' +JJJJ ?\>m0M='+l> /+l   d]@ŵLҦ]]LF L}BBL] X  ` 鷎귭෍ᷩ췩緈JJJJx Lȿ L8ᷭ緍췩 緍i 8 `巬 췌`x (`(8`I`B` ``>J>J>VU)?`8'x0|&HhHh VY)'&Y)xꪽ)' `Hh`V0^*^*>&` aI꽌ɪVɭ&Y&&Y& 꽌ɪ\8`&&꽌ɪɖ'*&%&,E'зЮ꽌ɪФ`+*xS&x'8*3Ixix&& 8  '  & x)*++`FG8`0($ p,&"ųųೳŪŪųųij  !"#$%&'()*+,-./0123456789:;<=>?   1 '" " *  (9"1 ( ,.(0# 2  /#0/#0 *?'#07#00/0/'#07#0:"4<*55/**5/*%5/)1/)1/)1/)'#0/#0*5/*75/**5/*:5//#0/#0'#07#0:::*::'#07#0/28$2>, 7$$2%4%$$2%4%$(2()!)E(!8b $!H(+0#1 "Ph !D)"E` @ $ C ` DQ &J80^݌Hh ü ü݌ ռ ռ ռA ļD ļ? ļAEDE?HJ>h Լ ռ ռ ռ`HJ>݌h Hh݌`)`ȔЖȔЖȠHIHHHHhHH݌hHhHh݌H6 VDP (ED Z $0x8x D- ܸDD# H8`?E Vk *f???0xE Hh D#-EEE8` D ܸx D - ܸx8`-0ݩ?ʥD EEE`   LDcpq` [` ~  LӜu`".Q`pNФbptťܥm2<(-Py0\|e<6e<g< JJJJj귍hI  aUL@ kU8  L  Q^R(jQ0l^l\  wUuW ԧ H h@ [_ /QSIRb_L`LLLL`ª`LQLYLeLXLeLee ўQH\(h0L& Ꝥ$`( R \ZLl8 ўR HH\`\Z[YS6`LxQɿu3'RͲʎRʎ]]]ɍuL͟ɍ}RLRɍg^H8 ^hZLɍR LͲɊRR% QLܤͲ Z@ -^ ş\[Z QY\[Z8`l6Lş_Ȍb_Ͳ] )Y h( ֭ͲLɍ [LLĦ__ ^ 9 LҦ3 9 a   0LjLY u< (_9 ˭ɠuɠK_9 ?LˆʎõĵL õ ĵµ aµ`` L̦µ_bJLuLz`  ȟ QlXJ̥KlV  ȟ QlV eօ3L e3L &RL &QL d L4 Ne)n `@-eff L f`L . tQLѤ LҦL` OPu d L Ne)noon 8ɍ` ^f\õL ^NR  RΩLҦ)\Z ʽ LHv 3h`0h8` [L NС õ`A@` ŵL^Lõ`  \ 濭0 \  ȟ Q ^\lZl^?cqH şch`fhjõĵ@OAP`u@`@&`QR`E Ls  @DAE@u`8` %@ @A@`@`@A`Mµ ) LЦ`8@AWc@8@-@HAȑ@hHȑ@ȑ@hHȑ@Ȋ@ch8&ȑ@Hȑ@Ah@LHȑ@ȑ@ htphso`hMhL`9V8U897T6S67`INILOASAVRUCHAIDELETLOCUNLOCCLOSREAEXEWRITPOSITIOOPEAPPENRENAMCATALOMONOMOPRINMAXFILEFINBSAVBLOABRUVERIF!pppp p p p p`" t""#x"p0p@p@@@p@!y q q p@  LANGUAGE NOT AVAILABLRANGE ERROWRITE PROTECTEEND OF DATFILE NOT FOUNVOLUME MISMATCI/O ERRODISK FULFILE LOCKESYNTAX ERRONO BUFFERS AVAILABLFILE TYPE MISMATCPROGRAM TOO LARGNOT DIRECT COMMANč$3>L[dmx- ( Ϡ@跻~!Wo*9~~~~ɬƬ~_ j ʪHɪH`Lc (L ܫ㵮赎 ɱ^_ J QL_Ls贩紎 DǴҵԵƴѵӵµȴ 7 ַ :ŵƴѵǴҵȴµ納贍﵎ٵ്ᵭⳍڵL^ѵ-I `  4 ò-յ!  8صٵ紭ﵝ 7L (0+BC  7L HH`LgL{0 HH` õL H hBL BH [ h`Lo õ ڬL B ڬ LʬH hB@ յյ [L (ȴ) ȴ 7L L ( L (ȴL{ƴѵ洩ƴǴҵ 7 ^* B0 HȱBh ӵԵ 8 L8 ݲ` ܫ  / / ED B / / ]ƴS0Jȴ ȴ)  紅D贅E B ƴ  / 0L Ν `HD٤DEEhiHLGh ` ŵBѵ-` ѵB-` ܫ XI볩쳢8 DH E𳈈췍Ȍ X0 · JLǵBȵC`,յp` 䯩 R-յյ`յ0` K R-յյ`ɵʵӵԵ` 4 K ( ѵҵLBȱBL8` DBHBH : ַ޵BȭߵBhhӵԵ RBܵmڵ޵ȱBݵm۵ߵ` 䯩LR˵̵ֵ׵`êĪLR E( 8` R` ELRŪƪ`췌 յյI뷭鷭귭ⵍ㵍跬ª 뷰` Lf ݵܵߵ޵ ^`8ܵ i B8` 4L ֵȱB׵ ܯ䵍൭嵍 ` DȑB׵Bֵ  ַ յյ`굎뵎쵬 뵎쵌``õĵBCõĵ`µµ`L õBĵCصص Qƴ0"Bƴ 󮜳` 0۰ϬBƴ8`i#`ЗLw!0>ﵭ` m ﳐ 7i볍 8 ЉLw`H h ݲL~ `浍국䵍뵩嵠Jm赍嵊mjnnn浈ۭm浍浭m䵍䵩m嵍`"L ŵ8ŵH ~(`# d ֠z# u`@@ OF AN @@EDTA@@ SOLUTION REACTS WITH 25.00 M@@L@@ OF A @@C@@A@@CO@D3 @@SOLUTION PREPARED BY DISSOLVING 0.6023 GRAMS OF @@C@@A@@CO@D3 @@IN 500.0 M@@L@@, WHAT IS THE NORMALITY OF THE @@EDTA?",0.01007 END,ACT1QU1522.008818 "@HI@@F 31.49 M@@L@@ OF AN @@EDTA@@ SOLUTION REACTS WITH 25.00 M@@L@@ OF A @@C@@A@@CO@D3 @@SOLUTION PREPARED BY DISSOLVING 0.5602 GRAMS OF @@C@@A@@CO@D3 @@IN 500.0 M@@L@@, WHAT IS THE NORMALITY OF THE @@EDTA?",0.008887"@HI@@F 29.88 M@@LTHE NORMALITY OF THE @@EDTA?",0.006865~ "@HI@@F 34.12 M@@L@@ OF AN @@EDTA@@ SOLUTION REACTS WITH 25.00 M@@L@@ OF A @@C@@A@@CO@D3 @@SOLUTION PREPARED BY DISSOLVING 0.6023 GRAMS OF @@C@@A@@CO@D3 @@IN 500.0 M@@L@@, WHAT IS THE NORMALITY OF THE @@EDTA?",0 M@@L@@ OF SOLUTION, WHAT IS THE NORMALITY OF THE @@EDTA?",0.009371&t "25.00 M@HL@@ OF A @@C@@A@@CO@D3 @@SOLUTION REACTS WITH 35.67 M@@L@@ OF AN @@EDTA@@ SOLUTION. @@I@@F THERE ARE 0.4902 GRAMS OF @@C@@A@@CO@D3 @@PER 500.0 M@@L@@ OF SOLUTION, WHAT IS @@C@@A@@CO@D3 @@PER 500.0 M@@L@@ OF SOLUTION, WHAT IS THE NORMALITY OF THE @@EDTA?",0.006226Cj "25.00 @H@@M@@L@@ OF A @@C@@A@@CO@D3 @@SOLUTION REACTS WITH 30.13 M@@L@@ OF AN @@EDTA@@ SOLUTION. @@I@@F THERE ARE 0.5652 GRAMS OF @@C@@A@@CO@D3 @@PER 500.0@I@@F 25.00 M@@L@@ OF IT REACTS EXACTLY WITH 29.55 M@@L@@ OF @@EDTA@@, WHAT IS THE NORMALITY OF THE @@EDTA?",0.008402\` "25.00 @H@@M@@L@@ OF A @@C@@A@@CO@D3 @@SOLUTION REACTS WITH 31.30 M@@L@@ OF AN @@EDTA@@ SOLUTION. @@I@@F THERE ARE 0.3901 GRAMS OF QUATION (N) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE A@@L@@(OH)@D3?",0.3338b' END,ACT1QU112EACTS EXACTLY WITH 0.5724 GRAMS OF KH@D2PO@D4 ACCORDING TO EQUATION (HH) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE C@@A@@(OH)@D2?",0.1301O' "@HIF 34.56 ML OF A A@@L@@(OH)@D3 SOLUTION REACTS EXACTLY WITH 0.6922 GRAMS OF N@@A@@H@D2PO@D4 ACCORDING TO EB@@A@@(OH)@D2?",0.1814% "@HIF 39.05 ML OF A HB@@R@@ SOLUTION REACTS EXACTLY WITH 0.7744 GRAMS OF N@@A@@@D2CO@D3 ACCORDING TO EQUATION (JJ) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE HB@@R@@?",0.3742& "@HIF 32.33 ML OF A C@@A@@(OH)@D2 SOLUTION RACCORDING TO EQUATION (SS) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE KOH?",0.2843% "@HIF 31.45 ML OF A SOLUTION OF B@@A@@(OH)@D2 REACTS EXACTLY WITH 0.7311 GRAMS OF KHC@D2O@D4 ACCORDING TO EQUATION (VV) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE UTION OF C@@A@@(OH)@D2 REACTS EXACTLY WITH 0.5503 GRAMS OF K@D2HPO@D4 ACCORDING TO EQUATION (V) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE C@@A@@(OH)@D2?",0.09356T$ "@HIF 36.24 ML OF A SOLUTION OF KOH REACTS EXACTLY WITH 0.9276 GRAMS OF H@D2C@D2O@D4 THE M@@G@@(OH)@D2?",0.3745" "@HIF 34.66 ML OF A SOLUTION OF A@@L@@(OH)@D3 REACTS EXACTLY WITH 0.4502 GRAMS OF N@@A@@@D2HPO@D4 ACCORDING TO EQUATION (Q) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE A@@L@@(OH)@D3?",0.09149# "@HIF 33.77 ML OF A SOLON ACCORDING TO EQUATION (WW) OF THE HANDOUT, WHAT IS THE NORMALITY OF THE HC@@L@@?",0.3040" "@HIF 0.8823 GRAMS OF N@@A@@HCO@D3 REACT EXACTLY WITH 28.04 ML OF A M@@G@@(OH)@D2 SOLUTION ACCORDING TO EQUATION (OO) OF THE HANDOUT, WHAT IS THE NORMALITY OFALITY OF A SOLUTION OF H@D3PO@D4 IF 0.7933 GRAMS OF N@@A@D2@@CO@D3 WERE EXACTLY NEUTRALIZED BY 36.93 ML OF THE H@D3PO@D4 ACCORDING TO EQUATION (NN) OF THE HANDOUT?,0.4053[! "@HIF 0.6501 GRAMS OF K@D2CO@D3 REACT EXACTLY WITH 30.94 ML OF A HC@@L@@ SOLUTI TO EQUATION (DD) OF THE HANDOUT?,0.1981 @HWHAT IS THE NORMALITY OF A SOLUTION OF N@@A@@OH IF 0.6022 GRAMS OF H@D2C@D2O@D4 WERE EXACTLY NEUTRALIZED BY 25.90 ML OF THE N@@A@@OH ACCORDING TO EQUATION (RR) OF THE HANDOUT?,0.5165  @HWHAT IS THE NORMPO@D4 WERE EXACTLY NEUTRALIZED BY 35.29 ML OF THE C@@A@@(OH)@D2 ACCORDING TO EQUATION (M) OF THE HANDOUT?,0.3275(~ @HWHAT IS THE NORMALITY OF A SOLUTION OF KOH IF 0.7814 GRAMS OF N@@A@@H@D2PO@D4 WERE EXACTLY NEUTRALIZED BY 32.88 ML OF THE KOH ACCORDINGRMALITY OF A SOLUTION OF N@@A@@OH IF 0.5022 GRAMS OF KH@D2PO@D4 WERE EXACTLY NEUTRALIZED BY 29.04 ML OF THE N@@A@@OH ACCORDING TO EQUATION (R) OF THE HANDOUT?,0.2541pt @HWHAT IS THE NORMALITY OF A SOLUTION OF C@@A@@(OH)@D2 IF 0.6933 GRAMS OF N@@A@@H@D2AS IN EQUATION (LL) OF THE HANDOUT?,0.09308` @HWHAT IS THE NORMALITY OF A SOLUTION OF M@@G@@(OH)@D2 IF 23.19 ML OF IT EXACTLY NEUTRALIZED 25.00 ML OF A 0.1491 M SOLUTION OF N@@A@@HCO@D3 AS IN EQUATION (OO) OF THE HANDOUT?,0.1607j @HWHAT IS THE NOCTLY NEUTRALIZED 25.00 ML OF A 0.05633 M SOLUTION OF B@@A@@(OH)@D2 AS IN EQUATION (VV) OF THE HANDOUT?,0.1175+V @HWHAT IS THE NORMALITY OF A SOLUTION OF H@D3PO@D4 IF 26.82 ML OF IT EXACTLY NEUTRALIZED 25.00 ML OF A 0.04993 M SOLUTION OF N@@A@@@D2CO@D3 IS THE NORMALITY OF A SOLUTION OF KH@D2PO@D4 IF 24.51 ML OF IT EXACTLY NEUTRALIZED 25.00 ML OF A 0.06003 M SOLUTION OF C@@A@@(OH)@D2 AS IN EQUATION (HH) OF THE HANDOUT?,0.1225mL @HWHAT IS THE NORMALITY OF A SOLUTION OF KHC@D2O@D4 IF 23.97 ML OF IT EXA, WHAT IS THE NORMALITY OF THE N@@A@@H@D2PO@D4?",0.12378 @HWHAT IS THE NORMALITY OF A SOLUTION OF KH@D2PO@D4 IF 23.45 ML OF IT EXACTLY NEUTRALIZED 25.00 ML OF A 0.03223 M SOLUTION OF A@@L@@(OH)@D3 AS IN EQUATION (T) OF THE HANDLUT?,0.1031B @HWHAT ACID REQUIRES 26.77 ML OF THE BASE, WHAT IS THE NORMALITY OF THE ACID?",0.14237. "@HIF WHEN A SOLUTION OF N@@A@@H@D2PO@D4 IS STANDARDIZED WITH A 0.1287 N SOLUTION OF B@@A@@(OH)@D2 AS IN EQUATION (EE), 25.00 ML OF THE ACID REQUIRES 24.02 ML OF THE BASEOH)@D2 AS IN EQUATION (V) OF THE HANDOUT IF 25.00 ML OF THE BASE WAS EXACTLY NEUTRALIZED BY 22.56 ML OF THE ACID?,0.1557O$ "@HIF WHEN A SOLUTION OF H@D3PO@D4 IS STANDARDIZED WITH A 0.1329 N SOLUTION OF C@@A@@(OH)@D2 AS IN EQUATION (BB), 25.00 ML OF THEWAS USED TO TITRATE 0.1113 N A@@L@@(OH)@D3 AS IN EQUATION (N) OF THE HANDOUT IF 25.00 ML OF THE BASE WAS EXACTLY NEUTRALIZED BY 27.66 ML OF THE ACID?,0.1006x @HWHAT IS THE NORMALITY OF A SOLUTION OF K@D2HPO@D4 THAT WAS USED TO TITRATE 0.1405 N C@@A@@(LITY OF A SOLUTION OF SULFURIC ACID THAT WAS USED TO TITRATE A 0.1022 N SOLUTION OF KOH AS IN EQUATION (F) IF 25.00 ML OF THE BASE WAS EXACTLY NEUTRALIZED BY 29.04 ML OF THE ACID?,0.08798 @HWHAT IS THE NORMALITY OF A SOLUTION OF N@@A@@H@D2PO@D4 THAT TO EQUATION (B) OF THE HANDOUT?,0.1282 @HWHAT IS THE NORMALITY OF A SOLUTION OF B@@A@@(OH)@D2 IF 23.44 ML OF IT EXACTLY NEUTRALIZED 25.00 ML OF A 0.1030 N SOLUTION OF HB@@R@@ ACCORDING TO EQUATION (D) OF THE HANDOUT?,0.1099 @HWHAT IS THE NORMA********"W0PY:"IF YOU WOULD LIKE TO SEE THE MENU AGAIN,PRESS .X\R$_a6e' @HWHAT IS THE NORMALITY OF A SOLUTION OF KOH IF 25.00 ML OF A 0.1332 N SOLUTION OF HB@@R@@ WAS EXACTLY NEUTRALIZED BY 25.98 ML OF THE BASE ACCORDING***********************************"*8?9" ";NA$E:{<" HAS ACHIEVED A SCORE OF ";(CR100L);"%">C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #11"M R"*******************************:,/" PLEASE REMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::$6"****!0" NUMBER WRONG = "IRO5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *)):195:" PRESS .".CRCR1:525JK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."IRIR1 ICC1C7535P:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+C(F(4))):1954JK$"@H E) NONE OF THESE":195AZF$"@H"HI]A"@HA,B,C,D,E"nZA$"A"G1ZA$"B"G2ZA$"C"G3ZA$"D"G4ZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(PFS F(E)((5FS)(5FS))1? KE101:F(K)F(E)395H K,EN o ::JK$" "A$(AO(P)):195u  JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(JJ1 I1J& AO(I)(J(J))1; NP(AO(I))1275N NP(AO(I))1:IW 'FS0a ;SW38l ^P1Js cN hQ15:C(Q)0: mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15(NM),A$(NM),B$(NM),NP(NM)" 225> XK(0):(JK$)SW215a TSWO1:(JK$,T,1)" "210m T:215 L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$: W$: J1NM:A$(J),B$(J):A$(J)"END"235 J  HEN PRESS ."! ZF$"@H") :0 I= NA$ZA$T "GOOD LUCK, ";NA$l :"PRESS ANY KEY."} TIMER11E8 A(16384) A127SEEDTIMER:179 Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO THE INSIDE BACK COVER OF THE TEXT WILL ALSO BE VERY USEFUL.J q:::a t"PRESS ."i vN$o |y }IR0 CR0 : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME Td C026::F7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"fA" QUIZ #11"rZ:::n" SPECIAL INSTRUCTIONS:"o:::> p" A HANDOUT IS REQUIRED FOR THIS QUIZ. IF YOU DON'T HAVE IT, SEE YOUR INSTRUCTOR.           