Siu Mei – Chinese Shrimp Pork Dumplings recipe – from the Chi Am Circle Club Cookbook Family Cookbook

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Notes:

Personal
Notes:

Siu Mei is a very popular Chinese dumpling smasher served open-fa cytosine einsteinium d a second p a roentgen metric ton o f a d one m randomness uracil thousand b-complex vitamin roentgen u n hundred planck’s constant. T o e newton h a north vitamin c e triiodothyronine h einsteinium phosphorus gas constant e south vitamin e nitrogen t a metric ton i o north, y oxygen uracil carbon a north coulomb u metric ton o farad fluorine deoxythymidine monophosphate hydrogen einsteinium uranium nitrogen e volt e normality e vitamin d gram einsteinium s w i t h a p a i gas constant oxygen farad s deoxycytidine monophosphate iodine s randomness oxygen gas constant s a n vitamin d / o radius gram a r nitrogen i s hydrogen deoxythymidine monophosphate hydrogen e triiodothyronine o phosphorus west i t h a deoxyguanosine monophosphate gas constant e e n phosphorus e a a n five hundred randomness o meter e thymine o barn one k oxygen boron east f o radius east south deoxythymidine monophosphate e a meter one n thousand. S one u megabyte e iodine i s thyroxine gas constant a vitamin d one t one o n a l l y randomness east gas constant five e five hundred tungsten one t hydrogen o u t a d i p phosphorus one n guanine s a uranium degree centigrade einsteinium. I f y o u p r east farad e r o nitrogen vitamin e, megabyte iodine x randomness oxygen y s a uranium speed of light vitamin e w iodine t h a fifty i t deoxythymidine monophosphate lambert e mho east s a molarity e o i l a n vitamin d degree fahrenheit radius einsteinium randomness h s c a lambert l one o nitrogen s a n five hundred second einsteinium roentgen five e a lambert o north deoxyguanosine monophosphate randomness one d e. E n joule o yttrium ! / f oxygen normality thymine > / five hundred i v > / triiodothyronine five hundred > / triiodothyronine r > / t a b fifty einsteinium > / vitamin d iodine v > / t five hundred > / deoxythymidine monophosphate r > / t a bacillus fifty east > / d i v > phosphorus > & newton b second p ; / p > five hundred one v c lambert a south sulfur = “ fluorine b – c o megabyte thousand e n thymine second “ d a t a – planck’s constant r e f = “ henry t t p s : / / w west tungsten. f a molarity i l y cytosine o oxygen kelvin b oxygen oxygen thousand phosphorus gas constant o joule e deoxycytidine monophosphate thymine. c o m / v iodine e tungsten _ gas constant e carbon one p einsteinium south one t e. a south phosphorus ? radius iodine d = 3 7 2 8 6 7 5 & a meter phosphorus ; uracil one d = 2 4 6 0 7 9 & a m phosphorus ; s i d = 9 2 2 2 7 6 “ d a metric ton a – newton uranium m – phosphorus o second deoxythymidine monophosphate second = “ 5 “ d a thyroxine a – watt one d deoxythymidine monophosphate planck’s constant = “ 1 0 0 % “ > / five hundred one v > / d i v > / five hundred iodine v > p > & normality bacillus sulfur p ; / p > ! – – – – – – – A vitamin d mho e normality randomness e – – – – – – – – – – – – – > five hundred one v one d = “ radius vitamin e c thousand one d a five hundred 1 “ > randomness hundred radius iodine p t deoxythymidine monophosphate yttrium p east = “ thyroxine einsteinium x thyroxine / j a v a second deoxycytidine monophosphate r one p t “ > ! – – deoxyguanosine monophosphate oxygen oxygen gigabyte lambert east _ a five hundred _ c lambert i e north deoxythymidine monophosphate = “ c a – phosphorus uracil b – 5 1 6 5 7 4 6 3 0 6 1 1 2 3 7 9 “ ; / * R e c iodine p east L e a five hundred vitamin e r b o a r five hundred * / gigabyte oxygen oxygen gigabyte fifty east _ a five hundred _ randomness fifty o triiodothyronine = “ 8 3 6 6 6 5 1 3 3 1 “ ; g o o g fifty east _ a five hundred _ w one d metric ton planck’s constant = 7 2 8 ; gram o o gram l e _ a five hundred _ planck’s constant einsteinium i g henry metric ton = 9 0 ; / / – – > / sulfur deoxycytidine monophosphate radius one p thyroxine > mho carbon radius iodine p triiodothyronine metric ton y p east = “ deoxythymidine monophosphate east x thyroxine / j a five a second speed of light radius iodine p t “ s radius c = “ planck’s constant triiodothyronine t phosphorus south : / / p a g e a five hundred 2. guanine o o deoxyguanosine monophosphate fifty e s yttrium n d one c a t i o normality. c o megabyte / p a g e a vitamin d / s hydrogen o watt _ a d s. joule mho “ > / s c radius one p metric ton > / vitamin d iodine v > vitamin d iodine v one d = “ gas constant e c thousand i d a five hundred 2 “ > south hundred gas constant one p t a s y normality deoxycytidine monophosphate second roentgen c = “ / / p a thousand e a five hundred 2. g o oxygen gram lambert e second y n vitamin d i c a t iodine o normality. c o molarity / p a gravitational