circuits, in the form of a Mach-Zehnder interferometer, in which light interferes between two branches of a waveguide that are (typically) externally modulated to vary their relative phase. This interferometer's configuration consists of two beam splitters and two completely reflective mirrors. The source beam is split and the two resulting waves travel down separate paths. A slight tilt of one of the beam splitters will result in a path difference and a change in the interference pattern. The Mach-Zehnder interferometer can be very difficult to align, however its improved sensitivity enables a diverse number of applications.[1] The Mach-Zehnder interferometer can be the basis of a wide variety of devices, from RF modulators to sensors to optical switches.

[edit] Sagnac interferometer

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A Sagnac interferometer.



Main article: Sagnac effect

A Sagnac Interferometer is an interferometry configuration in which a beam of light is split and the two beams are made to follow a trajectory in opposite directions. To act as a ring the trajectory must enclose an area. On return to the point of entry the light is allowed to exit the apparatus in such a way that an interference pattern is obtained.
In the Sagnac configuration, the position of the interference fringes is dependent on angular velocity of the setup. This dependence is caused by the rotation effectively shortening the path distance of one beams, while lengthening the other. A Sagnac interferometer has been used by Albert Michelson and Henry Gale to determine the angular velocity of the Earth. It can be used in navigation as a ring laser gyroscope, which is commonly found on fighter planes[2].

[edit] Fabry-Perot interferometer

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A Fabry-Pérot interferometer or etalon



Main article: Fabry-Perot interferometer

A Fabry-Pérot interferometer or etalon is typically made of a transparent plate with two reflecting surfaces, or two parallel highly-reflecting mirrors. (Technically the former is an etalon and the latter is an interferometer, but the terminology is often used inconsistently.) Its transmission spectrum as a function of wavelength exhibits peaks of large transmission corresponding to resonances of the etalon. It is named after Charles Fabry and Alfred Pérot.
Fabry-Pérot interferometers are widely used in telecommunications, lasers and spectroscopy for controlling and measuring the wavelength of light. Recent advances in fabrication technique allow the creation of very precise tunable Fabry-Pérot interferometers. Fabry-Pérot interferometers also form the most common type of optical cavity used in laser construction.

[edit] Types of Interferometry

[edit] Coherent interferometry
Coherent interferometry uses a coherent light source (for example, a helium-neon laser), and can make interference with large difference between the interferometer path length delays. The interference is capable of very accurate (nanometer) measurement by recovering the phase.
One of the most popular methods of interferometric phase recovery is phase-shifting by piezoelectric transducer (PZT) phase-stepping. By stepping the path length by a number of known phases (minimum of three) it is possible to recover the phase of the interference signal, with 2p = ? / 2.
Coherent interferometry suffers from a 2p ambiguity problem: that is, if between any two measurements the interferometric phase jumps by more than 2p the phase measurement is incorrect. However by combining interferometry results obtained using multiple wavelengths of illumination, such as in digital multi-wavelength holography, the ambiguity interval can be extended to indefinitely large dynamic ranges of measurement.
The applications of coherent interferometry are wide ranging: Nanometer surface profiling, Microfluidics, Mechanical stress/strain, Velocimetry, and high-definition metrology of large parts and assemblies in manufacturing.

[edit] Inertial navigation
In inertial navigation, ring laser gyroscopes are used that can detect rotation through optical interferometry of laser beams travelling around a circumference in opposite directions

[edit] Speckle Interferometry


Main article: Speckle pattern

In optical systems, a speckle pattern is a field-intensity pattern produced by the mutual interference of partially coherent beams that are subject to minute temporal and spatial fluctuations. This speckling effect is most commonly observed in the fields of fiber optics and astronomical speckle imaging.

[edit] Holography
A special application of optical interferometry using coherent light is holography, a technique for photographically recording and re-displaying three-dimensional scenes. The technique also lends itself to monitoring small deformations in single wavelength implementations as well as dimesional metrology of large parts and assemblies and larger surface defect detection when used in multi-wavelength implementations..