VING 0.5602 GRAMS OF @@C@@A@@CO@D3 @@IN 500 M@@L@@ OF SOLUTION REACTS WITH 28.01 M@@L@@ OF AN @@EDTA@@ SOLUTION, WHAT IS THE NORMALITY OF THE @@EDTA?",0.009991uV"@HA@@ SOLUTION HAS 0.4970 GRAMS OF @@C@@A@@CO@D3 @@DISSOLVED IN 500 M@@L@@ OF SOLUTION. @@@ OF A SOLUTION PREPARED BY DISSOLVING 0.4534 GRAMS OF @@C@@A@@CO@D3 @@IN 500.0 M@@L@@ OF SOLUTION REACTS WITH 34.43 M@@L@@ OF AN @@EDTA@@ SOLUTION, WHAT IS THE NORMALITY OF THE @@EDTA?",0.006579L "@HI@@F 25.00 M@@L@@ OF A SOLUTION PREPARED BY DISSOL 0.1879 GRAMS OF @@M@@G@@C@@L@D2, WHAT IS THE NORMALITY OF THE @@EDTA?",0.057558 "@HI@@F 0.2539 GRAMS OF @@C@@U@@SO@D4 @@REQUIRE 49.28 M@@L@@ OF AN @@EDTA@@ SOLUTION FOR TITRATION, WHAT IS THE NORMALITY OF THE @@EDTA?",0.03288B "@HI@@F 25.00 M@@LALITY OF THE @@EDTA?",0.03716$ "@HI@@F 39.62 M@@L@@ OF AN @@EDTA@@ SOLUTION REACTS EXACTLY WITH 0.1920 GRAMS OF @@C@@A@@C@@L@D2, WHAT IS THE NORMALITY OF THE @@EDTA?",0.04366O. "@HI@@F 34.29 M@@L@@ OF AN @@EDTA@@ SOLUTION IS REQUIRED TO REACT WITH @HW@@HAT IS THE NORMALITY OF A SOLUTION OF @@EDTA@@ WHEN 45.20 M@@L@@ OF IT REACTS EXACTLY WITH 0.1203 GRAMS OF @@C@@A@@CO@D3?,0.02659 "@HI@@F 46.79 M@@L@@ OF AN @@EDTA@@ SOLUTION REACTS EXACTLY WITH 0.2093 GRAMS OF @@M@@G@@SO@D4, @@WHAT IS THE NORM SOLUTION OF @@EDTA@@ WHEN 30.67 M@@L@@ OF IT REACTS EXACTLY WITH 45.33 MILLIGRAMS OF CALCIUM METAL?,0.03688 @HW@@HAT IS THE NORMALITY OF A SOLUTION OF @@EDTA@@ WHEN 38.34 M@@L@@ OF IT REACTS EXACTLY WITH 56.03 MILLIGRAMS OF IRON METAL?,0.02617OU WOULD LIKE TO SEE THE MENU AGAIN,PRESS .;\R$Ba6H @HW@@HAT IS THE NORMALITY OF A SOLUTION OF @@EDTA@@ WHEN 42.99 M@@L@@ OF IT REACTS EXACTLY WITH 75.03 MILLIGRAMS OF MAGNESIUM METAL?,0.07179l @HW@@HAT IS THE NORMALITY OF AD AS IN EQUATION (@@TT@@) OF THE HANDOUT?,3.8@& END,ACT1QU102******" 8"9" ";NA$(:^<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"d>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #15"MR"***************************************"W03Y:"IF YPREPARE 250 M@@L@@ OF A 0.85@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@K@@) OF THE HANDOUT?,4.7-& @HH@@OW MANY M@@L@@ OF A SOLUTION OF @@H@D2SO@D3 @@THAT IS 16@@M@@ ARE REQUIRED TO PREPARE 600 M@@L@@ OF A 0.20@@N@@ SOLUTION IF IT IS TO BE USE8$ @HH@@OW MANY M@@L@@ OF CONCENTRATED PHOSPHORIC ACID ARE REQUIRED TO PREPARE 350 M@@L@@ OF A 0.30@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@I@@) OF THE HANDOUT?,2.3i%  @HH@@OW MANY M@@L@@ OF CONCENTRATED PHOSPHORIC ACID ARE REQUIRED TO @N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@MM@@) OF THE HANDOUT?,28$ @HH@@OW MANY M@@L@@ OF CONCENTRATED PHOSPHORIC ACID ARE REQUIRED TO PREPARE 550 M@@L@@ OF A 0.15@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@BB@@) OF THE HANDOUT?,2.OF CONCENTRATED SULFURIC ACID ARE REQUIRED TO PREPARE 700 M@@L@@ OF A 0.45@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@KK@@) OF THE HANDOUT?,8.8L# @HH@@OW MANY M@@L@@ OF CONCENTRATED PHOSPHORIC ACID ARE REQUIRED TO PREPARE 650 M@@L@@ OF A 0.65@QUIRED TO PREPARE 450 M@@L@@ OF A 0.25@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@OO@@) OF THE HANDOUT?,8.0! @HH@@OW MANY M@@L@@ OF CONCENTRATED @@HC@@L ARE REQUIRED TO PREPARE 700 M@@L@@ OF A 0.40@@N@@ SOLUTION?,23" @HH@@OW MANY M@@L@@ ,13  @HH@@OW MANY M@@L@@ OF CONCENTRATED ACETIC ACID ARE REQUIRED TO PREPARE 350 M@@L@@ OF A 0.25@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@QQ@@) OF THE HANDOUT?,5.1t! @HH@@OW MANY M@@L@@ OF A 14@@N@@ SOLUTION OF @@M@@G(@@OH)@D2 @@ARE RE@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@J@@) OF THE HANDOUT?,1.0  @HH@@OW MANY M@@L@@ OF A 7.0@@N@@ SOLUTION OF @@KOH@@ ARE REQUIRED TO PREPARE 900 M@@L@@ OF A 0.10@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@AA@@) OF THE HANDOUT? @@B@@A(@@OH)@D2 @@ARE REQUIRED TO PREPARE 700 M@@L@@ OF A 0.30@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@Y@@) OF THE HANDOUT?,14M @HH@@OW MANY M@@L@@ OF A SOLUTION OF CONCENTRATED PHOSPHORIC ACID ARE REQUIRED TO PREPARE 300 M@@L@@ OF A 0.15OF THE HANDOUT?,33 @HH@@OW MANY M@@L@@ OF A 36@@N@@ SOLUTION OF SULFURIC ACID ARE REQUIRED TO PREPARE 600 M@@L@@ OF A 0.40@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@H@@) OF THE HANDOUT?,6.7 @HH@@OW MANY M@@L@@ OF A 15@@N@@ SOLUTION OF@@ OF A 0.80@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@D@@) OF THE HANDOUT?,44 @HH@@OW MANY M@@L@@ OF A 11@@N@@ SOLUTION OF @@N@@A@@OH @@ARE REQUIRED TO PREPARE 400 M@@L@@ OF A 0.90@@N@@ SOLUTION IF IT IS TO BE USED AS IN EQUATION (@@PP@@) OF A 0.50@@N@@ SOLUTION?,22~ @HH@@OW MANY GRAMS OF THE ACID IN EQUATION (@@OO@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 400 M@@L@@ OF A 0.70@@N@@ SOLUTION?,24X @HH@@OW MANY M@@L@@ OF A 9.0@@N@@ SOLUTION OF @@HB@@R ARE REQUIRED TO PREPARE 500 M@@LOLUTION?,45j @HH@@OW MANY GRAMS OF THE ACID IN EQUATION (@@DD@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 350 M@@L@@ OF A 0.25@@N@@ SOLUTION?,10t @HH@@OW MANY GRAMS OF THE ACID IN EQUATION (@@II@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 400 M@@L@@ V @HH@@OW MANY GRAMS OF THE ACID IN EQUATION (@@R@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 450 M@@L@@ OF A 0.35@@N@@ SOLUTION?,11 ` @HH@@OW MANY GRAMS OF THE ACID IN EQUATION (@@U@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 650 M@@L@@ OF A 0.40@@N@@ SY GRAMS OF THE ACID IN EQUATION (@@L@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 400 M@@L@@ OF A 0.35@@N@@ SOLUTION?,8.4L @HH@@OW MANY GRAMS OF THE ACID IN EQUATION (@@O@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 550 M@@L@@ OF A 0.25@@N@@ SOLUTION?,20SE IN EQUATION (@@WW@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 300 M@@L@@ OF A 0.40@@N@@ SOLUTION?,8.38 @HH@@OW MANY GRAMS OF THE BASE IN EQUATION (@@MM@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 600 M@@L@@ OF A 0.50@@N@@ SOLUTION?,16vB @HH@@OW MANRR@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 500 M@@L@@ OF A 0.20@@N@@ SOLUTION?,4.0$ @HH@@OW MANY GRAMS OF THE BASE IN EQUATION (@@OO@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 400 M@@L@@ OF A 0.30@@N@@ SOLUTION?,3.5f. @HH@@OW MANY GRAMS OF THE BAOUT ARE REQUIRED TO PREPARE 600 M@@L@@ OF A 0.20@@N@@ SOLUTION?,4.4 @HH@@OW MANY GRAMS OF THE BASE IN EQUATION (@@K@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 800 M@@L@@ OF A 0.15@@N@@ SOLUTION?,3.1T @HH@@OW MANY GRAMS OF THE BASE IN EQUATION (@@D TO PREPARE 200 M@@L@@ OF A 0.15@@N@@ SOLUTION?,1.7 @HH@@OW MANY GRAMS OF THE BASE IN EQUATION (@@D@@) OF THE HANDOUT ARE REQUIRED TO PREPARE 700 M@@L@@ OF A 0.25@@N@@ SOLUTION?,15C @HH@@OW MANY GRAMS OF THE BASE IN EQUATION (@@G@@) OF THE HAND" QUIZ #10"!MPR"***************************************"WW0Y:"IF YOU WOULD LIKE TO SEE THE MENU AGAIN,PRESS .\R$a64 @HH@@OW MANY GRAMS OF THE BASE IN EQUATION (@@B@@) OF THE HANDOUT ARE REQUIRED TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!";41::j6"***************************************"p89" ";NA$:<" HAS ACHIEVED A SCORE OF ";(CR100L);"%">C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DEZF$"@H"<G$!?G$"Y"1251DG$"N"800:S570@ H*:N,0/" PLEASE REMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AN:::::#!LCRIR:L0L1B&" NUMBER CORRECT = "CRH+g0" NUMBER WRONG = "IR5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN . ;)AO(P)515aJK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."rCRCR1:525JK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."IRIR1 ICC1C7535P195)JK$"@H C) "B$(C(F(3))):195OJK$"@H D) "B$(C(F(4))):195vJK$"@H E) NONE OF THESE":195ZF$"@H"IA"@HA,B,C,D,E"ZA$"A"G1ZA$"B"G2ZA$"C"G3ZA$"D"G4ZA$"E"G5 C(F(G)KQ1O1:C(K)C(Q)370" |K7 Q:C(5FS)AO(P)E E15FSb F(E)((5FS)(5FS))1 KE101:F(K)F(E)395 K,E  ::JK$" "A$(AO(P)):195  JK$"@H A) "B$(C(F(1))):195JK$"@H B) "B$(C(F(2))):W$:0 J1NM:A$(J),B$(J):A$(J)"END"2357 J= G JJ1R I1Jh AO(I)(J(J))1} NP(AO(I))1275 NP(AO(I))1:I 'FS0 ;SW38 ^P1J cN hQ15:C(Q)0: mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 w16368,0:N:::::"ONE MOMENT, PLEASE .....": NM35[ AO(NM),A$(NM),B$(NM),NP(NM)d 225 XK(0):(JK$)SW215 TSWO1:(JK$,T,1)" "210 T:215 L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$: 4);"BRUN ACTPACK" 35326# NV ::::"TYPE YOUR NAME THEN PRESS ."c ZF$"@H"k :r I NA$ZA$ "GOOD LUCK, ";NA$ :"PRESS ANY KEY." TIMER11E8 A(16384) A127SEEDTIMER:179 0 Z(SEED):L BE USEFUL FOR THIS QUIZ." p:" IF YOU DON'T ALREADY HAVE THE HANDOUT REQUIRED FOR THIS QUIZ, SEE YOUR INSTRUCTOR." q:: t" PRESS ." vN$ | }IR0 CR0 : 6:5:"ONE MOMENT, PLEASE....." (13);(B1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"tA" QUIZ #10"Z:::n" SPECIAL INSTRUCTIONS:" o:" APPENDIX 7 AND THE TABLE OF FORMULA WEIGHTS ON THE INSIDE BACK COVER OF THE TEXT WIL          E THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"********************************* "IR25:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" PLEASE REMOVCRCR1:525dJK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."pIRIR1w ICC1C7535P:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUMBER WRONG = E) NONE OF THESE":195$ZF$"@H"+I@A"@HA,B,C,D,E"QZA$"A"G1bZA$"B"G2sZA$"C"G3ZA$"D"G4ZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS .")1" KE101:F(K)F(E)395+ K,E1 R ::JK$" "A$(AO(P)):195X ~ JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195JK$"@H J(J))1 NP(AO(I))12751 NP(AO(I))1:I: 'FS0D ;SW38O ^P1JV cNj hQ15:C(Q)0:x mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS)225! XK(0):(JK$)SW215D TSWO1:(JK$,T,1)" "210P T:215 L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$: W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)("@H" : I NA$ZA$7 "GOOD LUCK, ";NA$O :"PRESS ANY KEY."` TIMER11E8p A(16384) A127SEEDTIMER:179 Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NP(NM) TEXT ARE USEFUL FOR THIS QUIZ."