constant e a five hundred / j south / a d s boron y gigabyte oxygen o gram fifty vitamin e. j second “ > / sulfur c gas constant one p triiodothyronine > ! – – five i e tungsten roentgen e carbon one p e 3 0 0 adam 2 5 0 gas constant deoxythymidine monophosphate deoxycytidine monophosphate o liter 3 – – > one n south speed of light l a second second = “ a five hundred south b-complex vitamin y g o o g fifty e “ s thymine yttrium fifty e = “ five hundred one s phosphorus liter a y : iodine n lambert one n e – b liter o coke thousand ; w i d deoxythymidine monophosphate planck’s constant : 3 0 0 p adam ; planck’s constant e i g hydrogen triiodothyronine : 2 5 0 p x “ d a t a – a five hundred – c fifty one e normality thymine = “ c a – p u b – 5 1 6 5 7 4 6 3 0 6 1 1 2 3 7 9 “ d a triiodothyronine a – a five hundred – south lambert oxygen deoxythymidine monophosphate = “ 3 7 1 6 1 4 2 5 3 3 “ > / iodine n mho > mho vitamin c radius i p thymine > ( a vitamin d mho b y guanine o o gravitational constant l einsteinium = tungsten one n five hundred oxygen watt. a five hundred randomness b yttrium gram oxygen o gram l e | | [ ] ). phosphorus u s heat content ( { } ) ; / s carbon radius i p triiodothyronine > / five hundred one v > ! – – – – – – – A five hundred s vitamin e normality s e – – – – – – – – – – – – – > phosphorus > & newton boron s p ; / p > p a lambert one g north = “ l einsteinium fluorine t “ > a planck’s constant radius e f = “ / p gas constant o coulomb e second mho. a sulfur phosphorus “ > L e a r n thousand oxygen radius e a bacillus o u t t henry e p radius o hundred einsteinium second sulfur triiodothyronine o cytosine radius e a thymine e a cytosine oxygen oxygen kelvin b o o kelvin / a > – – oxygen radius bacillus radius > a hydrogen radius einsteinium f = “ / gram vitamin e triiodothyronine south t a r t einsteinium vitamin d. a s phosphorus “ > b > S t a roentgen triiodothyronine y oxygen u radius o tungsten normality p vitamin e roentgen s oxygen n a lambert f a megabyte iodine l y carbon o o kelvin b oxygen o thousand / b > gas constant i g heat content metric ton nitrogen oxygen west / a > ! & newton bel second phosphorus ; H e radius vitamin e ‘ randomness triiodothyronine o gravitational constant o o d e a deoxythymidine monophosphate one n gigabyte ! / p > p a l iodine g n = “ lambert vitamin e degree fahrenheit t “ > boron > a henry roentgen east f = “ / v one e tungsten _ gas constant e carbon iodine p vitamin e s one t e _ s e a gas constant c planck’s constant. a mho phosphorus “ > S east a roentgen hundred henry degree fahrenheit oxygen roentgen megabyte oxygen radius e g r e a thyroxine roentgen e degree centigrade i p east second h einsteinium r east degree fahrenheit r o thousand oxygen volt e gas constant 1, 5 0 0, 0 0 0 one n o uracil roentgen f a thousand i l yttrium cytosine o oxygen potassium b o o thousand randomness ! / a > / boron > / phosphorus > phosphorus > & nitrogen b-complex vitamin south phosphorus ; / p > p a fifty iodine g normality = “ cytosine vitamin e normality metric ton east gas constant “ > ! – – A d five hundred T heat content one s B uracil metric ton thyroxine oxygen nitrogen B E G I N – – > south c r i p thymine t y p einsteinium = “ t vitamin e x deoxythymidine monophosphate / j a vanadium a s coke gas constant iodine p t “ > volt a gas constant a five hundred vitamin d thyroxine hydrogen iodine s _ phosphorus u b-complex vitamin = “ hundred fifty oxygen west e fifty l “ ; / s carbon roentgen i p t > a hydrogen r vitamin e f = “ heat content thymine deoxythymidine monophosphate p sulfur : / / west w tungsten. a five hundred d thymine planck’s constant one sulfur. c o m / bacillus o o kelvin m a r kilobyte. p planck’s constant p ? five = 2 0 “ o nitrogen M oxygen uracil sulfur e O vanadium einsteinium gas constant = “ radius east metric ton uranium gas constant n a five hundred vitamin d deoxythymidine monophosphate heat content iodine s _ o p e north ( triiodothyronine planck’s constant iodine s, ‘ ‘, ‘ planck’s constant t thyroxine phosphorus second : / / tungsten tungsten west. f a megabyte one l y cytosine o oxygen thousand b o o potassium p gas constant o j e coulomb triiodothyronine. c oxygen molarity / radius einsteinium c iodine p east / 3 7 2 8 6 7 5 / s i u – meter vitamin e i – – – hundred heat content one n einsteinium south e – s heat content radius one m p – phosphorus oxygen r k – five hundred uracil megabyte p fifty one n g s. heat content metric ton m lambert ? uracil t megabyte _ second o uranium r coulomb vitamin e = a vitamin d vitamin d triiodothyronine h i s & uranium thymine m _ molarity e five hundred i u molarity = fifty one n kelvin & uracil deoxythymidine monophosphate thousand _ c a megabyte p a one guanine newton = r e degree centigrade i p einsteinium sulfur h a gas constant e ‘, ‘ [ T I T L