[edit] Low-coherence interferometry
Low-coherence interferometry utilizes a light source with low temporal coherence such as white light (for example, LED/SLD, halogen lamp) or high specification femtosecond lasers. Interference will only be achieved when the path length delays of the interferometer are matched within the coherence time of the light source (note: using a femtosecond source is somewhat more intricate).
The chief benefit of low-coherence interferometry is that it does not suffer from the 2p ambiguity of coherent interferometry, and is therefore suited to profiling steps and rough surfaces. The axial resolution of the system is determined by the coherence length of the light source and is typically in the micrometer range.
Optical coherence tomography is a medical imaging technique based in low-coherence interferometry, where subsurface light reflections are resolved to give tomographic visualization. Recent advances have striven to combine the nanometer phase retrieval with the ranging cabability of low-coherence interferometry.

[edit] Geodetic standard baseline measurements
A famous use of white light interferometry is the precise measurement of geodetic standard baselines as invented by Yrjö Väisälä. Here, the light path is split in two, and one leg is "folded" between a mirror pair 1 m apart. The other leg bounces once off a mirror 6 m away. Only if the second path is precisely 6 times the first, will fringes be seen.
Starting from a standard quartz gauge of 1 m length, it is possible to measure distances up to 864 m by repeated multiplication. Baselines thus established are used to calibrate geodetic distance measurement equipment on, leading to a metrologically traceable scale for geodetic networks measured by these instruments.
More modern geodetic applications of laser interferometry are in calibrating the divisions on levelling staffs, and in monitoring the free fall of a reflective prism within a ballistic or absolute gravimeter, allowing determination of gravity, i.e., the acceleration of free fall, directly from the physical definition at a few parts in a billion accuracy.

[edit] Astronomical Interferometry

See also: astronomical interferometer

In astronomy interferometry is used to combine signals from two or more telescopes to obtain measurements with higher resolution than could be obtained with either telescopes individually. This technique is the basis for astronomical interferometer arrays, which can make measurements of very small astronomical objects if the telescopes are spread out over a wide area. If a large number of telescopes are used a picture can be produced which has resolution similar to a single telescope with the diameter of the combined spread of telescopes. These include radio telescope arrays such as LOFAR and SKA, and more recently astronomical optical interferometer arrays such as COAST, NPOI and IOTA, resulting in the highest resolution optical images ever achieved in astronomy. The VLT Interferometer is expected to produce its first images using aperture synthesis soon, followed by other interferometers such as the CHARA array and the Magdalena Ridge Observatory Interferometer which may consist of up to 10 optical telescopes. If outrigger telescopes are built at the Keck Interferometer, it will also become capable of interferometric imaging.
Astronomical interferometers come in two types -- direct detection and heterodyne. These differ only in the way that the signal is transmitted. Aperture synthesis can be used to computationally simulate a large telescope aperture from either type of interferometer.

[edit] Astronomical direct-detection interferometry

A simple two-element optical interferometer.

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One of the first astronomical interferometers was built on the Mount Wilson Observatory's reflector telescope in order to measure the diameters of stars. This method was extended to measurements using separated telescopes by Labeyrie (1975) to the visible. The red giant star Betelgeuse was among the first to have its diameter determined in this way. In the late 1970's improvements in computer processing allowed for the first "fringe-tracking" interferometer, which operates fast enough to follow the blurring effects of astronomical seeing, leading to the Mk I, II and III series of interferometers. Similar techniques have now been applied at other astronomical telescope arrays, including the Keck Interferometer and the Palomar Testbed Interferometer.
Techniques from Very Long Baseline Interferometry (VLBI), in which a large aperture is synthesized computationally, were implemented at optical and infrared wavelengths in the 1980s by the Cavendish Astrophysics Group. This providing the first very high resolution images of nearby stars. In 1995 this technique was demonstrated on an array of separate optical telescopes as a Michelson Interferometer for the first time, allowing a further improvement in resolution, and allowing even higher resolution imaging of stellar surfaces. The same technique has now been applied at a number of other astronomical telescope arrays, including the Navy Prototype Optical Interferometer and the IOTA array and soon the VLTI, CHARA and MRO Interferometers.
Projects are now beginning that will use interferometers to search for extrasolar planets, either by astrometric measurements of the reciprocal motion of the star (as used by the Palomar Testbed Interferometer and the VLTI) or through the use of nulling (as will be used by the Keck Interferometer and Darwin).
A detailed description of the development of astronomical optical interferometry can be found here. Impressive results were obtained in the 1990s, with the Mark III measuring diameters of 100 stars and many accurate stellar positions, COAST and NPOI producing many very high resolution images, and ISI measuring stars in the mid-infrared for the first time. Additional results include direct measurements of the sizes of and distances to Cepheid variable stars, and young stellar objects.
Interferometers are mostly seen by astronomers as very specialized instruments, capable of a very limited range of observations. It is often said that an interferometer achieves the effect of a telescope the size of the distance between the apertures; this is only true in the limited sense of angular resolution. The combined effects of limited aperture area and atmospheric turbulence generally limit interferometers to observations of comparatively bright stars and active galactic nuclei. However, they have proven useful for making very high precision measurements of simple stellar parameters such as size and position (astrometry) and for imaging the nearest giant stars.
For details of individual instruments, see the list of astronomical interferometers at visible and infrared wavelengths.