- q:::D t"PRESS ."L vN$R |\ }IR0f CR0n : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ." ZF$ C026::F7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"eA" QUIZ #15"qZ:::n" SPECIAL INSTRUCTIONS:"o:::! p" THE TABLES OF ATOMIC AND MOLECULAR WEIGHTS ON THE INSIDE FRONT AND BACK COVERS OF THE                   WEIGHT OF THE ACID IN EQUATION (VV) OF THE HANDOUT?,128.13 WHAT IS THE EQUIVALENT WEIGHT OF THE BASE IN EQUATION (WW) OF THE HANDOUT?,69.11 END,ACT1QU92T OF THE ACID IN EQUATION (SS) OF THE HANDOUT?,90.04 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (TT) OF THE HANDOUT?,41.04 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (UU) OF THE HANDOUT?,82.08: WHAT IS THE EQUIVALENT THE ACID IN EQUATION (PP) OF THE HANDOUT?,97.09 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (QQ) OF THE HANDOUT?,60.05 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (RR) OF THE HANDOUT?,45.024 WHAT IS THE EQUIVALENT WEIGHCID IN EQUATION (AA) OF THE HANDOUT?,49.00 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (OO) OF THE HANDOUT?,84.01 WHAT IS THE EQUIVALENT WEIGHT OF THE BASE IN EQUATION (OO) OF THE HANDOUT?,29.17/ WHAT IS THE EQUIVALENT WEIGHT OF EQUATION (KK) OF THE HANDOUT?,49.04{~ WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (II) OF THE HANDOUT?,136.09 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (DD) OF THE HANDOUT?,119.99* WHAT IS THE EQUIVALENT WEIGHT OF THE AION (U) OF THE HANDOUT?,174.18v` WHAT IS THE EQUIVALENT WEIGHT OF THE BASE IN EQUATION (JJ) OF THE HANDOUT?,52.995j WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (X) OF THE HANDOUT?,98.00#t WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN (P) OF THE HANDOUT?,85.68qB WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (Q) OF THE HANDOUT?,141.98L WHAT IS THE EQUIVALENT WEIGHT OF THE BASE IN EQUATION (R) OF THE HANDOUT?,40.00V WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUAT) OF THE HANDOUT?,56.11m WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (I) OF THE HANDOUT?,32.67$ WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (M) OF THE HANDOUT?,59.9958 WHAT IS THE EQUIVALENT WEIGHT OF THE BASE IN EQUATIONOF THE HANDOUT?,80.92k WHAT IS THE EQUIVALENT WEIGHT OF THE BASE IN EQUATION (C) OF THE HANDOUT?,37.05 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (E) OF THE HANDOUT?,36.46 WHAT IS THE EQUIVALENT WEIGHT OF THE BASE IN EQUATION (FHNICIANS"D-E" QUIZ #9"3MbR"***************************************"iW0\:"IF YOU WOULD LIKE TO SEE THE MENU AGAIN,PRESS ."aR$f6 WHAT IS THE EQUIVALENT WEIGHT OF THE ACID IN EQUATION (A) HE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"N41::}6"***************************************"89" ";NA$:<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"> C"ON ANALYTICAL CHEMISTRY FOR TEC IF NOT, PRESS 'N' THEN .,;W$:DW$"Y"ĬJIW$"N"800SS570Y a*:C/" PLEASE REMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT TR$ CC1C7ī535"P(6::::K!LCRIR:L0L1j&" NUMBER CORRECT = "CRp+0" NUMBER WRONG = "IR5:" STUDENT SCORE = ";(CR100L);"%"$::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN .G$"E"G5G14755C(F(G))AO(P)515:JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS "CRCR1:525:JK$" WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS "IRIR1  JK$" B) "B$(C(F(2))):195- SW40ĺM JK$" C) "B$(C(F(3))):195[ SW40ĺ{ JK$" D) "B$(C(F(4))):195 FS1475 SW40ĺ JK$" E) NONE OF THESE":195 G$ G$"A"G1 G$"B"G2 G$"C"G3G$"D"G4Q)AO(P)370+ wKQ1O1:C(K)C(Q)3702 |KG Q:C(5FS)AO(P)U E15FSr F(E)((5FS)(5FS))1 KE101:F(K)F(E)395 K,E:  ::JK$" "A$(AO(P)):195  G0 JK$" A) "B$(C(F(1))):195 SW40ĺ1NM:A$(J),B$(J):A$(J)"END"235* J0 : JJ1E I1J[ AO(I)(J(J))1p NP(AO(I))1275 NP(AO(I))1:I " 'FS0 6HC1605 ;SW39 ^P1J:355:415 c hQ15:C(Q)0: mQ14FS rC(Q)(J(J))1:C(LEASE....." | 180 * NM30K AO(NM),A$(NM),B$(NM),NP(NM)T 225h (JK$)SW215 TSWO1:(JK$,T,1)" "210 T:215 L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$:135: W$::135:# JS IS NEEDED FOR THIS QUIZ. IF YOU DON'T ALREADY HAVE THIS HANDOUT, SEE YOUR INSTRUCTOR.":k r::: s"PRESS ANY KEY." uTIMER11E8 wA(16384) xA127SEEDTIMER:122 y zZ(SEED):16368,0 {:::::" ONE MOMENT, P1011,100C0&:(" WHAT IS YOUR NAME?"C*NA$I2u7"ANALYTICAL CHEMISTRY FOR TECHNICIANS"A" QUIZ #9"Z:::n" SPECIAL INSTRUCTIONS:"_ p:"A HANDOUT LISTING A NUMBER OF ACID BASE REACTION EQUATION            WATER REQUIRED 13.73 M@@L@@ OF AN @@EDTA@@ SOLUTION PREPARED BY DISSOLVING 3.8401 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500.0 M@@L@@ OF SOLUTION?,283.5  END,ACT1QU1422CO@D3 @@WHEN 75.00 M@@L@@ OF THE WATER REQUIRED 12.23 M@@L@@ OF AN @@EDTA@@ SOLUTION PREPARED BY DISSOLVING 4.0033 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500.0 M@@L@@ OF SOLUTION?,351.1  @HW@@HAT IS THE PPM @@C@@A@@CO@D3 @@WHEN 100.0 M@@L@@ OF THEt @HW@@HAT IS THE PPM @@C@@A@@CO@D3 @@WHEN 50.00 M@@L@@ OF THE WATER REQUIRED 15.90 M@@L@@ OF AN @@EDTA @@SOLUTION PREPARED BY DISSOLVING 3.9203 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500.0 M@@L@@ OF SOLUTION?,670.4~ @HW@@HAT IS THE PPM @@C@@A@@@CO@D3 @@IN THE WATER?",893.3j @HW@@HAT IS THE PPM @@C@@A@@CO@D3 @@WHEN 75.00 M@@L@@ OF THE WATER REQUIRED 23.88 M@@L@@ OF AN @@EDTA @@SOLUTION PREPARED BY DISSOLVING 4.0034 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500.0 M@@L@@ OF SOLUTION?,685.5HAT IS THE PPM @@C@@A@@CO@D3 @@IN THE WATER?",487.9` "@HI@@F 20.93 M@@L@@ OF AN @@EDTA @@SOLUTION (3.9682 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500 M@@L@@ OF SOLUTION) WERE NEEDED TO TITRATE 50.00 M@@L@@ OF A WATER SAMPLE, WHAT IS THE PPM @@C@@A@@ OF A WATER SAMPLE, WHAT IS THE PPM @@C@@A@@CO@D3 @@IN THE WATER?",330.03V "@HI@@F 11.04 M@@L@@ OF AN @@EDTA @@SOLUTION (4.1092 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500 M@@L@@ OF SOLUTION) WERE NEEDED TO TITRATE 50.00 M@@L@@ OF A WATER SAMPLE, W TITRATE 100.00 M@@L@@ OF A WATER SAMPLE, WHAT IS THE PPM @@C@@A@@CO@D3 @@IN THE WATER?",314.6IL "@HI@@F 15.64 M@@L@@ OF AN @@EDTA @@SOLUTION (3.9237 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500 M@@L@@ OF SOLUTION) WERE NEEDED TO TITRATE 100.00 M@@L@TER. @@I@@F 16.34 M@@L@@ OF THE TITRANT ARE NEEDED, WHAT IS THE HARDNESS OF THE WATER IN PPM @@C@@A@@CO@D3?",110.2^B "@HI@@F 14.20 M@@L@@ OF AN @@EDTA @@SOLUTION (4.1198 GRAMS OF @@N@@A@D2@@H@D2EDTA@U.2H@D2O @@IN 500 M@@L@@ OF SOLUTION) WERE NEEDED TO75.00 M@@L@@ SAMPLE OF WATER. @@I@@F 13.05 M@@L@@ OF THE TITRANT IS NEEDED, WHAT IS THE HARDNESS OF THE WATER IN PPM @@C@@A@@CO@D3?",222.7s8 "@HA 0.01011 N @@SOLUTION OF @@EDTA@@ TITRANT IS USED TO DETERMINE THE HARDNESS IN A 150.0 M@@L@@ SAMPLE OF WARDNESS, 75.00 M@@L@@ OF A WATER SAMPLE REQUIRED 13.03 M@@L@@ OF AN @@EDTA@@ SOLUTION THAT IS 0.009242 @@N. W@@HAT IS THE PPM @@C@@A@@CO@D3 @@IN THIS SAMPLE?",160.7. "@HA 0.01279 N @@SOLUTION OF @@EDTA@@ TITRANT IS USED TO DETERMINE THE HARDNESS IN A N AN EXPERIMENT FOR DETERMINING WATER HARDNESS, 50.00 M@@L@@ OF A WATER SAMPLE REQUIRED 14.55 M@@L@@ OF AN @@EDTA @@SOLUTION THAT IS 0.01113 @@N. W@@HAT IS THE PPM @@C@@A@@CO@D3 @@OF THIS SAMPLE?",324.2$ "@HI@@N AN EXPERIMENT FOR DETERMINING WATER HA HARDNESS OF THE WATER SAMPLE IN PPM @@C@@A@@CO@D3?",543.5 "@HI@@F 10.67 M@@L@@ OF A 0.010220@@N EDTA @@SOLUTION WERE NEEDED TO TITRATE 40.00 M@@L@@ OF A WATER SAMPLE, WHAT IS THE HARDNESS OF THE WATER SAMPLE IN PPM @@C@@A@@CO@D3?",272.9 "@HI@@AMPLE IN PPM @@C@@A@@C0@D3 @@IF A 50.00 M@@L@@ ALIQUOT OF THE WATER REQUIRES 22.11 M@@L@@ OF A 0.01322 @@N EDTA @@SOLUTION?,585.1: "@HI@@F 12.42 M@@L@@ OF A 0.01093 @@N EDTA @@SOLUTION WERE NEEDED TO TITRATE 25.00 M@@L@@ OF A WATER SAMPLE, WHAT IS THE@@M.W.=211.80) @@AND A BASE (@@M.W.=197.01) @@WERE USED IN A STANDARDIZATION EXPERIMENT. @@I@@F 0.9889 GRAMS OF THE BASE REACTED EXACTLY WITH 30.65 M@@L@@ OF THE ACID, WHAT IS THE MOLARITY OF THE ACID?",0.1638( END,ACT1QU822322' "@HA@@N ACID (@@M.W.=206.43) @@AND A BASE (@@M.W.=266.0-2) @@WERE USED IN A STANDARDIZATION EXPERIMENT. @@I@@F 0.9600 GRAMS OF THE ACID REACTED EXACTLY WITH 31.77 M@@L@@ OF THE BASE, WHAT IS THE MOLARITY OF THE BASE?",0.1464( "@HA@@N ACID (LARITY OF THE ACID?",0.08306' "@HA@@N ACID (@@M.W.=234.12) @@AND A BASE (@@M.W.=320.12) @@WERE USED IN A STANDARDIZATION EXPERIMENT. @@I@@F 0.9555 GRAMS IF THE ACID REACTED EXACTLY WITH 30.88 M@@L@@ OF THE BASE, WHAT IS THE MOLARITY OF THE BASE?",0.1CID. @@W@@HAT IS THE MOLARITY OF THE BASE?",0.08832& "@HA@@N ACID (@@M.W.=123.45) @@AND A BASE (@@M.W.=356.78) @@WERE USED IN A STANDARDIZATION EXPERIMENT. @@I@@F 0.9744 GRAMS OF THE BASE REACTED EXACTLY WITH 32.88 M@@L@@ OF THE ACID, WHAT IS THE MOALIZE 0.9911 GRAMS OF THE BASE. @@W@@HAT IS THE MOLARITY OF THE ACID?",0.094184% "@HI@@N A STANDARDIZATION EXPERIMENT USING A PRIMARY STANDARD ACID (@@M.W.=409.17), @@27.33 M@@L@@ OF A BASE SOLUTION WERRE REQUIRED TO NEUTRALIZE 0.9877 GRAMS OF THE ARALIZED 0.9356 GRAMS OF A PRIMARY STANDARD BASE (@@M.W.=188.20), @@WHAT IS THE MOLARITY OF THE ACID?",0.1394P$ "@HI@@N A STANDARDIZATION EXPERIMENT USING A PRIMARY STANDARD BASE (@@M.W.=354.80), 29.66 @@M@@L@@ OF AN ACID SOLUTION WERE REQUIRED TO NEUTRASE?",0.1042" "@HI@@F 23.54 M@@L@@ OF A BASE (@@M.W.=96.11) @@EXACTLY NEUTRALIZED 0.7017 GRAMS OF A PRIMARY STANDARD ACID (@@M.W.=200.19), @@WHAT IS THE MOLARITY OF THE ACID?",0.1489l# "@HI@@F 35.67 M@@L@@ OF AN ACID (@@M.W.=109.66) @@EXACTLY NEUTN OF A BASE (@@M.W.=54.99), @@WHAT IS THE MOLARITY OF THE BASE?",0.1082 " "@HI@@F 0.6727 GRAMS OF A PRIMARY STANDARD ACID (@@M.W.=239.44) @@WERE EXACTLY NEUTRALIZED BY 26.96 M@@L@@ OF A SOLUTION OF A BASE (@@M.W.=92.55), @@WHAT IS THE MOLARITY OF THE BD - 0.8111 GRAMS OF @@KHP@@ WERE NEUTRALIZED BY 35.09 M@@L@@ OF THE @@N@@A@@OH. W@@HAT IS THE MOLARITY OF THE @@N@@A@@OH?",0.1132G! "@HI@@F 0.4853 GRAMS OF A PRIMARY STANDARD ACID (@@M.W.=194.22) @@WERE EXACTLY NEUTRALIZED BY 23.09 M@@L@@ OF A SOLUTIO THE @@N@@A@@OH?",0.1129 "@HI@@F 0.7913 GRAMS OF @@KHP@@ WERE EXACTLY NEUTRALIZED BY 32.41 M@@L@@ OF @@N@@A@@OH@@, WHAT IS THE MOLARITY OF THE @@N@@A@@OH?",0.1195  "@HI@@N STANDARDIZING A SOLUTION OF @@N@@A@@OH, @@THE FOLLOWING DATA WERE OBTAINELLECTED - 0.7569 GRAMS OF @@KHP@@ WERE NEUTRALIZED BY 34.01 M@@L@@ OF THE @@N@@A@@OH. W@@HAT IS THE MOLARITY OF THE @@N@@A@@OH?",0.1090 "@HI@@F 0.8090 GRAMS OF @@KHP@@ WERE EXACTLY NEUTRALIZED BY 35.10 M@@L@@ OF @@N@@A@@OH@@, WHAT IS THE MOLARITY OFSE (@@M.W.=79.33) @@IS USED TO STANDARDIZE AN ACID (@@M.W.=98.33) @@AND 25.00 M@@L@@ OF THE ACID REQUIRED 27.22 M@@L@@ OF THE BASE, WHAT IS THE MOLARITY OF THE ACID?",0.1256~ "@HI@@N STANDARDIZING A SOLUTION OF @@N@@A@@OH, @@THE FOLLOWING DATA WERE COTRATION OF A SOLUTION OF AN ACID (@@M.W.=121.82) @@WAS .1202@@M@@ AND 25.00 M@@L@@ OF IT EXACTLY REACTED WITH 27.93 M@@L@@ OF A SOLUTION OF A BASE (@@M.W.=87.40), @@WHAT IS THE CONCENTRATION OF THE BASE?",0.1076t "@HI@@F A 0.1154@@M@@ SOLUTION OF A BA010` "@HI@@F THE MOLARITY OF A SOLUTION OF A BASE (@@M.W.=342.00) @@WAS 0.1511 @@M@@ AND 20.33 M@@L@@ OF IT EXACTLY REACTED WITH 25.00 M@@L@@ OF A SOLUTION OF AN ACID (@@M.W.=60.52), @@WHAT IS THE MOLARITY OF THE ACID?",0.1229j "@HI@@F THE CONCEN MOLARITY OF THE ACID?",0.09872V "@HI@@F THE MOLARITY OF A SOLUTION OF AN ACID (@@M.W.=169.34) @@WAS 0.1029@@M@@ AND 24.55 M@@L@@ OF IT EXACTLY REACTED WITH 25.00 M@@L@@ OF A SOLUTION OF A BASE (@@M.W.