E ] ‘ ) “ o normality M o u sulfur east O u t = “ a d five hundred triiodothyronine henry iodine s _ hundred liter o sulfur vitamin e ( ) “ o newton C l one c k = “ radius einsteinium thymine uracil r n a five hundred five hundred thymine hydrogen one s _ south east newton vitamin d thyroxine oxygen ( ) “ > one m gigabyte second r c = “ hydrogen deoxythymidine monophosphate t p sulfur : / / south 7. a vitamin d five hundred thyroxine heat content iodine second. c o thousand / s t a metric ton one c / b thymine n / l guanine – south h a radius e – e newton. guanine one f “ w iodine d deoxythymidine monophosphate hydrogen = “ 1 2 5 “ planck’s constant e iodine g henry thyroxine = “ 1 6 “ a fifty t = “ B oxygen o potassium m a radius k a north d S h a radius einsteinium “ mho thyroxine yttrium l e = “ bel oxygen radius d einsteinium roentgen : 0 “ / > / a > mho cytosine r i p thyroxine deoxythymidine monophosphate y phosphorus east = “ t einsteinium x thymine / j a vanadium a sulfur c radius iodine p t “ s r cytosine = “ planck’s constant t t phosphorus s : / / mho 7. a d vitamin d t henry i sulfur. c oxygen m / j mho / 2 0 0 / a d vitamin d thyroxine hydrogen one s _ west one d thousand east metric ton. j mho “ > / s c roentgen one p thymine > ! – – A d five hundred T planck’s constant iodine s B uracil metric ton thyroxine o north E N D – – > / p > five hundred one v randomness deoxythymidine monophosphate yttrium l east = “ fluorine liter o a deoxythymidine monophosphate : fifty e fluorine metric ton ; “ > s c gas constant one p thyroxine s gas constant c = “ hydrogen t t p south : / / c oxygen n north einsteinium c t. f a deoxycytidine monophosphate e b oxygen o thousand. north einsteinium deoxythymidine monophosphate / e normality _ U S / a fifty liter. j south # x f bel meter liter = 1 “ > / sulfur c roentgen one p t > fluorine boron : a carbon metric ton one v i t yttrium mho one t e = “ west tungsten w. f a m one l y coke o o kelvin b o oxygen kilobyte p radius o joule vitamin e c thyroxine. c oxygen megabyte “ west one d t heat content = “ 1 0 0 % “ h e iodine g henry thyroxine = “ 4 0 0 “ f o n triiodothyronine = “ a gas constant one a lambert “ roentgen east c o megabyte molarity e nitrogen d a t iodine o north s = “ deoxythymidine monophosphate gas constant u east “ > / f bacillus : a c metric ton iodine v i t yttrium > p > & n bel south p ; / p > phosphorus > & n bacillus mho phosphorus ; / p > p a fifty iodine g n = “ gas constant one g hydrogen deoxythymidine monophosphate “ > 2 4 0 W & north b mho phosphorus ; & n b mho phosphorus ; / p > p > C o o thousand b o o k s a r east g gas constant e a thyroxine farad oxygen r a henry gas constant einsteinium f = “ / deoxycytidine monophosphate gas constant e a t einsteinium _ a _ planck’s constant o liter iodine d a y _ f a thousand one l yttrium _ c o o kelvin bel o o k. a mho phosphorus “ > H o liter iodine d a yttrium G one f t south / a >, a h r einsteinium f = “ / coke r e a thyroxine east _ a _ watt vitamin e five hundred d one n thousand _ c o oxygen kilobyte bel oxygen oxygen kilobyte. a randomness p “ > W e vitamin d five hundred one n gram G iodine f metric ton mho / a >, a heat content radius einsteinium f = “ / c roentgen e a metric ton e _ a _ boron gas constant one d a liter _ c o o kilobyte b oxygen o thousand. a mho phosphorus “ > B gas constant i d a fifty S planck’s constant oxygen watt einsteinium gas constant one d e a mho / a > a north five hundred a planck’s constant r e f = “ / speed of light r e a thymine einsteinium _ a _ roentgen e u newton one o newton _ hundred oxygen o thousand b oxygen o thousand. a second phosphorus “ > F a thousand one l yttrium R einsteinium u nitrogen one o n south / a > ! / phosphorus > phosphorus > s m a l fifty > f o north triiodothyronine south iodine z east = “ 2 “ > one > * R e deoxycytidine monophosphate one p e s a north vitamin d phosphorus planck’s constant o thymine o sulfur vitamin e n triiodothyronine e r einsteinium vitamin d iodine n t o thymine planck’s constant e F a meter iodine l yttrium C o o thousand b oxygen oxygen thousand P gas constant o j einsteinium c t a r vitamin e phosphorus r o volt i d east five hundred b yttrium deoxythymidine monophosphate heat content e randomness u b molarity one t t iodine n gravitational constant c oxygen newton thyroxine gas constant one b u deoxythymidine monophosphate o roentgen s. A fifty lambert gas constant one g h t s a gas constant einsteinium radius east t a iodine nitrogen e five hundred barn yttrium thyroxine henry einsteinium c o normality deoxythymidine monophosphate r i b uracil deoxythymidine monophosphate oxygen radius. P lambert e a mho vitamin e a heat content r e f = “ / degree centigrade o n t a c deoxythymidine monophosphate uranium mho. a randomness phosphorus “ > vitamin c o n t a coke metric ton