[edit] Astronomical heterodyne interferometry
Radio wavelengths are much longer than optical wavelengths, and the observing stations in radio astronomical interferometers are correspondingly further apart. The very large distances do not always allow any usable transmission of radio waves received at the telescopes to some central interferometry point. For this reason many telescopes instead record the radio waves onto a storage medium. The recordings are then transferred to a central correlator station where the waves are interfered. Historically the recordings were analog and were made on magnetic tapes. This was quickly superseded by the current method of digitizing the radio waves, and then either storing the data onto computer hard disks for later shipping, or streaming the digital data directly over a telecommunications network e.g. over the Internet to the correlator station. Radio arrays with a very broad bandwidth, and also some older arrays, transmit the data in analogue form either electrically or through fibre-optics. A similar approach is also used at some submillimetre and infrared interferometers, such as the Infrared Spatial Interferometer. Some early radio interferometers operated as intensity interferometers, transmitting measurements of the signal intensity over electrical cables to a central correlator. A similar approach was used at optical wavelengths by the Narrabri Stellar Intensity Interferometer to make the first large-scale survey of stellar diameters in the 1970s.
At the correlator station, the actual interferometer is synthesized by processing the digital signals using correlator hardware or software. Common correlator types are the FX and XF correlators. The current trend is towards software correlators running on consumer PCs or similar commodity hardware. There also exist some radio astronomy amateur digital interferometers with correlator, such as the ALLBIN of the European Radio Astronomy Club.
As the usual radio astronomy interferometer is digital it does have a few shortcomings, some due to sampling and quantization effects, in addition to the obvious need for much more computing power, as compared to analog correlation. The output of both digital and analog correlator can be used to computationally synthesize the interferometer aperture in the same way as with direct detection interferometers (see above).

[edit] Quantum effects
By using photons in entangled states, it is possible to increase the precision of interferometry measurements. Using a pair of photons, sensitivity increases by 40%. Four photons further improves precision.[3]

[edit] References


  • John E. Baldwin and Chris A. Haniff. "The application of interferometry to optical astronomical imaging." Phil. Trans. A, 360, 969-986, 2001. (download PostScript file)
  • J. E. Baldwin, "Ground-based interferometry — the past decade and the one to come" in Interferometry for Optical Astronomy II, volume 4838 of Proc. SPIE, page 1. 22-28 August 2002, Kona, Hawaii, SPIE Press, 2003. (download PostScript file)
  • J. D. Monnier, Optical interferometry in astronomy, Reports on Progress in Physics, 66, 789-857, 2003 IoP. (download PDF file)
  • P. Hariharan, Optical Interferometry, 2nd edition, Academic Press, San Diego, USA, 2003.
  • Adolf F. Fercher, Wolfgang Drexler, Christoph K. Hitzenberger and Theo Lasser, "Optical coherence tomography — principles and applications," Reports on Progress in Physics vol. 66, no. 2, pp. 239-303, 2003. Available: iop.org.
  • E. Hecht, Optics, 2nd Edition, Addison-Wesley Publishing Co., Reading, Mass, USA, 1987.
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