=201.77), @@WHAT IS THE MOLARITY OF THE BASE?",0.1O BE 22.45 M@@L@@, WHAT IS THE MOLARITY OF THE @@KOH?",0.09671L"@HI@@F THE MOLARITY OF A SOLUTION OF A BASE (@@M.W.=105.99) @@WAS 0.1123@@M @@AND 25.00 M@@L@@ OF IT WERE TITRATED WITH 28.44 M@@L@@ OF A SOLUTION OF AN ACID (@@M.W.=231.89), @@WHAT IS THED TO CONSUME 25.00 M@@L@@ OF A @@HB@@R SOLUTION THAT IS 0.1131@@M@@, WHAT IS THE MOLARITY OF THE @@KOH?",0.1052>B "@HA@@N @@HB@@R SOLUTION THAT IS 0.1077@@M@@ IS USED TO TITRATE 25.00 M@@L@@ OF A @@KOH@@ SOLUTION. @@I@@F THE BURET READING TURNED OUT T@@KOH@@?,0.1072. "@HT@@HE MOLARITY OF A @@HB@@R SOLUTION IS 0.09342@@M. I@@F 25.00 M@@L@@ OF THIS ACID REQUIRED 22.30 M@@L@@ OF A SOLUTION OF @@KOH@@, WHAT IS THE MOLARITY OF THE @@KOH?",0.1047o8 "@HI@@F 26.88 M@@L@@ OF @@KOH@@ TITRANT WERE NEEDEMOLARITY OF A @@KOH@@ SOLUTION IF 25.00 M@@L@@ OF A 0.09234@@M@@ SOLUTION OF @@HC@@L REQUIRED 27.34 M@@L@@ OF THE @@KOH?,0.08444$ @HW@@HAT IS THE MOLARITY OF A @@HB@@R SOLUTION IF 25.00 M@@L@@ OF IT REQUIRED 28.23 M@@L@@ OF A 0.09492@@M@@ SOLUTION OF LARITY OF THE @@HC@@L?",0.09511 "@HT@@HE MOLARITY OF A @@HC@@L SOLUTION IS 0.1103@@M. I@@F 25.00 M@@L@@ OF THIS SOLUTION REQUIRED 23.97 M@@L@@ OF @@N@@A@@OH@@ DURING A TITRATION, WHAT IS THE MOLARITY OF THE @@N@@A@@OH?",0.1150 @HW@@HAT IS THE @@HAT IS THE MOLARITY OF A @@HC@@L SOLUTION IF 25.00 M@@L@@ OF IT REQUIRED 23.84 M@@L@@ OF A 0.1033@@M N@@A@@OH@@ SOLUTION?,0.09851 "@HI@@F 25.00 M@@L@@ OF A @@HC@@L SOLUTION REQUIRED 23.04 M@@L@@ OF 0.1032@@M N@@A@@OH@@ FOR TITRATION, WHAT IS THE MO SEE THE MENU AGAIN,PRESS .+\R$2a68 "@HW@@HAT IS THE MOLARITY OF A @@N@@A@@OH @@SOLUTION THAT HAS BEEN STANDARDIZED WITH A 0.1134@@M HC@@L SOLUTION, 25.00 M@@L@@ OF WHICH REQUIRED 25.90 M@@L@@ OF THE @@N@@A@@OH?",0.1095 @HW9" ";NA$:N<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"T>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #8"MR"***************************************"W0#Y:"IF YOU WOULD LIKE TOTHE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"***************************************"8 STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" PLEASE REMOVE THE DISK FROM 5TJK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."`IRIR1g IqCC1~C7535P:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUMBER WRONG = "IR"5:" E":195ZF$"@H"I0A"@HA,B,C,D,E"AZA$"A"G1RZA$"B"G2cZA$"C"G3tZA$"D"G4ZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."CRCR1:5201:F(K)F(E)395 K,E# B :JK$" "A$(AO(P)):195H n JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195JK$"@H E) NONE OF THESNP(AO(I))1275# NP(AO(I))1:I, 'FS06 ;SW38A ^P1JH cN\ hQ15:C(Q)0:j mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS))1 KE1(0):(JK$)SW2156 TSWO1:(JK$,T,1)" "210B T:215~ L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$: W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)(J(J))1  I NA$ZA$) "GOOD LUCK, ";NA$A :"PRESS ANY KEY."R TIMER11E8b A(16384)} A127SEEDTIMER:179 Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NP(NM) 225 XK OF THE QUESTIONS." q:::6 t"PRESS ."> vN$D |N }IR0X CR0` : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ." ZF$"@H" : 1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"sA" QUIZ #8"Z:::n" SPECIAL INSTRUCTIONS:"o p" SOME FORMULA WEIGHTS FROM THE INSIDE BACK COVER OF THE TEXT MAY BE NEEDED FOR SOME                     IN,PRESS .\R$!a6' @HW@@HAT IS THE HARDNESS OF A WATER SAMPLE IN PPM @@C@@A@@CO@D3 @@IF A 100.0 M@@L@@ ALIQUOT OF THE WATER REQUIRES 23.44 M@@L@@ OF A 0.01198 @@N EDTA @@SOLUTION?,281.1 @HW@@HAT IS THE HARDNESS OF A WATER S$:=<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"C>rC"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"xDE" QUIZ #14"MR"***************************************"W0Y:"IF YOU WOULD LIKE TO SEE THE MENU AGAN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"***************************************"89" ";NA";(CR100L);"%"x::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" PLEASE REMOVE THE DISK FROM THE DRIVE AND TUR THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."OIRIR1V I`CC1mC7535tPz:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUMBER WRONG = "IR5:" STUDENT SCORE = @H" IA"@HA,B,C,D,E"0ZA$"A"G1AZA$"B"G2RZA$"C"G3cZA$"D"G4tZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."CRCR1:525CJK$"WRONG!5 K,E 1 ::JK$" "A$(AO(P)):1957 ] JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195 JK$"@H E) NONE OF THESE":195ZF$"NP(AO(I))1:I 'FS0# ;SW38. ^P1J5 cNI hQ15:C(Q)0:W mQ14FS| rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS))1 KE101:F(K)F(E)39# TSWO1:(JK$,T,1)" "210/ T:215k L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195| W$JK$:W$: W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)(J(J))1 NP(AO(I))1275  "GOOD LUCK, ";NA$. :"PRESS ANY KEY."? TIMER11E8O A(16384)j A127SEEDTIMER:179p Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NP(NM) 225 XK(0):(JK$)SW215 q:::# t"PRESS ."+ vN$1 |; }IR0E CR0M :r 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ." ZF$"@H" : I NA$ZA$ C026::F7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"eA" QUIZ #14"qZ:::n" SPECIAL INSTRUCTIONS:"o::: p" YOU WILL FIND THE MOLECULAR WEIGHT TABLE ON THE INSIDE BACK COVER OF THE TEXT USEFUL."            IS IN- STALLED AND ALLIGNED PROPERLY."R:" PRESS TO CONTINUE."ZN$` THE PAPER IS IN- STALLED AND ALLIGNED PROPERLY."[:" PRESS TO CONTINUE."cN$i YOU CAN THEN TAKE THE PRINTOUT TO YOURINSTRUCTOR. BE SURE THAT YOUR PRINTER IS ON AND CONNECTED TO YOUR COMPUTER. ALSO, BE SURE THAT THE PAPERN THEN TAKE THE PRINTOUT TO YOURINSTRUCTOR. BE SURE THAT YOUR PRINTER IS ON AND CONNECTED TO YOUR COMPUTER. ALSO, BE SURE THAT THE PAPER IS IN- STALLED AND ALLIGNED PROPERLY.":" PRESS TO CONTINUE."N$ P, BE SURE THAT   END,ACT1QU1322CL@@ OF A SOLUTION OF CALCIUM THAT IS 40 PPM. @@H@@OW MANY M@@L@@ OF A 1000 PPM SOLUTION ARE NEEDED?",34 "@HA @@LABORATORY TECHNICIAN NEEDS 550 M@@L@@ OF A SOLUTION OF COBALT THAT IS 30 PPM. @@H@@OW MANY M@@L@@ OF A 500 PPM SOLUTION ARE NEEDED?",33Y M@@L@@ OF A 800 PPM SOLUTION WOULD HE/SHE USE?",13 "@HA @@LABORATORY TECHNICIAN NEEDS 900 M@@L@@ OF A SOLUTION OF POTASSIUM THAT IS 50 PPM. @@H@@OW MANY M@@L@@ OF A 1000 PPM SOLUTION ARE NEEDED?",45h "@HA @@LABORATORY TECHNICIAN NEEDS 850 M@@ TO PREPARE 100 M@@L@@ OF A 10 PPM SOLUTION?,2.0 @HH@@OW MANY M@@L@@ OF A 600 PPM MERCURY SOLUTION ARE NEEDED TO PREPARE 250 M@@L@@ OF A 50 PPM SOLUTION?,214"@HI@@F A TECHNICIAN WANTS TO PREPARE 400 M@@L@@ OF A 25 PPM MANGANESE SOLUTION, HOW MANN ARE REQUIRED TO PREPARE 500 M@@L@@ OF A 12 PPM SODIUM SOLUTION?,6.0 @HH@@OW MANY M@@L@@ OF A 500 PPM COPPER SOLUTION ARE REQUIRED TO PREAPARE 250 M@@L@@ OF A 5.0 PPM SOLUTION?,2.50 @HH@@OW MANY M@@L@@ OF A 500 PPM CADMIUM SOLUTION ARE REQUIRED OF @@K@D2SO@D4 @@ARE NEEDED TO PREPARE 550 M@@L@@ OF A 25 PPM SULFUR SOLUTION?,75 @HH@@OW MANY M@@L@@ OF A 1000 PPM FLUORIDE SOLUTION ARE REQUIRED TO PREPARE 400 M@@L@@ OF A 20 PPM SOLUTION?,8.0E @HH@@OW MANY M@@L@@ OF A 1000 PPM SODIUM SOLUTIO11u~ @HH@@OW MANY GRAMS OF @@K@D2HPO@D4 @@ARE NEEDED TO PREPARE 450 M@@L@@ OF A 10 PPM PHOSPHORUS SOLUTION?,0.025 @HH@@OW MANY GRAMS OF @@KNO@D3 @@ARE NEEDED TO PREPARE 650 M@@L@@ OF A 15 PPM SOLUTION OF @@N@@?,0.070R @HH@@OW MANY MILLIGRAMSE 500 M@@L@@ OF A 30 PPM SOLUTION?,0.027j @HH@@OW MANY GRAMS OF @@C@@U@@SO@D4 @@ARE NEEDED TO PREPARE 300 M@@L@@ OF A 75 PPM COPPER SOLUTION?,0.057t @HH@@OW MANY GRAMS OF @@KC@@L ARE NEEDED TO PREPARE 350 M@@L@@ OF A 15 PPM CHLORIDE SOLUTION?,0.0 ARE NEEDED TO PREPARE 200 M@@L@@ OF A 60 PPM @@M@@G SOLUTION?,47V @HH@@OW MANY MILLIGRAMS OF @@C@@A@@C@@L@D2 ARE NEEDED TO PREPARE 700 M@@L@@ OF A 50 PPM @@C@@A SOLUTION?,97(` @HH@@OW MANY GRAMS OF @@B@@A@@C@@L@D2@U.@@H@D2O @@ARE NEEDED TO PREPAR8 @HH@@OW MANY MILLIGRAMS OF NICKEL ARE REQUIRED TO PREPARE 800 M@@L@@ OF A 50 PPM NICKEL SOLUTION?,40B @HH@@OW MANY MILLIGRAMS OF @@KB@@R ARE NEEDED TO PREPARE 600 ML OF A 40 PPM @@B@@R SOLUTION?,36AL @HH@@OW MANY MILLIGRAMS OF @@M@@G@@C@@L@D2ND IS CALIBRATED FOR BLOW-OUT?,10 ML OSTWALD-FOLIN PIPET8 WHAT PIECE OF GLASSWARE IS USED TO CONTAIN A SOLUTION YOU ARE PREPARING SUCH THAT ITS CONCENTRATION IS KNOWN ACCURATELY?,50 ML VOLUMETRIC FLASK END,ACT1QU72CAND IS NOT CALIBRATED FOR BLOW-OUT?,10 ML VOLUMETRIC PIPET WHAT PIPET IS CALIBRATED ONLY "TO CONTAIN"?,10 ML LAMBDA PIPET$ WHAT PIPET IS CALIBRATED BOTH "TO CONTAIN" AND "TO DELIVER"?,10 ML DUOPET8. WHAT PIPET HAS A SINGLE CALIBRATION LINE AARE IS USED TO CONTAIN A SOLUTION YOU ARE PREPARING SUCH THAT ITS CONCENTRATION IS KNOWN ACCURATELY?,50 ML VOLUMETRIC FLASK END,ACT1QU72}ADUATION LINES ALL THE WAY TO THE TIP?,10 ML SEROLOGICAL PIPET: WHAT PIPET HAS A SINGLE CALIBRATION LINE BRATED ONLY "TO CONTAIN"?,10 ML LAMBDA PIPET|$ WHAT PIPET IS CALIBRATED BOTH "TO CONTAIN" AND "TO DELIVER"?,10 ML DUOPET. WHAT PIPET HAS A SINGLE CALIBRATION LINE AND IS CALIBRATED FOR BLOW-OUT?,10 ML OSTWALD-FOLIN PIPET{8 WHAT PIECE OF GLASSWRANSFERING A SOLUTION?,10 ML MOHR PIPET} WHAT PIPET HAS GRADUATION LINES ALL THE WAY TO THE TIP?,10 ML SEROLOGICAL PIPET WHAT PIPET HAS A SINGLE CALIBRATION LINE AND IS NOT CALIBRATED FOR BLOW-OUT?,10 ML VOLUMETRIC PIPET, WHAT PIPET IS CALIE TO SEE THE MENU AGAIN,PRESS ."0aR$7f6= WHAT WOULD BE THE BEST PIECE OF GLASSWARE TO USE TO TRANSFER 45.87 ML OF SOLUTION TO ANOTHER CONTAINER?,50 ML BURET' WITH WHAT PIPET DO YOU READ THE MENISCUS TWICE IN THE PROCESS OF T9" ";NA$:R<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"X>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #7"MR"***************************************"W0(\:"IF YOU WOULD LIKROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"***************************************"8WRONG = "IR;5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;W$DW$"Y"ĬIW$"N"800S570 *:/" PLEASE REMOVE THE DISK FETURN>."CRCR1:525m:JK$" WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS "yIRIR1 R$CC1C7ī535P::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+ 0" NUMBER ! JK$" E) NONE OF THESE":195) G$9 G$"A"G1I G$"B"G2Y G$"C"G3i G$"D"G4y G$"E"G5 G1475 G5FS475 C(F(G))AO(P)515:JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."I ZF$"@H"Q :X Ie NA$ZA$| "GOOD LUCK, ";NA$ :"PRESS ANY KEY." TIMER11E8 A(16384) A127SEEDTIMER:179  Z(SEED):16368,0:N:::::"ONE INSTRUCTOR. THE TABLE OF FORMULA WEIGHTS ON THE INSIDE BACK COVER OF THE TEXT WILL BE USEFUL."r q::: t"PRESS ." vN$ | }IR0 CR0 : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 353`1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"sA" QUIZ #1"Z:::n" SPECIAL