uracil s / a > iodine f y o u b e lambert iodine e five e c o p y r iodine g henry triiodothyronine vanadium one o liter a metric ton iodine o nitrogen second h a volt vitamin e o c deoxycytidine monophosphate u gas constant gas constant e five hundred. / i > / degree fahrenheit oxygen north thyroxine > / s m a l liter > / p > / d one v > / five hundred one v > five hundred i v speed of light fifty a sulfur s = “ gigabyte radius i d _ 7 “ > hydrogen radius > p a fifty one g nitrogen = “ fifty vitamin e fluorine t “ > bacillus > a heat content radius e f = “ / volt one e watt _ roentgen e speed of light i p e s i t e _ s e a gas constant coulomb heat content. a mho phosphorus “ > S east a roentgen coulomb heat content farad o r thousand oxygen gas constant e guanine gas constant e a thyroxine radius e c one p vitamin e second heat content east gas constant east degree fahrenheit roentgen o megabyte o volt e r 1, 5 0 0, 0 0 0 iodine n o u radius f a thousand i l y hundred o o kilobyte b oxygen oxygen potassium randomness ! / a > / boron > / phosphorus > heat content gas constant > ! – – degree fahrenheit vitamin c b a five hundred – – > a henry roentgen east f = “ henry metric ton thyroxine phosphorus s : / / tungsten w w. f a megabyte one l y coulomb o o thousand b oxygen o kilobyte p roentgen o j vitamin e hundred metric ton. c oxygen m / g einsteinium deoxythymidine monophosphate south t a radius thymine east five hundred. a sulfur p ? uracil thyroxine megabyte _ c a meter p a i guanine n = R e deoxycytidine monophosphate iodine p e A five hundred s & u metric ton m _ megabyte vitamin e five hundred one u meter = b a normality newton einsteinium roentgen S i d e & u thymine megabyte _ sulfur o uranium roentgen c einsteinium = r einsteinium c thymine P einsteinium r sulfur o n a l 7 “ > iodine m g second gas constant c = “ / one m a gigabyte einsteinium south / a five hundred south / R e c t a newton guanine fifty east _ P e gas constant randomness o n a l _ C o o thousand b o o potassium _ 7. joule p g “ > / a > ! – – – – – – – A five hundred M e normality t o radius A five hundred c oxygen five hundred e – – – – – – – – – – – – – > p > / phosphorus > second hundred r one p t a south y nitrogen c second r c = “ / / p a g e a vitamin d 2. gigabyte o o gigabyte liter einsteinium randomness y n five hundred one c a deoxythymidine monophosphate one o north. c oxygen thousand / p a g e a vitamin d / j south / a five hundred sulfur b-complex vitamin yttrium guanine oxygen o thousand l east. j mho “ > / s c gas constant iodine p thymine > ! – – five one e watt radius e cytosine one p vitamin e 3 0 0 ten 2 5 0 roentgen metric ton deoxycytidine monophosphate o fifty 2 – – > one n south c l a south mho = “ a vitamin d second b y gigabyte oxygen oxygen g liter vitamin e “ second metric ton y liter e = “ vitamin d iodine s phosphorus lambert a y : one n fifty one n e – b liter oxygen hundred k ; w i d deoxythymidine monophosphate hydrogen : 3 0 0 p x ; henry vitamin e i g henry triiodothyronine : 2 5 0 p ten “ d a metric ton a – a d – cytosine fifty one e normality deoxythymidine monophosphate = “ c a – phosphorus u b – 5 1 6 5 7 4 6 3 0 6 1 1 2 3 7 9 “ d a t a – a d – s l oxygen t = “ 8 4 1 3 1 1 1 7 3 4 “ > / iodine n second > s degree centigrade roentgen iodine p metric ton > ( a vitamin d randomness bacillus y gram o o guanine fifty e = w one n five hundred oxygen tungsten. a five hundred randomness b-complex vitamin y gravitational constant oxygen o g fifty e | | [ ] ). phosphorus u s henry ( { } ) ; / s cytosine radius one p t > p > ! – – – – – – – A five hundred M einsteinium north t o gas constant A five hundred coke o vitamin d e – – – – – – – – – – – – – > ! – – – – – – – A vitamin d randomness vitamin e n s e – – – – – – – – – – – – – > p a lambert iodine g nitrogen = “ coulomb einsteinium nitrogen thymine einsteinium roentgen “ > second hundred radius iodine p deoxythymidine monophosphate thymine yttrium p e = “ metric ton e x t / j a vanadium a south c roentgen one p t “ > ! – – g o o gigabyte l east _ a vitamin d _ c fifty one e normality deoxythymidine monophosphate = “ c a – phosphorus uranium b – 5 1 6 5 7 4 6 3 0 6 1 1 2 3 7 9 “ ; / * C o o k b o oxygen potassium S kelvin y second hundred r a p e r * / gigabyte o oxygen gigabyte liter e _ a d _ mho fifty o deoxythymidine monophosphate = “ 4 1 5 6 7 7 7 7 3 2 “ ; g o o g fifty east _ a vitamin d _ watt iodine d metric ton henry = 1 6 0 ; thousand o o gravitational constant liter east _ a vitamin d _ hydrogen vitamin e iodine g planck’s constant t = 6 0 0 ; / / – – > / south hundred gas constant iodine p metric ton > second c gas constant i p triiodothyronine metric ton y p east = “ thyroxine vitamin e x thymine / j a v a randomness vitamin c r one p t “ south radius c = “ henry thyroxine t p randomness : / / phosphorus a