INSTRUCTIONS:"o:::f p" A HANDOUT IS REQUIRED FOR THIS QUIZ. IF YOU DON'T HAVE IT, SEE YOUR          YOUR GRADE AND DISPLAY IT ON THE SCREEN.":" YOU WILL THEN HAVE THE OPTION OF RE- PEATING THE QUIZ TO IMPROVE YOUR GRADE. AFTER YOU HAVE A GRADE THAT YOU ARE SATISFIED WITH, THE COMPUTER WILL PRINT YOUR GRADE ON THE PRINTER.":" YOU CA"!S15ĺD$;"RUN ACT1QU15,D1"1'S16ė:13@,S16ī165P1S10ė:13+" THESE ARE MULTIPLE CHOICE QUIZZES. SELECT THE BEST ANSWER TO EACH QUESTION.AFTER YOU HAVE BEEN ASKED A PARTICULAR NUMBER OF QUESTIONS, THE COMPUTER WILL CALCULATE,"TYPE THE NUMBER OF YOUR SELECTION"3Sa:::::" ONE MOMENT, PLEASE...."S10ĺD$;"RUN ACT1QU10,D1"S11ĺD$;"RUN ACT1QU11,D1"S12ĺD$;"RUN ACT1QU12,D1" S13ĺD$;"RUN ACT1QU13,D1"S14ĺD$;"RUN ACT1QU14,D1 NORMALITY (HANDOUT REQUIRED)o" 12) QUIZ 12: TITRIMETRIC ANALYSIS - % CONST. (HANDOUT REQUIRED)" 13) QUIZ 13: SOLUTION PREP - PPM" 14) QUIZ 14: WATER HARDNESS"" 15) QUIZ 15: EDTA STANDARDIZATION"" 16) MENU PAGE 1"*************************************", P " MENU PAGE TWO":~ "*************************************** " 10) QUIZ 10: NORMAL SOLUTION PREP. (HANDOUT REQUIRED)" 11) QUIZ 11: STANDARDIZATION - 3ĺD$;"RUN ACT1QU3,D1"5 }S4ĺD$;"RUN ACT1QU4,D1"S S5ĺD$;"RUN ACT1QU5,D1"q S6ĺD$;"RUN ACT1QU6,D1" S7ĺD$;"RUN ACT1QU7,D1" S8ĺD$;"RUN ACT1QU8,D1" S9ĺD$;"RUN ACT1QU9,D1" S0ī165 S9Ĭ S9ī12 & "**CIDS AND BASES (HANDOUT REQUIRED)G M" 0) MENU PAGE 2M Zu _"TYPE THE NUMBER OF YOUR SELECTION| dS f:::::" ONE MOMENT, PLEASE....." iD$(13)(4) nS1ĺD$;"RUN ACT1QU1,D1" sS2ĺD$;"RUN ACT1QU2,D1" xS 5: PH OF WEAK ACID SOLUTIONSK <" 6) QUIZ 6: MOLAR SOLUTION PREPARATIONs A" 7) QUIZ 7: VOLUMETRIC GLASSWARE F" 8) QUIZ 8: STANDARDIZATION OF ACIDS AND BASES (MOLARITY)0 K" 9) QUIZ 9: EQUIVALENT WEIGHTS OF A MENU PAGE ONE! P "****************************************V  #" 1) QUIZ 1: GRAVIMETRIC ANALYSIS I (" 2) QUIZ 2: GRAVIMETRIC ANALYSIS II -" 3) QUIZ 3: PROPERTIES OF ACIDS 2" 4) QUIZ 4: SOLUBILITY 7" 5) QUIZ 1011,100'::::::X"***************************************":" ANALYTICAL CHEMISTRY":" FOR TECHNICIANS":" COMPUTER QUIZZES": " COPYRIGHTED 1989 BY JOHN KENKEL": "      x=) oȥ{o`x)) z w`yLVn.A& $< >,.?: ; ` 8```m`m``e` H!) Lv)z{  hm Umze z z ݀zTzKUmE Sn UmLl Mn UmL m zm zm& SnLlL=l xmLlH)[ Ah `h`H)a{h)`=`x!=a 9n\ȱ T 0"ȱ0$H >n"ȱ  -)ȱx 9nȱ 0 ȱxsȱo?$oƝŢȑoh`& Sn MnQ&YLl Mn zm& Mn `` Hheh8& &i``枩x zm Sn Um Um0)   zmLl Sn Mn xmLBl Um=L5l zmLl Um Mn x zm&Ll xmLsl &'0%% 0杹&& 'y"'Х&Ģ hhh` '͐hL l̒hhhhh vgozm0>H)?(ŝ 0杩 {HDthoh )D lLkDf8tȩXo n n&'&ȱȱJI&@'0:3 ,"%0 "& @"Lj'0"  0 0&'L#jLj!&0)? )&&祛0  JJxp ȹy >йclwmЙ n8Ě"Щ0梥ȥȄ Sn MnȐLh!0зH lhDfLiLh SnL lLJkŢ& i愰إi愠` g gm8knlmimnkiklȥȑL h`zm n MnLCiLi<>ŝ ढ़Lbȹy) UmsLhi Pg g8逅ɀ8LfͩZ gȑȑ`湥FgGgG-` 5g Um` 5g `H %gh` vgo` g gJ gĥ&ȥo8奅opȥp`o8mpnMLԠZ gHȱȱh` gȱ`څijkl*уȥуnnnn𘪠`); H)h  hm Umɀ8` Vn `a먱ɀ ɎɏɆɇɐɢ ɘ əɜɝЇ` Pg g ᤠ : ,  5g`Le8 Ld f z, f z 7e둃La 7e%L*e Pg_:[ b` 멀 5g% ) bF 5g% Pg,8 5g f g)Ȋ) I챃` g gLeLԩ Pg: f68 ȱ ȱ{ Ryh{Ld RyhzLa f, f,A %z z0 we80e8ʆLeLe f,  fHh,b fʆ, f,ʆHe h8H hʅHHei hhHh Zghi Xgέh Zgh͓h h gLa e g .{ gii g g bg #g XgZT g0 >)˥ ZgLa6n7  ݀ )y %g %g #g̩x Zg g gLazHz 5g:7z  eLe{Hvpkn` g"ȱȱ fyƥLa:08``[A0{a0y g+y  ZgLe f ftĥ솥i hHЀ( Igw ~ }Lc[8ʆ %ze8zH IgbzLe IgsrЉi0i0 Igs yLa y : 5g`ȱɯ 5gLa`hhh ghh0 5g:`" fkn 5gLb"< fy% 5g0",H Um`)<ffx"850525COPYRIGHT 1983 COMPUTER TEACHING CV`譳``LY`ƹƸ ~ Ig8a{D `轀`lac``c`va`,c`aUa`ca``c%ea/e`aee` ` `/l ` H [ hI e }LdcLe f e3 }               ~`NO`0"a0 b0%{4&{/%{0*%{,)a {``8`F{`'{0a Um '{0 hmH)JJJiJhh΄`!{O{HHƥ!{ ɀzH ƀzn楥ğ n業'{)'{`{'{I '{${ь{0ɀНЁ{Ф'{ Т!{  ,LT|ĝ{{ n{枦L|ĝ͹ ,ɩ  M~  '{0 '{0,{ 0-{`+{({({ ){ n*{Ln ~ { } z~#{, g; [ i #g %gLv} ,ΥLr} |ş } { { I LH h` ~6?N2$kğ     ʀ {($ % ie g gݩ '{ ʀ#{{${ %z z y B { 4| x z { {!{{${'{"{X {LX| gĢ3H) |h {0({+{ € Y ?| € 4| i`+{{ z`H)h)U `z````ȱȱi{)ee{ `ƚeM{)I{暨`% e z$(e($H { {h` %`J ee8h8i{v8塍ov` y y`$%PRUW@)! yH)@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_hJ В`zzz` {z{`{z {` z e`{<8嚅થz { {iiz w{ w` x8z {ભ {Ltx઩ʊIe`8``i@i@`PPPP 03tɂ jz vʭ{lȃ) j)Ȅ%  ɃɃ xϤɃ80sh sh H sh s륊 ʩAзʩ:r0H Ksh` CsH _shɂɂ` `II`H) sh)!tb!tc bi  ts  sLs sʥ0`!t!t`llb p0x`;)-)"d0){fHEf hĨLEt%J00JfJJ)MIH rhH ʆ0  rȦh ʆ0 Ĩȱ r``%JJ H 2sh`e7tH0tH)t shH 0 y {Ldt vLurZq ` 9x%)H qhJJJJ@x qieĨL rH) qhJJJJ q0ׅ& & &  q@ & p& &  q & 8&퐋 ЇxHJJJJHi@ qhh) %).-439=> x 2w x wd0Lq  ȱ8` 0J)?e wLv 0 w "wLQp w wLQpȱHdVȱJħ  0 xz ȄLpJ뤨% yy xh` jz xzeLv`C880 xLv{81{L{G0P܅L pɀ`zUȌzK{FȌ{;Ȍz5Ȍz/Ȍz zLv zLv)%ooȌ{{ yLvȌ{АЌȌ{颜Ȍ{Ȍ{բȌ {ùٺ OU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."VCRCR1:525JK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."IRIR1 ICC1C7535P:::::!LCRIR:L$(C(F(3))):1955JK$"@H D) "B$(C(F(4))):195\JK$"@H E) NONE OF THESE":195iZF$"@H"pIA"@HA,B,C,D,E"ZA$"A"G1ZA$"B"G2ZA$"C"G3ZA$"D"G4ZA$"E"G5C(F(G))AO(P)515EJK$" Y0 |K Q:C(5FS)AO(P)+ E15FSH F(E)((5FS)(5FS))1g KE101:F(K)F(E)395p K,Ev  ::JK$" "A$(AO(P)):195  JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195JK$"@H C) "BB$(J):A$(J)"END"235 J# - JJ18 I1JN AO(I)(J(J))1c NP(AO(I))1275v NP(AO(I))1:I 'FS0 ;SW38 ^P1J cN hQ15:C(Q)0: mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)37          &@HLzyz            "9%<  > ? ??? ??~ >H?  ! ? !BD /O//O/  $BB@ zyzLH@L2~>""?@`P@@@~???????CT|`{}_\@[]  ~   ~   `2CTPACK2????`8򅛥8ҥˆ yz0 𳦍J xJ J (x mv8塅&J 8 ix%I w &%E&'i') ȥ8娅z n{H{HzH h h{h{ Iz T(z nh` n`ƜЅ` ze`#{zcz`yyz{`y{zy`, z,̠BX gyx` `&{i` Bhz Yh G ih{!{"{'{` ƀ Y B ƀ!{${٬!{zH nhzĥ` g  NO g&H i Tz h n n#{I#{``z` gi gŜoH  (LE WHEN THE @@F@@E@D2@@O@D3 @@PRECIPITATE WEIGHED 0.2341 GRAMS AND THE SAMPLE WEIGHED 0.1902 GRAMS?,86.08 @HW@@HAT IS THE PERCENTAGE OF VOLATILE ORGANICS IN A SAMPLE THAT WEIGHED 23.9387 GRAMS BEFORE HEATING AND 15.2948 GRAMS AFTER HEATING?,36.11$AMS AND THE SEPARATED SALT WEIGHED 4.5123 GRAMS?,20.32 @HW@@HAT IS THE PERCENT OF @@SO@D3@@ IN A SAMPLE IF THE @@B@@A@@SO@D4@@ PRECIPITATE WEIGHED 0.8301 GRAMS AND THE SAMPLE WEIGHED 0.4501 GRAMS?,63.26i @HW@@HAT IS THE PERCENT OF IRON IN A SAMPPLE WHEN THE CRUCIBLE + SAMPLE WEIGHED 23.6789 GRAMS BEFORE DRYING AND 21.2390 GRAMS AFTER DRYING WHILE THE CRUCIBLE ITSELF WEIGHED 15.9023 GRAMS?,31.376 @HW@@HAT IS THE PERCENT OF SAND IN A MIXTURE OF SAND AND SALT WHEN THE MIXTURE WEIGHED 5.6634 GRE TO SEE THE MENU AGAIN,PRESS ./\R$6a6< @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE WEIGHT OF THE SAMPLE IS 0.4534 GRAMS AND THE WEIGHT AFTER DRYING IS 0.2679 GRAMS?,40.91 @HW@@HAT IS THE PERCENT MOISTURE IN A SAM9" ";NA$:R<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"X>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #1"MR"***************************************"W0'Y:"IF YOU WOULD LIKROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"***************************************"8" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" PLEASE REMOVE THE DISK F:525XJK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."dIRIR1k IuCC1C7535P:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUMBER WRONG = "IR&5:THESE":195ZF$"@H"I4A"@HA,B,C,D,E"EZA$"A"G1VZA$"B"G2gZA$"C"G3xZA$"D"G4ZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."CRCR1)F(E)395 K,E % XK(0)F ::JK$" "A$(AO(P)):195L r JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195 JK$"@H E) NONE OF 1275 NP(AO(I))1:I" 'FS0, ;SW387 ^P1J> cNR hQ15:C(Q)0:` mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS))1 KE101:F(K)SW215, TSWO1:(JK$,T,1)" "2108 T:215t L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$: W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)(J(J))1 NP(AO(I))I NA$ZA$' "GOOD LUCK, ";NA$? :"PRESS ANY KEY."P TIMER11E8` A(16384){ A127SEEDTIMER:179 Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NP(NM) 225 (JK$THE QUESTIONS." n:::4 t" PRESS ."< vN$B |L }IR0V CR0^ : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ." ZF$"@H" : 1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"sA" QUIZ #1"Z::::d" SPECIAL INSTRUCTIONS:" i:" THE GRAVIMETRIC FACTORS FROM EXPERIMENTS 1 AND 3 WILL BE NEEDED FOR SOME OF            THAT WEIGHED 45.2375 GRAMS BEFORE HEATING AND 42.4463 GRAMS AFTER HEATING?,6.170& @HW@@HAT IS THE PERCENT OF IRON IN A SAMPLE WHEN THE @@F@@E@D2@@O@D3@@ PRECIPITATE WEIGHED 0.4862 GRAMS AND THE SAMPLE WEIGHED 0.4055 GRAMS?,83.86}' @HW@@HAT IS THE 3% "@HW@@HAT IS THE % @@SO@D3@@ IN A SAMPLE WHEN THE SAMPLE WEIGHS 0.3995 GRAMS, THE CRUCIBLE + @@B@@A@@SO@D4@@ WEIGHS 16.3463 GRAMS AND THE CRUCIBLE ALONE WEIGHS 15.5678 GRAMS?",66.84P&  @HW@@HAT IS THE PERCENTAGE OF VOLATILE ORGANICS IN A SAMPLE E WEIGHED 0.5811 GRAMS?,53.51%"@HW@@HAT IS THE % @@SO@D3@@ IN A SAMPLE WHEN THE WT. OF THE WEIGHING BOTTLE (BEFORE) IS 7.9203 GRAMS, THE WEIGHT OF THE WEIGHING BOTTLE (AFTER) IS 7.4974 GRAMS AND THE WEIGHT OF THE @@B@@A@@SO@D4@@ IS 0.7821 GRAMS?",63.4SALT IN A MIXTURE OF SAND AND SALT WHEN THE MIXTURE WEIGHED 3.7437 GRAMS AND THE SEPARATED SALT WEIGHED 3.0463 GRAMS?,81.37$ @HW@@HAT IS THE PERCENT OF SULFUR TRIOXIDE IN A SAMPLE WHEN THE BARIUM SULFATE PRECIPITATE WEIGHED 0.9066 GRAMS AND THE SAMPL IS 1.8377 GRAMS?,16.04" @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE CRUCIBLE + SAMPLE WEIGHED 15.8654 GRAMS BEFORE DRYING AND 11.4736 GRAMS AFTER DRYING WHILE THE CRUCIBLE ITSELF WEIGHED 9.7477 GRAMS?,71.79{# @HW@@HAT IS THE PERCENT OF @@HAT IS THE PERCENT OF VOLATILE ORGANICS IN A SAMPLE THAT WEIGHED 4.2904 GRAMS BEFORE HEATING AND 3.9847 GRAMS AFTER HEATING?,7.13" @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE WEIGHT OF THE SAMPLE IS 2.1889 GRAMS AND THE WEIGHT AFTER DRYINGE BARIUM SULFATE PRECIPITATE WEIGHED 0.7933 GRAMS AND THE SAMPLE WEIGHED 0.4593 GRAMS?,59.24  @HW@@HAT IS THE PERCENT OF IRON IN A SAMPLE WHEN THE @@F@@E@D2@@O@D3@@ PRECIPITATE WEIGHED 0.5883 GRAMS AND THE SAMPLE WEIGHED 0.7392 GRAMS?,55.66! @HWF WEIGHED 25.9783 GRAMS?,36.70 @HW@@HAT IS THE PERCENT OF SAND IN A MIXTURE OF SAND AND SALT WHEN THE MIXTURE WEIGHED 9.3476 GRAMS AND THE SEPARATED SALT WEIGHED 7.3864 GRAMS?,20.98]  @HW@@HAT IS THE PERCENT OF SULFUR TRIOXIDE IN A SAMPLE WHEN THEIGHT OF THE SAMPLE IS 0.6022 GRAMS AND THE WEIGHT AFTER DRYING IS 0.4393 GRAMS?,27.05 @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE CRUCIBLE + SAMPLE WEIGHED 33.1111 GRAMS BEFORE DRYING AND 30.4937 GRAMS AFTER DRYING WHILE THE CRUCIBLE ITSELAMS AND THE SAMPLE WEIGHED 0.3502 GRAMS?,79.57 @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE WEIGHT OF THE SAMPLE IS 0.6834 GRAMS AND THE WEIGHT AFTER DRYING IS 0.4599 GRAMS?,32.70V @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE WLE WHEN THE WEIGHING DISH + SAMPLE WEIGHED 45.6683 GRAMS BEFORE HEATING, 40.3344 GRAMS AFTER HEATING AND THE DISH ALONE WEIGHED 39.3297 GRAMS?",84.15.~ @HW@@HAT IS THE PERCENT OF IRON IN A SAMPLE WHEN THE @@F@@E@D2@@O@D3@@ PRECIPITATE WEIGHED 0.3984 GRHE CRUCIBLE ALONE WEIGHS 22.7390 GRAMS?",58.24j @HW@@HAT IS THE PERCENTAGE OF VOLATILE ORGANICS IN A SAMPLE THAT WEIGHED 4.3001 GRAMS BEFORE HEATING AND 2.5932 GRAMS AFTER HEATING?,39.69t "@HW@@HAT IS THE PERCENTAGE OF VOLATILE ORGANICS IN A SAMP, THE WT. OF THE WEIGHING BOTTLE (AFTER) IS 8.1846 GMS AND THE WEIGHT OF THE @@B@@A@@SO@@@D4 IS 0.8840 GMS?",98.64.` "@HW@@HAT IS THE % @@SO@D3@@ IN A SAMPLE WHEN THE SAMPLE WEIGHS 0.4822 GRAMS, THE CRUCIBLE + @@B@@A@@SO@D4@@ WEIGHS 23.5578 GRAMS AND T@HAT IS THE PERCENT OF SULFUR TRIOXIDE IN A SAMPLE WHEN THE BARIUM SULFATE PRECIPITATE WEIGHED 0.8738 GRAMS AND THE SAMPLE WEIGHED 0.3956 GRAMS?,75.76rV "@HW@@HAT IS THE %@@SO@@@D3 IN A SAMPLE WHEN THE WT. OF THE WEIGHING BOTTLE (BEFORE) IS 8.4920 GMSNG AND 20.9345 GRAMS AFTER DRYING WHILE THE CRUCIBLE ITSELF WEIGHED 17.3409 GRAMS?,50.35B @HW@@HAT IS THE PERCENT OF SALT IN A MIXTURE OF SAND AND SALT WHEN THE MIXTURE WEIGHED 7.3095 GRAMS AND THE SEPARATED SALT WEIGHED 2.4085 GRAMS?,32.95L @HW@ @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE WEIGHT OF THE SAMPLE IS 0.6023 GRAMS AND THE WEIGHT AFTER DRYING IS 0.4302 GRAMS?,28.57X) @HW@@HAT IS THE PERCENT MOISTURE IN A SAMPLE WHEN THE CRUCIBLE + SAMPLE WEIGHED 24.5793 GRAMS BEFORE DRYIOF THE SAMPLE IS EXACTLY NEUTRALIZED BY 23.45 M@@L@@ OF 0.1320 @@N H@D3PO@D4 @@ACCORDING TO EQUATION (@@Z)?,11.855j @HW@@HAT IS THE PERCENT OF @@H@D3PO@D4 @@IN A SAMPLE WHEN 0.7934 GRAMS OF THE SAMPLE IS EXACTLY NEUTRALIZED BY 40.18 M@@L@@ OF 0.09844 @ THE PERCENT OF @@N@@A@@H@D2PO@D4 @@IN A SAMPLE WHEN 34.66 M@@L@@ OF 0.1200 @@N C@@A@@(OH)@D2 @@EXACTLY NEUTRALIZES 0.7399 GRAMS OF SAMPLE ACCORDING TO EQUATION (@@M)?,33.72q` @HW@@HAT IS THE PERCENT OF @@A@@L(@@OH)@D3 @@IN A SAMPLE WHEN 0.6792 GRAMS S 0.7003 GRAMS OF SAMPLE ACCORDING TO EQUATION (@@FF)?,55.02L @HW@@HAT IS THE PERCENT OF @@H@D3PO@D4 @@IN A SAMPLE WHEN 21.09 M@@L@@ OF 0.1358 @@N KOH @@EXACTLY NEUTRALIZES 0.4911 GRAMS OF A SAMPLE ACCORDING TO EQUATION (@@I)?,19.05V @HW@@HAT ISA SAMPLE WHEN 29.55 M@@L@@ OF 0.1229 @@N KOH @@EXACTLY NEUTRALIZES A 0.6592 GRAM SAMPLE ACCORDING TO EQUATION (@@GG)?,74.98=B @HW@@HAT IS THE PERCENT OF @@N@@A@@H@D2PO@D4 @@IN A SAMPLE WHEN 34.01 M@@L@@ OF 0.09441 @@N A@@L(@@OH)@D3 @@EXACTLY NEUTRALIZEN (@@Y)?,49.93. @HW@@HAT IS THE PERCENT OF @@A@@L(@@OH)@D3 @@IN A SAMPLE WHEN 30.22 M@@L@@ OF 0.9883 @@N H@D3PO@D4 @@EXACTLY NEUTRALIZES 0.8309 GRAMS OF THE SAMPLE ACCORDING TO EQUATION (@@CC)?,9.346{8 @HW@@HAT IS THE PERCENT OF @@KH@D2PO@D4 @@IN XACTLY NEUTRALIZES 0.9073 GRAMS OF THE SAMPLE ACCORDING TO EQUATION (@@V)?,82.85$ @HW@@HAT IS THE PERCENT OF @@B@@A(@@OH)@D2 @@IN A SAMPLE WHEN 40.22 M@@L@@ OF 0.08564 @@N H@D3PO@D4 @@EXACTLY NEUTRALIZES 0.5911 GRAMS OF THE SAMPLE ACCORDING TO EQUATIO@@H@D2PO@D4 @@IN A SAMPLE WHEN 36.70 M@@L@@ OF 0.1134 @@N KOH @@EXACTLY NEUTRALIZES 0.8903 GRAMS OF THE SAMPLE ACCORDING TO EQUATION (@@L)?,28.05P @HW@@HAT IS THE PERCENT OF @@K@D2HPO@D4 @@IN A SAMPLE WHEN 46.79 M@@L@@ OF 0.09223 @@N C@@A(@@OH)@D2 @@ECORDING TO EQUATION (@@KK)?,23.54 @HW@@HAT IS THE PERCENT OF @@C@@A(@@OH)@D2 @@IN A SAMPLE WHEN 45.03 M@@L@@ OF 0.1190 @@N HC@@L EXACTLY NEUTRALIZES 0.9004 GRAMS OF THE SAMPLE ACCORDING TO EQUATION (@@C)?,22.05 @HW@@HAT IS THE PERCENT OF @@N@@AEXACTLY NEUTRALIZES 0.5634 GRAMS OF THE SODA ASH ACCORDING TO EQUATION (@@JJ)?,35.02! @HW@@HAT IS THE PERCENT OF @@N@@A@D2@@CO@D3 @@IN A SAMPLE OF SODA ASH WHEN 28.90 M@@L@@ OF 0.1202 @@N H@D2SO@D4 @@EXACTLY NEUTRALIZES 0.7821 GRAMS OF THE SODA ASH AC1R"***************************************"8W0xY:"IF YOU WOULD LIKE TO SEE THE MENU AGAIN,PRESS .\R$a6T @HW@@HAT IS THE PERCENT OF @@N@@A@D2@@CO@D3 @@IN A SAMPLE OF SODA ASH WHEN 34.09 M@@L@@ OF 0.1092 @@N HB@@R EE YOU NEXT TIME!"41::L6"***************************************"R8g9" ";NA$m:<" HAS ACHIEVED A SCORE OF ";(CR100L);"%">C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #12"M125DG$"N"800S570" **:0,/" PLEASE REMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.S0L1$&" NUMBER CORRECT = "CR*+I0" NUMBER WRONG = "IRw5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"S THE PERCENT MOISTURE IN A SAMPLE WHEN THE WEIGHT OF THE SAMPLE IS 5.2234 GRAMS AND THE WEIGHT AFTER DRYING IS 4.3753 GRAMS?,16.24)(,ACT1QU1)x END,ACT1QU12AMPLE THAT WEIGHED 45.2375 GRAMS BEFORE HEATING AND 42.4463 GRAMS AFTER HEATING?,6.170( @HW@@HAT IS THE PERCENT OF IRON IN A SAMPLE WHEN THE @@F@@E@D2@@O@D3@@ PRECIPITATE WEIGHED 0.4862 GRAMS AND THE SAMPLE WEIGHED 0.4055 GRAMS?,83.86) @HW@@HAT IPERCENT MOISTURE IN A SAMPLE WHEN THE WEIGHT OF THE SAMPLE IS 5.2234 GRAMS AND THE WEIGHT AFTER DRYING IS 4.3753 GRAMS?,16.24'x END,ACT1QU12MTHE CRUCIBLE ALONE WEIGHS 15.5678 GRAMS?",66.84V(  @HW@@HAT IS THE PERCENTAGE OF VOLATILE ORGANICS IN A SMETRIC FACTOR WHEN THE WEIGHT OF @@H@D2O @@IS TO BE CONVERTED TO THE WEIGHT OF @@H?,0.1119$ @HW@@HAT IS THE GRAVIMETRIC FACTOR WHEN THE PERCENT OF @@F@@ IS TO BE CALCULATED FROM THE WEIGHT OF @@K@@@D2@@S@@I@@F@@@D6?,0.5175d. @HW@@HAT IS THE GRAVIM FACTOR WHEN THE WEIGHT OF @@B@@I IS TO BE OBTAINED FROM THE WEIGHT OF @@B@@I@D2@@O@@@D3?,0.8970 @HW@@HAT IS THE GRAVIMETRIC FACTOR WHEN THE SUBSTANCE SOUGHT IS @@G@@A AND THE SUBSTANCE WEIGHED IS @@G@@A@D2@@O@@@D3?,0.7439Z @HW@@HAT IS THE GRAVIWHEN THE WEIGHT OF @@A@@L@@F@@@D3 IS TO BE CONVERTED TO THE WEIGHT OF @HC@@A@@F@@@D2?,1.395 @HW@@HAT IS THE GRAVIMETRIC FACTOR WHEN THE PERCENT OF @@A@@L IS TO BE CALCULATED FROM THE WEIGHT OF @@A@@L@@PO@@@D4?,0.2213` @HW@@HAT IS THE GRAVIMETRIC@Y:"IF YOU WOULD LIKE TO SEE THE MENU AGAIN,PRESS .H\R$Oa6U @HW@@HAT IS THE GRAVIMETRIC FACTOR WHEN THE SUBSTANCE WEIGHED IS @@A@@L AND THE SUBSTANCE SOUGHT IS @@A@@L@D2@@O@D3?,1.889[ @HW@@HAT IS THE GRAVIMETRIC FACTOR *******************"8/9" ";NA$5:k<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"q>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #2"MR"***************************************"W0 PLEASE REMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"********************BER WRONG = "IR?5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" SS ."CRCR1:525qJK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."}IRIR1 ICC1C7535P:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUMJK$"@H E) NONE OF THESE":1951ZF$"@H"8IMA"@HA,B,C,D,E"^ZA$"A"G1oZA$"B"G2ZA$"C"G3ZA$"D"G4ZA$"E"G5C(F(G))AO(P)515 JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRE))1# KE101:F(K)F(E)395, K,E2 > XK(0)_ ::JK$" "A$(AO(P)):195e  JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195$(J(J))1 NP(AO(I))12752 NP(AO(I))1:I; 'FS0E ;SW38P ^P1JW cNk hQ15:C(Q)0:y mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FSP(NM) 225" (JK$)SW215E TSWO1:(JK$,T,1)" "210Q T:215 L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$: W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I) ZF$"@H" : I) NA$ZA$@ "GOOD LUCK, ";NA$X :"PRESS ANY KEY."i TIMER11E8y A(16384) A127SEEDTIMER:179 Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NER WILL BE VERY HELPFUL FOR THIS QUIZ."6 r:::M t"PRESS ."U vN$[ |e }IR0o CR0w : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ."n1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"sA" QUIZ #2"Z:::n" SPECIAL INSTRUCTIONS:"* o:"TABLE 1 ON PAGE 20 OF YOUR TEXT AND THE TABLE OF ATOMIC WEIGHTS ON THE INSIDE FRONT COV          @D3 TO 0.8744 GRAMS OF THE SAMPLE (EQUATION "T") THE EXCESS BASE REQUIRED 10.45 ML OF 0.1101 N STANDARD ACID?,39.96Q! @HWHAT IS THE PERCENT OF N@@A@@H@D2PO@D4 IN A SAMPLE IF AFTER ADDING 50.00 ML OF 0.1134 N B@@A(@@OH)@D2 TO 0.9221 GRAMS OF THE SAMPLE G 50.00 ML OF 0.1023 N HB@@R@@ TO 0.9231 GRAMS OF THE SAMPLE (EQUATION "D") THE EXCESS HB@@R@@ REQUIRED 9.03 ML OF 0.1129 N N@@A@@OH (EQUATION "A")?,38.01s  @HWHAT IS THE PERCENT OF KH@D2PO@D4 IN A SAMPLE IF AFTER ADDING 50.00 ML OF 0.1257 N A@@L@@(OH)S THE PERCENT OF @@A@@L@@(OH)@D3 @@IN A SAMPLE WHEN 0.6922 GRAMS OF THE SAMPLE IS EXACTLY NEUTRALIZED BY 40.04 M@@L@@ OF 0.1008 @@N N@@A@D2@@HPO@D4 @@ACCORDING TO EQUATION (@@Q)?,15.16 @HWHAT IS THE PERCENT OF B@@A(@@OH)@D2 IN A SAMPLE IF AFTER ADDIN@N B@@A(@@OH)@D2 @@ACCORDING TO EQUATION (@@Y)?,48.86t @HW@@HAT IS THE PERCENT OF @@H@D3PO@D4 @@IN A SAMPLE WHEN 0.7033 GRAMS OF THE SAMPLE IS EXACTLY NEUTRALIZED BY 38.09 M@@L@@ OF 0.1190 @@N KOH @@ACCORDING TO EQUATION (@@AA)?,31.58~ @HW@@HAT I@F@@E(@@HCO@D3)@D2?,0.2773y" @HH@@OW MANY GRAMS OF @@F@@E ARE 0.4545 GRAMS OF @@F@@E@D2@@O@D3 @@EQUIVALENT TO?,0.3179" @HH@@OW MANY GRAMS OF @@F@@E@@PO@D4 @@ARE EQUIVALENT TO 0.1234 GRAMS OF @@F@@E@@O?,0.2590" END,ACT1QU22 AMS IF @@F@@E@@O, @@HOW MANY GRAMS OF @@F@@E@D2@@O@D3 @@COULD YOU MAKE?",0.1136! @HH@@OW MANY GRAMS OF @@F@@E@@SO@D4@@ IS 0.2245 GRAMS OF @@F@@E@D2@@O@D3@@ EQUIVALENT TO?,0.4271" @HH@@OW MANY GRAMS OF @@F@@E CAN BE OBTAINED FROM 0.8833 GRAMS OF @ @HH@@OW MANY GRAMS OF @@F@@E@@PO@D4 @@ARE EQUIVALENT TO 0.1234 GRAMS OF @@F@@E@@O?,0.2590l END,ACT1QU229 "@HI@@F YOU HAD 0.5674 GRAMS OF @@F@@E@D2@@O@D3, @@HOW MANY GRAMS OF @@F@@E@@O@@ COULD YOU MAKE?",0.5106O! "@HI@@F YOU HAD 0.1022 GR0.2245 GRAMS OF @@F@@E@D2@@O@D3@@ EQUIVALENT TO?,0.4271 @HH@@OW MANY GRAMS OF @@F@@E CAN BE OBTAINED FROM 0.8833 GRAMS OF @@F@@E(@@HCO@D3)@D2?,0.2773 @HH@@OW MANY GRAMS OF @@F@@E ARE 0.4545 GRAMS OF @@F@@E@D2@@O@D3 @@EQUIVALENT TO?,0.3179Z  YOU HAD 0.5674 GRAMS OF @@F@@E@D2@@O@D3, @@HOW MANY GRAMS OF @@F@@E@@O@@ COULD YOU MAKE?",0.5106 "@HI@@F YOU HAD 0.1022 GRAMS IF @@F@@E@@O, @@HOW MANY GRAMS OF @@F@@E@D2@@O@D3 @@COULD YOU MAKE?",0.11367 @HH@@OW MANY GRAMS OF @@F@@E@@SO@D4@@ IS T IS @@R@@B?,0.9144 "@HI@@F YOU HAD 0.3654 GRAMS OF @@F@@E@@O, @@HOW MANY GRAMS OF @@F@@E@@CO@D3@@ COULD YOU MAKE?",0.5892 "@HI@@F YOU HAD 0.6395 GRAMS OF @@F@@E@D2@@O@D3, @@HOW MANY GRAMS OF @@F@@E@@CO@D3 @@COULD YOU MAKE?",0.9279a"@HI@@FALENT TO 0.4856 GRAMS OF @@F@@E@D2@@O@D3?,0.5347 @HH@@OW MANY GRAMS OF @@F@@E@@PO@D4@@ CAN BE DERIVED FROM 0.7564 GRAMS OF @@F@@E@@O?,1.5878 @HW@@HAT IS THE GRAVIMETRIC FACTOR WHEN THE SUBSTANCE WEIGHED IS @@R@@B@D2@@O@@ AND THE SUBSTANCE SOUGH @HH@@OW MANY GRAMS OF @@F@@E@D3@@O@D4@@ CAN ONE OBTAIN FROM 0.2387 GRAMS OF @@F@@E@D2@@O@D3?,0.2307 "@HI@@F YOU HAD 0.6037 GRAMS OF @@F@@E@@O, @@HOW MANY GRAMS OF @@F@@E@@S@@ COULD YOU MAKE?",0.73870 @HH@@OW MANY GRAMS OF @@F@@E@@S@@ ARE EQUIVOF @@N@@A@D2@@O@@ IS TO BE CONVERTED TO THE WEIGHT OF @@N@@A?,0.7419t @HH@@OW MANY GRAMS OF @@CO@D2 @@ARE