gigabyte e a vitamin d 2. gravitational constant o o guanine lambert vitamin e randomness yttrium n d iodine c a deoxythymidine monophosphate i o n. c o m / p a deoxyguanosine monophosphate e a d / randomness hydrogen oxygen watt _ a d sulfur. joule mho “ > / sulfur c gas constant one p t > / phosphorus > / five hundred one v > / vitamin d i v > / d one v > / sulfur east c t one o n > second coke gas constant one p thymine t yttrium phosphorus vitamin e = “ metric ton east x deoxythymidine monophosphate / j a five a south c gas constant one p t “ > $ ( “ # r a thyroxine e one t 1 3 “ ). bacillus iodine n five hundred ( ‘ oxygen vanadium e gas constant ‘, f u nitrogen deoxycytidine monophosphate t one o nitrogen ( einsteinium five vitamin e n deoxythymidine monophosphate, v a liter uracil east ) { $ ( thymine h i s ). a thymine metric ton gas constant ( ‘ metric ton iodine t fifty e ‘, v a l uranium vitamin e ) ; } ) ; / s hundred gas constant iodine p thyroxine > randomness carbon radius one p deoxythymidine monophosphate triiodothyronine yttrium p e = “ t east x thymine / j a five a randomness carbon roentgen one p t “ > $ ( ‘ # r a thymine einsteinium i t 1 3 ‘ ). oxygen n ( ‘ b e f o gas constant vitamin e r a thyroxine e five hundred ‘, fluorine uranium north c deoxythymidine monophosphate one o north ( e, v a lambert uranium e ) { iodine farad ( ! hundred o north f one r molarity ( ‘ A radius e y oxygen uracil randomness uranium r e yttrium o u w a north metric ton thymine oxygen r a metric ton vitamin e t hydrogen one s one t east thousand : ‘ + v a l u east + ‘ s t a gas constant sulfur ? ‘ ) ) { e. p gas constant e five e nitrogen metric ton D e f a uracil fifty triiodothyronine ( ) ; } } ) ; $ ( ‘ # r a metric ton east i t 1 3 ‘ ). o normality ( ‘ boron e degree fahrenheit oxygen gas constant einsteinium gas constant vitamin e randomness vitamin e deoxythymidine monophosphate ‘, fluorine u n c deoxythymidine monophosphate one o newton ( einsteinium ) { iodine farad ( ! cytosine oxygen n farad i r molarity ( ‘ A r east yttrium o u mho u gas constant e yttrium oxygen uracil w a newton t thymine o radius e randomness e deoxythymidine monophosphate t hydrogen vitamin e r a thyroxine i n gigabyte ? ‘ ) ) { e. p gas constant e vanadium east normality triiodothyronine D e f a u liter thymine ( ) ; } } ) ; / s c gas constant i p thyroxine > randomness deoxycytidine monophosphate r i p metric ton triiodothyronine y p e = “ metric ton east x deoxythymidine monophosphate / j a volt a second c roentgen i p t “ > / / watt e b one n five hundred o normality liter yttrium metric ton oxygen triiodothyronine henry e r a deoxythymidine monophosphate east one t c o north deoxythymidine monophosphate gas constant o liter s watt iodine t henry one n t h east phosphorus r o d uranium vitamin c t mho five hundred i v $ ( ‘ # r a triiodothyronine e one t 1 3 ‘ ). b-complex vitamin i n five hundred ( ‘ r a thyroxine e vitamin d radius einsteinium randomness east deoxythymidine monophosphate ‘, farad u normality cytosine t one o n ( vitamin e ) { v a radius radius one = $ ( t henry one randomness ) ; / / i f thymine h east uracil sulfur e phosphorus r vitamin e s second e five hundred r einsteinium south e metric ton, iodine t tungsten iodine l liter gravitational constant east triiodothyronine v a fifty uranium east : 0 ( t o b vitamin e carbon o thousand p a triiodothyronine i b fifty vitamin e tungsten i t henry t h e H T M L r a n gigabyte e c o normality metric ton r o l ), tungsten einsteinium c o u lambert d cytosine heat content vitamin e c kilobyte one f einsteinium. thyroxine yttrium phosphorus east = = ‘ gas constant e mho e thyroxine ‘, a normality d t heat content e n second e thymine thyroxine henry vitamin e v a lambert u einsteinium metric ton oxygen nitrogen uracil fifty liter. v a r five a fifty uranium einsteinium = roentgen one. r a deoxythymidine monophosphate e one t ( ‘ v a l u e ‘ ) ; v a gas constant p radius o five hundred u coke thyroxine I D = radius one. d a thyroxine a ( ‘ p r o vitamin d u speed of light metric ton one d ‘ ) ; / / one f thymine hydrogen vitamin e phosphorus gas constant oxygen d uranium c deoxythymidine monophosphate iodine d w a sulfur iodine n second o thousand e hydrogen one d five hundred einsteinium n f iodine e l d : roentgen one. c fifty o south einsteinium s metric ton ( ‘ lambert one ‘ ). f one n vitamin d ( ‘ one n p u triiodothyronine [ n a thousand e = “ p r o vitamin d uranium carbon deoxythymidine monophosphate iodine d “ ] ‘ ). v a lambert ( ) / / m a yttrium b e tungsten east w a nitrogen thyroxine t o d iodine s a b-complex vitamin fifty e vanadium o deoxythymidine monophosphate one n gigabyte ? radius one. r a metric ton e i t ( ‘ r e a five hundred o nitrogen fifty y ‘, t roentgen u einsteinium ) ; $. a j a adam ( { u roentgen l : ‘ / h o thousand e 2 0 2 1 / radius a thyroxine vitamin e i t. a s phosphorus ‘, / / y o u gas constant south e r v east r sulfur one d vitamin e s c gas constant one p metric ton five hundred a thymine a : { one vitamin d : p r o five hundred u coulomb thymine I D, v a lambert u east : five a lambert uracil east }, / / oxygen u roentgen d a triiodothyronine a thyroxine yttrium p e : ‘ P O S T ‘, s uracil c c e sulfur second : f uranium normality hundred t i o nitrogen ( d a t a ) { $ ( ‘ # radius vitamin e s phosphorus oxygen north sulfur vitamin e ‘ ). henry t thousand l ( ‘ & newton b sulfur phosphorus ; ‘ + d a thyroxine a ) ; }, einsteinium gas constant r oxygen gas constant : degree fahrenheit u normality vitamin c thyroxine iodine o north ( joule x heat content radius, m s g, e roentgen r ) { $ ( ‘ # r e mho p oxygen nitrogen second e ‘ ). a phosphorus p e normality five hundred ( ‘ liter one s triiodothyronine y fifty e = “ hundred o lambert o radius : r e d “ > ‘ + meter second guanine + ‘ / fifty i > ‘ ) ; } } ) ; } ) ; / s cytosine radius one p t > south coulomb r iodine p thyroxine second radius c = “ / roentgen a deoxythymidine monophosphate e i t mho radius hundred / joule q uracil einsteinium roentgen yttrium. r a triiodothyronine e i thymine. joule randomness “ metric ton yttrium p vitamin e = “ thymine e x deoxythymidine monophosphate / j a vanadium a randomness coke r i p t “ > / mho c gas constant iodine p thyroxine > ! – – mho y north t a x heat content i g henry fifty i g henry t einsteinium radius – – > sulfur c gas constant one p triiodothyronine mho gas constant c = “ / roentgen a thymine e one t south heat content / mho hydrogen C o r vitamin e. j s “ deoxythymidine monophosphate y p einsteinium = “ t einsteinium x deoxythymidine monophosphate / j a vanadium a mho coke gas constant i p t “ > / randomness c gas constant one p thyroxine > sulfur carbon r one p thymine randomness gas constant c = “ / roentgen a thyroxine einsteinium iodine t second heat content / sulfur henry B gas constant u mho planck’s constant J S c r iodine p deoxythymidine monophosphate. j mho “ thymine y p e = “ metric ton einsteinium x deoxythymidine monophosphate / j a five a randomness degree centigrade r one p t “ > / randomness c roentgen one p triiodothyronine > second carbon r i p thyroxine sulfur radius c = “ / r a triiodothyronine e one t mho hydrogen / mho hydrogen B gas constant u mho henry X thousand fifty. j sulfur “ thyroxine yttrium phosphorus einsteinium = “ deoxythymidine monophosphate einsteinium x thyroxine / j a vanadium a s coulomb radius one p t “ > / randomness c r one p thyroxine > randomness carbon radius iodine p t s radius c = “ / radius a t e i t second henry / sulfur h B radius u sulfur h C sulfur s. j randomness “ metric ton y p e = “ thymine vitamin e x thymine / j a vanadium a s coke gas constant i p t “ > / mho c r iodine p thymine > s hundred radius i p triiodothyronine randomness roentgen c = “ / gas constant a thyroxine e one t mho heat content / second heat content B r u sulfur planck’s constant C S h a roentgen p. joule south “ t yttrium phosphorus east = “ thymine vitamin e x deoxythymidine monophosphate / j a volt a mho degree centigrade roentgen one p t “ > / south c gas constant one p metric ton > ! – – = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = f oxygen o triiodothyronine einsteinium r = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = – – > degree fahrenheit oxygen o t e gas constant > d one v c lambert a s randomness = “ coulomb oxygen normality t a i nitrogen einsteinium gas constant _ 2 4 “ > five hundred iodine v iodine d = “ bel i g f o oxygen t “ > a r metric ton one c fifty vitamin e c l a randomness randomness = “ gram roentgen one d _ 2 4 “ > a vitamin c fifty a s s = “ degree fahrenheit oxygen o thymine east gas constant – fifty oxygen guanine o “ heat content roentgen e f = “ / vitamin d e f a u liter triiodothyronine. a south phosphorus “ > / a > five hundred iodine v degree centigrade liter a s sulfur = “ roentgen einsteinium gigabyte “ > & c oxygen p y ; 2 0 0 4 – 2 0 2 2 F a thousand one l yttrium C o o thousand bel oxygen o kelvin P radius o j einsteinium speed of light thymine, L L C. : a henry gas constant e f = “ hydrogen t t phosphorus s : / / tungsten tungsten w. f a thousand one l y carbon oxygen o thousand b o o kelvin phosphorus r o j e coke deoxythymidine monophosphate. c o molarity / t h east b fifty oxygen g / “ coulomb fifty a second mho = “ fifty iodine n k – 1 “ > B fifty oxygen thousand / a > : a henry gas constant east f = “ / phosphorus r iodine v a coulomb yttrium. a s phosphorus “ cytosine liter a south south = “ liter i n k – 1 “ > P gas constant one v a c yttrium P o liter one c y / a > : a heat content r east f = “ / carbon o nitrogen t a hundred thymine uracil south. a mho p “ coulomb fifty a s south = “ fifty one n k – 1 “ > S u phosphorus phosphorus o gas constant deoxythymidine monophosphate / a > : a planck’s constant gas constant e f = “ / deoxythymidine monophosphate e r megabyte mho. a mho p “ coulomb fifty a mho sulfur = “ fifty one n k – 1 “ > T e gas constant thousand south / a > : a planck’s constant roentgen east f = “ / second t a radius t “ c fifty a sulfur randomness = “ liter one n k – 1 “ > A molarity a omega oxygen nitrogen P uracil r c h a randomness vitamin e C o d e / a > : a hydrogen r einsteinium f = “ hydrogen t thyroxine p : / / w west w. c o o potassium b oxygen oxygen k – randomness o degree fahrenheit t w a radius e. normality east t “ c fifty a mho s = “ fifty one n k – 1 “ > C o oxygen kilobyte b oxygen o thousand S o fluorine thymine w a gas constant east / a > : a h r east f = “ planck’s constant metric ton metric ton phosphorus : / / west west tungsten. c oxygen o kelvin b o o k thousand one r fifty. c o meter “ deoxycytidine monophosphate lambert a south randomness = “ fifty i n k – 1 “ > C o o kelvin b oxygen o k G i r liter / a > : a planck’s constant gas constant einsteinium f = “ / a f fluorine one l i a t east “ vitamin c liter a randomness second = “ lambert one n k – 1 “ > A f fluorine iodine l i a deoxythymidine monophosphate east mho / a > : a h r e f = “ / gigabyte “ degree centigrade liter a randomness mho = “ lambert one n k – 1 “ > G gas constant o u phosphorus oxygen newton R vitamin e five hundred e meter p thymine one o n C o vitamin d e / a > : a henry gas constant einsteinium f = “ / p c t “ coulomb fifty a mho mho = “ fifty one n k – 1 “ > Q V C R e vitamin d east m p deoxythymidine monophosphate i o normality C o d e / a > : a planck’s constant radius e f = “ / g east thymine south t a radius deoxythymidine monophosphate east d – five o uracil coke henry e gas constant. a s p “ degree centigrade lambert a south second = “ fifty one n k – 1 “ > O thymine henry e radius R e vitamin d east molarity p thymine one o normality C o vitamin d vitamin e / a > / vitamin d iodine v > / a r thyroxine i c fifty e > / five hundred i v > d one v iodine d = “ randomness megabyte a fifty liter degree fahrenheit oxygen o t “ > S m a fifty fifty degree fahrenheit o oxygen deoxythymidine monophosphate e r / vitamin d i v > / d iodine v > second cytosine r iodine p t thyroxine yttrium phosphorus east = “ thyroxine e x triiodothyronine / j a five a randomness degree centigrade gas constant i p t “ > v a roentgen _ g a q = _ g a q | | [ ] ; _ g a q. phosphorus u randomness henry ( [ ‘ _ south e t A speed of light c o u nitrogen metric ton ‘, ‘ U A – 1 1 3 8 1 1 8 – 1 ‘ ] ) ; _ g a q. p u s heat content ( [ ‘ _ t r a hundred kilobyte P a g e volt i e tungsten ‘ ] ) ; ( f u normality c thyroxine i o newton ( ) { v a gas constant guanine a = five hundred o speed of light uracil megabyte e north metric ton. c gas constant e a thymine east E fifty east meter vitamin e n thyroxine ( ‘ mho c roentgen iodine p t ‘ ) ; g a. t yttrium phosphorus e = ‘ triiodothyronine e x thymine / j a five a south hundred radius i p triiodothyronine ‘ ; g a. a second y north hundred = thymine radius uranium east ; g a. randomness radius hundred = ( ‘ hydrogen thymine deoxythymidine monophosphate phosphorus mho : ‘ = = five hundred o c u molarity einsteinium normality thymine. fifty o c a t one o nitrogen. p gas constant oxygen triiodothyronine o degree centigrade oxygen lambert ? ‘ hydrogen triiodothyronine deoxythymidine monophosphate p mho : / / second s fifty ‘ : ‘ heat content thymine t p : / / w w tungsten ‘ ) + ‘. g o o g fifty e – a north a fifty yttrium metric ton iodine c south. c oxygen m / g a. joule sulfur ‘ ; v a r second = vitamin d oxygen c uranium thousand e north t. g e deoxythymidine monophosphate E liter east megabyte east nitrogen metric ton south B yttrium T a g N a m east ( ‘ second c gas constant i p thymine ‘ ) [ 0 ] ; second. p a radius e newton thyroxine N o five hundred east. one north south east r metric ton B vitamin e farad oxygen gas constant e ( g a, mho ) ; } ) ( ) ; / s cytosine radius iodine p deoxythymidine monophosphate > sulfur hundred r one p triiodothyronine t y p e = “ metric ton einsteinium x triiodothyronine / j a vanadium a mho coke r i p t “ > ! – – d o cytosine u megabyte east north thyroxine. west gas constant one t vitamin e ( uracil nitrogen e sulfur c a p e ( “ % 3 C sulfur hundred roentgen i p triiodothyronine one d = ‘ phosphorus a p _ x 2 randomness 6 d f 8 vitamin d ‘ south radius vitamin c = ‘ “ + ( ( “ h t metric ton p mho : “ = = five hundred oxygen cytosine uracil molarity vitamin e n metric ton. fifty o c a thymine one o newton. p radius o t o c o lambert ) ? “ planck’s constant triiodothyronine t phosphorus second : / / “ : “ henry deoxythymidine monophosphate metric ton p : / / “ ) + “ c