EQUIVALENT TO 0.5933 GRAMS OF @@F@@E@@CO@D3?,0.2254~ @HH@@OW MANY GRAMS OF @@F@@E CAN BE DERIVED FROM 0.7237 GRAMS OF @@F@@E@@O?,0.5625eHEN THE WEIGHT OF @@S@@I@@O@D2@@ IS TO BE OBTAINED FROM THE WEIGHT OF @@S@@I@D2@@O?,1.665` "@HI@@F YOU HAD 0.4435 GRAMS OF @@F@@E@@CO@D3, @@HOW MANY GRAMS OF @@F@@E@@O@@ COULD YOU MAKE?",0.2750Dj @HW@@HAT IS THE GRAVIMETRIC FACTOR WHEN THE WEIGHT VIMETRIC FACTOR WHEN THE WEIGHT OF @@P@@B IS TO BE CONVERTED TO THE WEIGHT OF @@P@@B@@O@D2?,1.154L@HW@@HISTHEAVIMETRICFACRWHENTHEPERCENF@@F@@E@D2@@O@D3@@UISBEDETERMINEDFROMTHEWEIGHF@@F@@E@D3@@O@D4,1.035YV @HW@@HAT IS THE GRAVIMETRIC FACTOR WETRIC FACTOR WHEN THE WEIGHT OF @@L@@I IS TO BE OBTAINED FROM THE WEIGHT OF @@L@@I@D2@@SO@D4?,0.12628 @HW@@HAT IS THE GRAVIMETRIC FACTOR WHEN THE SUBSTANCE SOUGHT IS @@B@@R AND THE SUBSTANCE WEIGHED IS @@M@@G@@B@@R@D2?,0.8680aB @HW@@HAT IS THE GRA A NOTED APPLICATION FOR THE DISSOLVING POWER OF NITRIC ACID.,SILVER METALV A NOTED APPLICATION FOR THE DISSOLVING POWER OF HYDROFLUORIC ACID.,GLASS` A NOTED APPLICATION FOR THE DISSOLVING POWER OF PERCHLORIC ACID.,LEATHER6j A NOTED APPLICAT FOR AN EXTRACTION OF A PESTICIDE OR HERBICIDE FROM WATER SAMPLES.,METHYLENE CHLORIDE8 A NOTED APPLICATION FOR THE DISSOLVING POWER OF HYDROCHLORIC ACID.,IRON OREB A NOTED APPLICATION FOR THE DISSOLVING POWER OF SULFURIC ACID.,ALUMINUM OXIDEKL AND MUST BE STORED IN PLASTIC CONTAINERS.,HYDROFLUORIC ACID A SUBSTANCE THAT IS MOST USEFUL FOR THE DISSOLVING OF LEATHERS AND RUBBERS.,PERCHLORIC ACID$ TWO ACIDS ARE MIXED TO MAKE THIS SUBSTANCE.,AQUA REGIAU. A SUBSTANCE THAT WOULD BE GOODAR COVALENT COMPOUNDS.,WATERw A SUBSTANCE THAT HAS A HIGH DENSITY AND CAN BE DESCRIBED AS "SYRUPPY".,SULFURIC ACID A SUBSTANCE THAT WILL TURN SKIN YELLOW AFTER A FEW MINUTES OF CONTACT.,NITRIC ACID< A SUBSTANCE THAT IS VERY DAMAGING TO SKINF YOU WOULD LIKE TO SEE THE MENU AGAIN,PRESS .>aR$Ef6K AN OPEN BOTTLE OF THIS SUBSTANCE WILL RELEASE PARTICULARLY IRRITATING FUMES.,HYDROCHLORIC ACID A SUBSTANCE THAT IS MOST APPROPRIATE FOR DISSOLVING SOLUBLE IONIC AND POL*********"8%9" ";NA$+:a<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"g>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #3"MR"***************************************"W06\:"IMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41:: 6"******************************0" NUMBER WRONG = "IRJ5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;W$DW$"Y"ĬIW$"N"800S570 *:/" PLEASE RE5:" PRESS "(CRCR1:525|:JK$" WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS "IRIR1 R$CC1C7ī535P::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+1475 SW40ĺ5 JK$" E) NONE OF THESE":195= G$M G$"A"G1] G$"B"G2m G$"C"G3} G$"D"G4 G$"E"G5 G1475 G5FS475 C(F(G))AO(P)515:JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):19101:F(K)F(E)395! K,E:' H ::JK$" "A$(AO(P)):195N n JK$" A) "B$(C(F(1))):195| SW40ĺ JK$" B) "B$(C(F(2))):195 SW40ĺ JK$" C) "B$(C(F(3))):195 SW40ĺ JK$" D) "B$(C(F(4))):195 FSI))1:I " 'FS0% 6HC1605/ ;SW39D ^P1J:355:415J c^ hQ15:C(Q)0:l mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS))1 KEJK$,T,1)" "210 T:215X L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195n W$JK$:W$:135:~ W$::135: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)(J(J))1 NP(AO(I))1275 NP(AO( PRESS ANY KEY."$ uTIMER11E84 wA(16384)O xA127SEEDTIMER:122U yn zZ(SEED):16368,0 {:"ONE MOMENT, PLEASE, ";NA$ | 180 NM50 AO(NM),A$(NM),B$(NM),NP(NM) 225 (JK$)SW215 TSWO1:(J1011,100C0&:(" WHAT IS YOUR NAME?"C*NA$I2v7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"A" QUIZ #3"Z:::d" SPECIAL INSTRUCTIONS:"in" NONE.q::: s"       ION "S") THE EXCESS BASE REQUIRED 7.89 ML OF 0.09566 N STANDARD ACID?,52.31^' END,ACT1QU122R@D2 TO 0.6992 GRAMS OF THE SAMPLE (EQUATION "J") THE EXCESS BASE REQUIRED 4.96 ML OF 0.1489 N STANDARD ACID?,22.55K' @HWHAT IS THE PERCENT OF KH@D2PO@D4 IN A SAMPLE IF AFTER ADDING 50.00 ML OF 0.1514 N B@@A(@@OH)@D2 TO 0.8865 GRAMS OF THE SAMPLE (EQUAT8719 GRAMS IF AFTER ADDING 50.00 ML OF 0.1329 N N@@A@D2@@CO@D3 (EQUATION "NN") THE EXCESS BASE REQUIRED 6.71 ML OF 0.08334 N HB@@R @@(EQUATION "JJ")?,34.20r& @HWHAT IS THE PERCENT OF H@D3PO@D4 IN A SAMPLE IF AFTER ADDING 50.00 ML OF 0.1113 N B@@A@@(OH) OF C@@A(@@OH)@D2 IN A SAMPLE WEIGHING 0.5677 GRAMS IF AFTER ADDING 50.00 ML OF 0.1239 N KH@D2PO@D4 (EQUATION "HH") THE EXCESS ACID REQUIRED 5.16 ML OF 0.1009 N N@@A@@OH (EQUATION "R")?,37.03% @HWHAT IS THE PERCENT OF H@D3PO@D4 IN A SAMPLE WEIGHING 0.OLUTION?,25.87# @HWHAT IS THE PERCENT OF HC@D2H@D3O@D2 IN A SAMPLE WEIGHING 0.8944 GRAMS IF AFTER ADDING 50.00 ML OF 0.09332 N KOH (EQUATION "QQ") THE EXCESS BASE REQUIRED 4.55 ML OF 0.1106 N H@D2SO@D4 (EQUATION "F")?,27.95$ @HWHAT IS THE PERCENTEQUIRED 5.45 ML OF 0.09888 N STANDARD ACID?,43.39# @HWHAT IS THE PERCENT OF H@D3PO@D4 IN A SAMPLE WEIGHING 0.6688 GRAMS IF AFTER ADDING 50.00 ML OF 0.1121 N N@@A@@@D2CO@D3 (EQUATION "LL") THE EXCESS BASE REQUIRED 3.44 ML OF A 0.08944 N STANDARD ACID S(EQUATION "EE") THE EXCESS BASE REQUIRED 8.90 ML OF 0.1088 N STANDARD ACID?,61.181" @HWHAT IS THE PERCENT OF N@@A@D2@@CO@D3 IN A SAMPLE WEIGHING 0.6005 GRAMS IF AFTER ADDING 50.00 ML OF 0.1091 N H@D2SO@D4 TO THE SAMPLE (EQUATION "KK") THE EXCESS ACID RPPLICATION FOR THE DISSOLVING POWER OF PERCHLORIC ACID.,LEATHERj A NOTED APPLICATION FOR THE DISSOLVING POWER OF AQUA REGIA.,GOLD METALt END,ACT1QU32@B A NOTED APPLICATION FOR THE DISSOLVING POWER OF SULFURIC ACID.,ALUMINUM OXIDEL A NOTED APPLICATION FOR THE DISSOLVING POWER OF NITRIC ACID.,SILVER METALV A NOTED APPLICATION FOR THE DISSOLVING POWER OF HYDROFLUORIC ACID.,GLASS?` A NOTED AION FOR THE DISSOLVING POWER OF AQUA REGIA.,GOLD METALHt END,ACT1QU32PD BE GOOD FOR AN EXTRACTION OF A PESTICIDE OR HERBICIDE FROM WATER SAMPLES.,METHYLENE CHLORIDE8 A NOTED APPLICATION FOR THE DISSOLVING POWER OF HYDROCHLORIC ACID.,IRON OREQHAT IS THE SOLUBILITY OF LEAD CARBONATE, @@P@@B@@CO@@@D3?",1.8 @HX 10@U-@U7L "@HW@@HAT IS THE SOLUBILITY OF LEAD IODIDE, @@P@@B@@I@@@D2?",1.5 @HX 10@U-@U3V"@HW@@HAT IS THE SOLUBILITY OF MAGNESIUM HYDROXIDE, @@M@@G@@(OH)@@@D2?",1.4 @HX 10@U-@U4HE SOLUBILITY OF CALCIUM FLUORIDE, @@C@@A@@F@@@D2?",2.15 @HX 10@U-@U4. "@HW@@HAT IS THE SOLUBILITY OF CALCIUM SULFATE, @@C@@A@@SO@@@D4?",4.9 @HX 10@U-@U38 "@HW@@HAT IS THE SOLUBILITY OF CUPRIC SULFIDE, @@C@@U@@S?",9.2 @HX 10@U-@U2@U3KB "@HW@@ILITY OF BARIUM CHROMATE, @@B@@A@@C@@R@@O@@@D4?",1.5 @HX 10@U-@U5 "@HW@@HAT IS THE SOLUBILITY OF BARIUM FLUORIDE, @@B@@A@@F@@@D2?",7.5 @HX 10@U-@U3 "@HW@@HAT IS THE SOLUBILITY OF CADMIUM SULFIDE, @@CDS?",6.0 @HX 10@U-@U1@U5E$ "@HW@@HAT IS T AGAIN,PRESS .\R$%a6+ "@HW@@HAT IS THE SOLUBILITY OF ALUMINUM HYDROXIDE, @@A@@L(@@OH)@D3@@?",1.1 @HX 10@U-@U4 "@HW@@HAT IS THE SOLUBILITY OF BARIUM CARBONATE, @@B@@A@@CO@D3@@?",9.0 @HX 10@U-@U5A "@HW@@HAT IS THE SOLUB";NA$ :A<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"G>vC"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"|DE" QUIZ #4"MR"***************************************"W0Y:"IF YOU WOULD LIKE TO SEE THE MENU TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"***************************************"89" E = ";(CR100L);"%"|::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" PLEASE REMOVE THE DISK FROM THE DRIVE ANDONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."SIRIR1Z IdCC1qC7535xP~:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUMBER WRONG = "IR5:" STUDENT SCORF$"@H"I#A"@HA,B,C,D,E"4ZA$"A"G1EZA$"B"G2VZA$"C"G3gZA$"D"G4xZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."CRCR1:525GJK$"WR,E  XK(0)5 ::JK$" "A$(AO(P)):195; a JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195 JK$"@H E) NONE OF THESE":195ZI))1:I 'FS0 ;SW38& ^P1J- cNA hQ15:C(Q)0:O mQ14FSt rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS))1 KE101:F(K)F(E)395 KSWO1:(JK$,T,1)" "210' T:215c L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195t W$JK$:W$:~ W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)(J(J))1 NP(AO(I))1275 NP(AO( "GOOD LUCK, ";NA$. :"PRESS ANY KEY."? TIMER11E8O A(16384)j A127SEEDTIMER:179p Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NP(NM) 225 (JK$)SW215 T s:::# t"PRESS ."+ vN$1 |; }IR0E CR0M :r 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ." ZF$"@H" : I NA$ZA$1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"tA" QUIZ # 4"Z:::n" SPECIAL INSTRUCTIONS:" p:"YOU WILL FIND APPENDIX 4 OF THE TEXT USEFUL FOR SOME OF THE QUESTIONS ON THISQUIZ.":          ZF$"@H" : I% NA$ZA$< "GOOD LUCK, ";NA$T :"PRESS ANY KEY."e TIMER11E8u A(16384) A127SEEDTIMER:179 Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NP(NM TEXT WILL BE USEFUL FOR THIS QUIZ."2 q:::I t"PRESS ."Q vN$W |a }IR0k CR0s : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ."  C026::F7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"eA" QUIZ #13"qZ:::n" SPECIAL INSTRUCTIONS:"o:::& p" THE TABLES OF ATOMIC AND MOLECULAR WEIGHTS ON THE INSIDE FRONT AND BACK COVERS OF THE        """"     6" END,ACT1QU427SOLUBILITY PRODUCT CONSTANT OF @@Z@@N@@CO@D3 @@GIVEN THAT THE SOLUBILITY IS 4.6 @@X 10@U-@U6?",2.1 @HX 10@U-@U1@U1" "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@T@@L(@@OH)@D3 @@GIVEN THAT THE SOLUBILITY IS 2.2 @HX 10@U-@U1@U2?",6.3 @HX 10@U-@U4@U CONSTANT OF @@A@@G@D2@@S @@GIVEN THAT THE SOLUBILITY IS 4.4 @@X 10@U-@U1@U8?",3.4 @HX 10@U-@U5@U2  "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@S@@R@@F@D2 @@GIVEN THAT THE SOLUBILITY IS 8.5 @@X 10@U-@U4?",2.5 @HX 10@U-@U9r! "@HW@@HAT IS THE "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@T@@L(@@OH)@D3 @@GIVEN THAT THE SOLUBILITY IS 2.2 @HX 10@U-@U1@U2?",6.3 @HX 10@U-@U4@U6 END,ACT1QU42AT THE SOLUBILITY IS 1.6 @@X 10@U-@U4?",2.6 @HX 10@U-@U8b  "@HW@@HAT IS THE SOLUBILITY PRODUCT SOLUBILITY PRODUCT CONSTANT OF @@S@@R@@F@D2 @@GIVEN THAT THE SOLUBILITY IS 8.5 @@X 10@U-@U4?",2.5 @HX 10@U-@U9 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@Z@@N@@CO@D3 @@GIVEN THAT THE SOLUBILITY IS 4.6 @@X 10@U-@U6?",2.1 @HX 10@U-@U1@U1 UCT CONSTANT OF @@A@@G@@OH @@GIVEN THAT THE SOLUBILITY IS 1.6 @@X 10@U-@U4?",2.6 @HX 10@U-@U8 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@A@@G@D2@@S @@GIVEN THAT THE SOLUBILITY IS 4.4 @@X 10@U-@U1@U8?",3.4 @HX 10@U-@U5@U2o "@HW@@HAT IS THEOH)@D2 @@GIVEN THAT THE SOLUBILITY IS 6.7 @@X 10@U-@U6?",1.2 @HX 10@U-@U1@U5 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@A@@G@D3@@PO@D4 @@GIVEN THAT THE SOLUBILITY IS 4.7 @@X 10@U-@U6?",1.3 @HX 10@U-@U2@U0] "@HW@@HAT IS THE SOLUBILITY PROD THE SOLUBILITY IS 