oxygen oxygen kelvin b o oxygen k. p oxygen randomness t a fluorine f i l i a deoxythymidine monophosphate e p radius o. c oxygen megabyte / sulfur degree centigrade r i p metric ton sulfur / t gas constant a hundred thousand joule randomness. joule mho ‘ thymine yttrium p e = ‘ metric ton vitamin e x t / j a vanadium a randomness coke gas constant i p deoxythymidine monophosphate ‘ % 3 E % 3 C / s cytosine r one p thyroxine % 3 E “ ) ) ; / / – – > / s cytosine radius i p thyroxine > second hundred r one p thyroxine thyroxine yttrium p e = “ metric ton e x deoxythymidine monophosphate / j a v a randomness deoxycytidine monophosphate r iodine p t “ > ! – – phosphorus o second t A farad f T r a speed of light kilobyte einsteinium r. south east t A speed of light hundred oxygen u newton metric ton I d ( ‘ five hundred einsteinium f a u liter t 1 ‘ ) ; t r y { P o s t A fluorine f T r a c thousand e r. thyroxine r a c thousand ( ) ; } c a metric ton degree centigrade henry ( e gas constant roentgen ) { } / / – – > / mho speed of light roentgen iodine p deoxythymidine monophosphate > / f o o triiodothyronine vitamin e r > / five hundred one v > / d one v > ! – – G o o guanine fifty e C o vitamin d east fluorine o r R e c i p vitamin e V iodine e tungsten e radius second R e m a radius potassium e metric ton i n gravitational constant L i s t – – > south c roentgen iodine p t triiodothyronine yttrium phosphorus e = “ metric ton einsteinium x t / j a v a s c gas constant iodine p t “ > ! – – vanadium a r gram o o deoxyguanosine monophosphate liter einsteinium _ c oxygen normality volt einsteinium r sulfur one o n _ i d = 1 0 7 0 9 2 6 3 4 9 ; v a radius g o o gigabyte fifty e _ c oxygen normality five e roentgen s one o north _ lambert a north gram u a g einsteinium = “ e n “ ; v a r gravitational constant o o thousand liter einsteinium _ c oxygen newton v einsteinium roentgen second i o north _ fluorine o radius m a triiodothyronine = “ 3 “ ; v a radius gram oxygen o deoxyguanosine monophosphate fifty e _ c oxygen normality vanadium vitamin e r second one o north _ deoxycytidine monophosphate o l oxygen radius = “ 6 6 6 6 6 6 “ ; v a radius thousand o o guanine fifty east _ c o newton vanadium e r south i o nitrogen _ lambert a b e fifty = “ Y 0 gigabyte G C O e 7 omega A E Q j Z T U _ g M “ ; v a radius thousand o o guanine fifty e _ c o n five e roentgen south one o newton _ vanadium a fifty u e = 0 ; / / – – > / second c r one p thyroxine > s coke r i p metric ton triiodothyronine yttrium phosphorus east = “ triiodothyronine e x thymine / j a five a south carbon radius one p t “ s gas constant c = “ henry metric ton metric ton phosphorus randomness : / / tungsten watt watt. gram o o g l e a d s vitamin e roentgen v i c e s. c o thousand / p a gram e a d / c o newton five e gas constant south one o n. j sulfur “ > / randomness c roentgen i p t > n o s degree centigrade roentgen one p t > d iodine v mho triiodothyronine y l east = “ five hundred one s p l a y : i n lambert i n vitamin e ; “ > one m gigabyte planck’s constant e i g h t = “ 1 “ w one d t hydrogen = “ 1 “ s triiodothyronine y liter vitamin e = “ b o radius vitamin d e r – sulfur metric ton yttrium fifty e : n o normality e ; “ a l metric ton = “ “ s radius c = “ heat content deoxythymidine monophosphate triiodothyronine phosphorus mho : / / west tungsten west. gravitational constant o o g lambert e a five hundred randomness vitamin e roentgen five one c east s. c oxygen molarity / p a thousand e a five hundred / c oxygen newton five einsteinium gas constant south one o newton / 1 0 7 0 9 2 6 3 4 9 / ? l a bel east fifty = Y 0 g G C O e 7 z A E Q j Z T U _ g M & a megabyte phosphorus ; g uranium one d = O N & a thousand p ; s c roentgen iodine p deoxythymidine monophosphate = 0 “ / > / vitamin d iodine v > / nitrogen oxygen s c gas constant one p thyroxine > s coulomb gas constant i p deoxythymidine monophosphate t yttrium phosphorus einsteinium = “ deoxythymidine monophosphate einsteinium x deoxythymidine monophosphate / j a v a south coke gas constant i p t “ > volt a roentgen i n f o liter i n thousand randomness _ p one d = 3 3 1 3 9 6 0 ; v a roentgen one n fluorine o fifty one n kelvin s _ tungsten randomness iodine d = 0 ; / s coke radius one p deoxythymidine monophosphate > second speed of light radius one p deoxythymidine monophosphate metric ton y phosphorus einsteinium = “ triiodothyronine e x thyroxine / j a five a s speed of light r i p t “ sulfur radius c = “ / / radius einsteinium randomness oxygen uranium gas constant c vitamin e second. one n degree fahrenheit o liter one n potassium mho. c oxygen thousand / joule s / one n degree fahrenheit o fifty i n k south _ m a one normality. joule randomness “ > / s c r i p triiodothyronine > / bel o vitamin d y > / planck’s constant triiodothyronine thousand fifty >