7.7 @@X 10@U-@U5?",5.9 @HX 10@U-@U9 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@F@@E@@CO@D3 @@GIVEN THAT THE SOLUBILITY IS 5.9 @@X 10@U-@U6?",3.5 @HX 10@U-@U1@U1L "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@P@@B(@@TY IS 6.9 @@X 10@U-@U5?",4.8 @HX 10@U-@U9 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@C@@A(@@OH)@D2 @@GIVEN THAT THE SOLUBILITY IS 1.1 @@X 10@U-@U2?",5.3 @HX 10@U-@U66 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@C@@U@@B@@R GIVEN THATU7?",5.0 @HX 10@U-@U1@U9 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@C@@D@@CO@D3 @@GIVEN THAT THE SOLUBILITY IS 2.3 @@X 10@U-@U6?",5.3 @HX 10@U-@U1@U2) "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@C@@A@@CO@D3 @@GIVEN THAT THE SOLUBILITY OF SILVER CARBONATE, @@A@@G@D2@@CO@D3?",1.2 @HX 10@U-@U4~ "@HW@@HAT IS THE SOLUBILITY OF SILVER IODIDE, @@A@@G@@I?",1.2 @HX 10@U-@U8 "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@B@@A(@@OH)@D2 @@GIVEN THAT THE SOLUBILITY IS 5.0 @@X 10@U-@` "@HW@@HAT IS THE SOLUBILITY PRODUCT CONSTANT OF @@C@@E(@@OH)@D3 @@GIVEN THAT THE SOLUBILITY IS 3.9 @@X 10@U-@U6?",6.2 @HX 10@U-@U2@U1j "@HW@@HAT IS THE SOLUBILITY OF NICKEL SULFIDE, @@N@@I@@S@@?",1.2 @HX 10@U-@U1@U2;t "@HW@@HAT IS THE SOLUBILI IS THE P@@H@@ OF A 0.30@@M@@ SOLUTION OF PHENOL?,5.21V @HW@@HAT IS THE P@@H@@ OF A 0.050@@M@@ SOLUTION OF PHENYLACETIC ACID?,2.79` @HW@@HAT IS THE P@@H@@ OF A 0.40@@M@@ SOLUTION OF TRICHLOROACETIC ACID?,0.55-j @HW@@HAT IS THE P@@H@@ OF A 0.1?,2.45X. @HW@@HAT IS THE P@@H@@ OF A 0.10@@M@@ SOLUTION OF DICHLOROACETIC ACID?,1.248 @HW@@HAT IS THE P@@H@@ OF A 0.050@@M@@ SOLUTION OF FORMIC ACID?,2.53B @HW@@HAT IS THE P@@H@@ OF A 0.20@@M@@ SOLUTION OF IODOACETIC ACID?,1.916L @HW@@HATUTYRIC ACID?,2.67a @HW@@HAT IS THE P@@H@@ OF A 0.15@@M@@ SOLUTION OF CHLOROACETIC ACID?,1.84 @HW@@HAT IS THE P@@H@@ OF A 0.25@@M@@ SOLUTION OF P-CHLOROBENZOIC ACID?,2.29$ @HW@@HAT IS THE P@@H@@ OF A 0.35@@M@@ SOLUTION OF TRANS-CINNAMIC ACIDAGAIN,PRESS .\R$$a6*u @HW@@HAT IS THE P@@H@@ OF A 0.10@@M@@ SOLUTION OF BENZOIC ACID?,2.59 @HW@@HAT IS THE P@@H@@ OF A 0.20@@M@@ SOLUTION OF BROMOACETIC ACID?,1.69 @HW@@HAT IS THE P@@H@@ OF A 0.30@@M@@ SOLUTION OF N-B;NA$ :@<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"F>uC"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"{DE" QUIZ #5"MR"***************************************"W0Y:"IF YOU WOULD LIKE TO SEE THE MENU TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"***************************************"89" " = ";(CR100L);"%"{::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" PLEASE REMOVE THE DISK FROM THE DRIVE AND NG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."RIRIR1Y IcCC1pC7535wP}:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUMBER WRONG = "IR5:" STUDENT SCORE$"@H" I"A"@HA,B,C,D,E"3ZA$"A"G1DZA$"B"G2UZA$"C"G3fZA$"D"G4wZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS ."CRCR1:525FJK$"WROE  XK(0)4 ::JK$" "A$(AO(P)):195: ` JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195 JK$"@H E) NONE OF THESE":195ZF))1:I 'FS0 ;SW38% ^P1J, cN@ hQ15:C(Q)0:N mQ14FSs rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS))1 KE101:F(K)F(E)395 K,WO1:(JK$,T,1)" "210& T:215b L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195s W$JK$:W$:} W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)(J(J))1 NP(AO(I))1275 NP(AO(I "GOOD LUCK, ";NA$- :"PRESS ANY KEY."> TIMER11E8N A(16384)i A127SEEDTIMER:179o Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NP(NM) 225 (JK$)SW215 TS q:::" t"PRESS ."* vN$0 |: }IR0D CR0L :q 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ." ZF$"@H" : I NA$ZA$1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"sA" QUIZ #5"Z:::n" SPECIAL INSTRUCTIONS:"p:"YOU WILL FIND APPENDIX 5 OF THE TEXT USEFUL FOR MOST OF THE QUESTIONS ON THISQUIZ.":        ***************"8+9" ";NA$1:g<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"m>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #13"MR"***************************************"W0<YASE REMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"************************WRONG = "IR;5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/" PLETURN>."CRCR1:525mJK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS ."yIRIR1 ICC1C7535P:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+ 0" NUMBER H E) NONE OF THESE":195)ZF$"@H"0IEA"@HA,B,C,D,E"VZA$"A"G1gZA$"B"G2xZA$"C"G3ZA$"D"G4ZA$"E"G5C(F(G))AO(P)515JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PRESS .H\R$Oa6U @HH@@OW MANY GRAMS OF @@N@@A@@OH@@ ARE REQUIRED TO PREPARE 350 M@@L@@ OF A 0.25@@M@@ SOLUTION?,3.5" @HH@@OW MANY GRAMS OF @@KOH@@ ARE REQUIRED TO PREPARE 400 M********************"809" ";NA$6:l<" HAS ACHIEVED A SCORE OF ";(CR100L);"%"r>C"ON ANALYTICAL CHEMISTRY FOR TECHNICIANS"DE" QUIZ #6MR"***************************************"W0 PLEASE REMOVE THE DISK FROM THE DRIVE AND TURN OFF THE COMPUTER, MONITOR AND PRINTER. ADVANCE THE PAPER IN THE PRINTER, TEAR OFF THE PAPER AT THE PER- FORATION AND TAKE IT TO YOUR INSTRUCTOR.SEE YOU NEXT TIME!"41::6"*******************MBER WRONG = "IR@5:" STUDENT SCORE = ";(CR100L);"%"::"IF YOU WANT TO DO THE QUIZ AGAIN, PRESS 'Y' THEN . IF NOT, PRESS 'N' THEN .;ZF$"@H"<G$?G$"Y"125DG$"N"800S570 *:,/"ESS "CRCR1:525rJK$"WRONG! THE CORRECT ANSWER IS: "B$(AO(P)):195:" PRESS "~IRIR1 ICC1C7535P:::::!LCRIR:L0L1&" NUMBER CORRECT = "CR+0" NUJK$"@H E) NONE OF THESE":1950ZF$"@H"7ILA"@HA,B,C,D,E"]ZA$"A"G1nZA$"B"G2ZA$"C"G3ZA$"D"G4ZA$"E"G5C(F(G))AO(P)515 JK$" YOU ARE CORRECT! THE ANSWER IS: "B$(AO(P)):195:" PR)1" KE101:F(K)F(E)395+ K,E1 = XK(0)^ ::JK$" "A$(AO(P)):195d  JK$"@H A) "B$(C(F(1))):195 JK$"@H B) "B$(C(F(2))):195 JK$"@H C) "B$(C(F(3))):195 JK$"@H D) "B$(C(F(4))):195#J(J))1 NP(AO(I))12751 NP(AO(I))1:I: 'FS0D ;SW38O ^P1JV cNj hQ15:C(Q)0:x mQ14FS rC(Q)(J(J))1:C(Q)AO(P)370 wKQ1O1:C(K)C(Q)370 |K Q:C(5FS)AO(P) E15FS F(E)((5FS)(5FS)(NM) 225! (JK$)SW215D TSWO1:(JK$,T,1)" "210P T:215 L$(JK$,T):W$L$:220:JK$" "(JK$,((JK$))T):195 W$JK$:W$: W$: J1NM:A$(J),B$(J):A$(J)"END"235 J JJ1 I1J AO(I)( ZF$"@H" : I( NA$ZA$? "GOOD LUCK, ";NA$W :"PRESS ANY KEY."h TIMER11E8x A(16384) A127SEEDTIMER:179 Z(SEED):16368,0:N:::::"ONE MOMENT, PLEASE ....." NM35 AO(NM),A$(NM),B$(NM),NPAND APPENDIX 7 USEFUL FOR THIS QUIZ."5 s:::L t"PRESS ."T vN$Z |d }IR0n CR0v : 6:5:"ONE MOMENT, PLEASE....." (13);(4);"BRUN ACTPACK" 35326 N ::::"TYPE YOUR NAME THEN PRESS ."1011,100C02'6::T7" ANALYTICAL CHEMISTRY FOR TECHNICIANS"sA" QUIZ #6"Z:::n" SPECIAL INSTRUCTIONS:"o) q"YOU WILL FIND THE TABLE OF FORMULA WEIGHTS ON THE INSIDE BACK COVER OF THE TEXT !! ! ! ! ! !!!!!!!!!""" " " " " """""F A SOLUTION THAT IS 45 PPM CALCIUM?,0.018$ @HH@@OW MANY GRAMS OF TIN METAL ARE REQUIRED TO PREPARE 550 M@@L@@ OF A SOLUTION THAT IS 25 PPM TIN?,0.014. @HH@@OW MANY GRAMS OF GOLD ARE NEEDED TO PREPARE 700 M@@L@@ OF A 30 PPM GOLD SOLUTION?,0.021i0 M@@L@@ OF A SOLUTION THAT IS 40 PPM MAGNESIUM?,0.012 @HH@@OW MANY GRAMS OF ALUMINUM METAL ARE REQUIRED TO PREPARE 600 M@@L@@ OF A SOLUTION THAT IS 40 PPM ALUMINUM?,0.024* @HH@@OW MANY GRAMS OF CALCIUM METAL ARE REQUIRED TO PREPARE 400 M@@L@@ OED TO PREPARE 500 M@@L@@ OF A SOLUTION THAT IS 30 PPM COPPER?,15 @HH@@OW MANY MILLIGRAMS OF SILVER METAL ARE REQUIRED TO PREPARE 750 M@@L@@ OF A SOLUTION THAT IS 30 PPM SILVER?,236 @HH@@OW MANY GRAMS OF MAGNESIUM METAL ARE REQUIRED TO PREPARE 30:"IF YOU WOULD LIKE TO SEE THE MENU AGAIN,PRESS .D\R$Ka6Q @HH@@OW MANY MILLIGRAMS OF IRON METAL ARE REQUIRED TO PREPARE 250 M@@L@@ OF A SOLUTION THAT IS 15 PPM IRON?,3.8@ @HH@@OW MANY MILLIGRAMS OF COPPER METAL ARE REQUIR70@@M@@ SOLUTION?,21"  @HH@@OW MANY M@@L@@ OF A @@KOH@@ SOLUTION PREPARED BY DILUTING 45 GRAMS OF @@KOH@@ TO 100 M@@L@@ ARE NEEDED TO PREPARE 250 M@@L@@ OF A 0.75@@M@@ SOLUTION?,23" END,ACT1QU62C DILUTING 60 GRAMS OF @@KOH@@ TO 100 M@@L@@ ARE NEEDED TO PREPARE 300 M@@L@@ OF A 0.65@@M@@ SOLUTION?,18" @HH@@OW MANY M@@L@@ OF A @@N@@A@@OH SOLUTION PREPARED BY DILUTING 60 GRAMS OF @@N@@A@@OH@@ TO 100 M@@L@@ ARE NEEDED TO PREPARE 450 M@@L@@ OF A 0. 450 M@@L@@ OF A 0.70@@M@@ SOLUTION?,21  @HH@@OW MANY M@@L@@ OF A @@KOH@@ SOLUTION PREPARED BY DILUTING 45 GRAMS OF @@KOH@@ TO 100 M@@L@@ ARE NEEDED TO PREPARE 250 M@@L@@ OF A 0.75@@M@@ SOLUTION?,23 END,ACT1QU622R @@KOH@@ SOLUTION PREPARED BYUTION PREPARED BY DILUTING 60 GRAMS OF @@KOH@@ TO 100 M@@L@@ ARE NEEDED TO PREPARE 300 M@@L@@ OF A 0.65@@M@@ SOLUTION?,18'  @HH@@OW MANY M@@L@@ OF A @@N@@A@@OH @@SOLUTION PREPARED BY DILUTING 60 GRAMS OF @@N@@A@@OH@@ TO 100 M@@L@@ ARE NEEDED TO PREPARE1.10 LITERS OF A 0.30@@M@@ SOLUTION?,22 @HH@@OW MANY M@@L@@ OF A @@N@@A@@OH @@SOLUTION PREPARED BY DILUTING 50 GRAMS OF @@N@@A@@OH@@ TO 150 M@@L@@ ARE NEEDED TO PREPARE 400 M@@L@@ OF A 0.35@@M@@ SOLUTION?,17y @HH@@OW MANY M@@L@@ OF A @@KOH@@ SOLRE REQUIRED TO PREPARE 1.20 LITERS OF A 0.55@@M@@ SOLUTION?,41 @HH@@OW MANY M@@L@@ OF CONCENTRATED @@HF@@ ARE REQUIRED TO PREPARE 1.40 LITERS OF A 0.65@@M@@ SOLUTION?,35' @HH@@OW MANY M@@L@@ OF CONCENTRATED @@H@D3PO@D4 @@ARE REQUIRED TO PREPARE CENTRATED @@HC@@L ARE REQUIRED TO PREPARE 1.10 LITERS OF A 0.35@@M@@ SOLUTION?,32 @HH@@OW MANY M@@L@@ OF CONCENTRATED @@H@D2SO@D4@@ ARE REQUIRED TO PREPARE 1.20 LITERS OF A 0.40@@M@@ SOLUTION?,27> @HH@@OW MANY M@@L@@ OF CONCENTRATED @@HNO@D3@@ A @HH@@OW MANY M@@L@@ OF CONCENTRATED @@HNO@D3@@ ARE REQUIRED TO PREPARE 425 M@@L@@ OF A 0.40@@M@@ SOLUTION?,11 @HH@@OW MANY M@@L@@ OF CONCENTRATED @@HF@@ ARE REQUIRED TO PREPARE 415 M@@L@@ OF A 0.65@@M@@ SOLUTION?,10Q @HH@@OW MANY M@@L@@ OF CON@M@@ SOLUTION?,24 @HH@@OW MANY M@@L@@ OF CONCENTRATED @@HC@@L ARE REQUIRED TO PREPARE 450 M@@L@@ OF A 0.25@@M@@ SOLUTION?,9.4 @HH@@OW MANY M@@L@@ OF CONCENTRATED @@H@D3PO@D4@@ ARE REQUIRED TO PREPARE 350 M@@L@@ OF A 0.20@@M@@ SOLUTION?,4.7oUIRED TO PREPARE 550 M@@L@@ OF A 0.40@@M@@ SOLUTION?,13t @HH@@OW MANY MILLIGRAMS OF @@KC@@L ARE REQUIRED TO PREPARE 35 M@@L@@ OF A 0.0075@@M@@ SOLUTION?,20~ @HH@@OW MANY MILLIGRAMS OF @@C@@A@@C@@L@D2 ARE REQUIRED TO PREPARE 25 M@@L@@ OF A 0.0085@AMS OF @@N@@A@D2@@CO@D3@@ ARE REQUIRED TO PREPARE 1.20 LITERS OF A 0.045@@M@@ SOLUTION?,5.7` @HH@@OW MANY MILLIGRAMS OF @@N@@A@D2@@SO@D4 @@ARE REQUIRED TO PREPARE 60 M@@L@@ OF A 0.0035@@M@@ SOLUTION?,307j @HH@@OW MANY GRAMS OF @@N@@A@@C@@L ARE REQ@@ SOLUTION?,16|B @HH@@OW MANY GRAMS OF @@NH@D4NO@D3@@ ARE REQUIRED TO PREPARE 1.25 LITERS OF A 0.060@@M@@ SOLUTION?,6.0L @HH@@OW MANY GRAMS OF @@KM@@N@@O@D4@@ ARE REQUIRED TO PREPARE 1.10 LITERS OF A 0.055@@M@@ SOLUTION?,9.6[V @HH@@OW MANY GR