BRIGHT TUTORIALSREASONING TEST

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1. ;fn fdlh lkadsfrd Hkk”kk esa KINETIC dks TICDKIN fy[kk tkrk gS] rks mlh Hkk”kk esa MACHINE dks fdl çdkj fy[kk tk,xk \(1) ENIGMAC (2) INEGMAC(3) INEGCAM (4) ENIGCAM(5) INEGMCA

2. ;fn P dk vFkZ ‘×’, Q dk vFkZ ‘÷’, R dk vFkZ ‘−¿’ rFkk S dk vFkZ ‘+¿’ gS rks&46 R 12 P 3 S 18 Q 9 = ?(1) 13.3 (2) 14(3) 36.5 (4) 16(5) 12

3. ;fn ‘kCn DEFAULTS dk çR;sd Loj vaxzsth o.kZekyk ds vxys Loj ls rFkk çR;sd O;atu vaxzsth o.kZekyk ds igys v{kj ls cnyk tkrk gS] rks ubZ Js.kh esa fdrus v{kj nks ckj ç;ksx gksaxs \(1) dksbZ ugha (2) ,d (3) nks (4) rhu(5) pkj

4. ftl çdkj ‘VT’ dk laca/k ‘QO’ ls gS] mlh çdkj ‘MK’ dk laca/k fdlls gS \(1) HF (2) IG(3) RP (4) JG(5) QO

5. ‘kCn RATION esa ,sls fdrus v{kj ;qXe gSa ftuesa ls çR;sd ds chp nksuksa ¼nksuksa vksj½ mrus gh v{kj gSa ftrus fd muds chp vaxzsth o.kZekyk esa gksrs gSa \(1) dksbZ ugha (2) ,d (3) nks (4) rhu(5) rhu ls vf/kd

6. la[;k 35928164 esa fdrus vadksa dh la[;k dh fLFkfr ogh jgsxh] tcfd la[;k ds vadksa dks ckbZ vksj ls nkbZa vksj c<+rs Øe esa fy[kk tk, \(1) dksbZ ugha (2) ,d

(3) nks (4) rhu(5) rhu ls vf/kd

1. In a certain code KINETIC is written as TICDKIN. How is MACHINE written in that code ?(1) ENIGMAC (2) INEGMAC(3) INEGCAM (4) ENIGCAM(5) INEGMCA

2. If P means ‘×’, Q means ‘÷’, R means ‘−¿’ and S means ‘+¿’ then46 R 12 P 3 S 18 Q 9 = ?(1) 13.3 (2) 14(3) 36.5 (4) 16(5) 12

3. If each vowel of the word DEFAULTS is changed to the next letter in the English alphabetical series and each consonant is changed to the previous letter in the English alphabetical series, how many alphabets will appear twice in the new formation ?(1) None (2) One(3) Two (4) Three(5) Four

4. ‘VT’ is related to ‘QO’ in the same way as ‘MK’ is related to(1) HF (2) IG(3) RP (4) JG(5) QO

5. How many such pairs of letters are there in the word RATION, each of which has as many letters between them in the word (in both forward and backward directions) as they have

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between them in the English alphabetical series?(1) None (2) One(3) Two (4) Three(5) More than three

6. The positions of how many digits will remain the same if the digits in the number 35928164 are rearranged in the ascending order from left to right?(1) None (2) One (3) Two(4) Three (5) More than three

7. pkj FkSys T, S, V vkSj W gSaA çR;sd dk out vyx&vyx gSA T dsoy S gYdk gSA V, W ls gYdk gSA W, T lcls gYdk FkSyk dkSu lk gS \(1) S (2) W(3) T (4) V(5) fu/kkZfjr ugha fd;k tk ldrk

8. ;fn ‘kCn ‘RECIPROCATE’ ds igys] ik¡posa] lkrosa vkSj X;kjgosa v{kjksa ls dksbZ ,d lkFkZd ‘kCn cu ldrk gks] rks ckbZ vksj ls bldk nwljk v{kj D;k gksxk \ ;fn ,d ls vf/kd ,sls ‘kCn cuuk laHko gks] rks mŸkj ‘X’ nhft, vkSj ;fn dksbZ Hkh ,slk ‘kCn cuuk laHko u gks rks mŸkj ‘Z’ nhft,A(1) R (2) P(3) E (4) X(5) Z

9. v{kjksa EAP ls fdrus vaxzsth ds lkFkZd ‘kCn cuuk laHko gS] tcfd çR;sd ‘kCn esa çR;sd v{kj flQZ ,d ckj ç;ksx gks \(1) dksbZ ugha (2) ,d (3) nks (4) rhu(5) pkj

10. es?kuk nf{k.k dh vksj 10 fdeh Mªkbo djrh gSA fQj nkbZa vksj eqM+dj 6 fdeh Mªkbo djrh gSA

blds ckn og nkbZa vksj eqM+dj 10 fdeh tkrh gS vkSj rc :d tkrh gSA vc og vius pyus ds LFkku ls fdruh nwj gS \(1) 16 fdeh (2) 6 fdeh (3) 4 fdeh (4) 12 fdeh(5) buesa ls dksbZ ugha

funsZ’k (ç.11-15): uhps fn;s x;s çR;sd ç’u esa rhu dFku o nks fu”d”kZ ftUgsa I vkSj II Øekad fn,;s x;s gSaA vkidks fn, x, dFkuksa dks lR; ekuuk gS Hkys gh og loZKkr rF;ksa ls fHkUu çrhr gksrs gksaA lHkh fu”d”kksZ esa ls dkSu lk fu”d”kZ fn, x, dFkuksa dk rdZlaxr :i ls vuqlj.k djrk gS] pkgs loZKkr rF; dqN Hkh gksaA mŸkj nhft,(1) ;fn dsoy fu”d”kZ I vuqlj.k djrk

gSA(2) ;fn dsoy fu”d”kZ II vuqlj.k djrk

gSA(3) ;fn ;k rks fu”d”kZ I ;k fQj II vuqlj.k

djrk gSA(4) ;fn urks fu”d”kZ I vkSj u gh II

vuqlj.k djrk gSA(5) ;fn fu”d”kZ I vkSj II nksuksa

vuqlj.k djrs gSaA7. There are four bags T, S, V and W, each

having different weight. Bag T is lighter only than S. V is lighter than W and W is lighter than T. Which of the four bags is the lightest?(1) S (2) W(3) T (4) V(5) Cannot be determined

8. If it is possible to make only one meaningful word with the first, fifth, seventh and eleventh letters of the word ‘RECIPROCATE’ which. Would be the second letter of the word from the left? If more than one such word can be formed, give X as the answer. If no such word can be formed, give Z as your answer.(1) R (2) P(3) E (4) X

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(5) Z

9. How many meaningful English words can be made from the letters EAP, using each letter only once in each word?(1) None (2) One(3) Two (4) Three(5) Four

10. Meghna drives 10 km towards South, takes a right turn and drives 6 km. She than takes another right turn, drives 10 km and stops. How far is she from the starting point?(1) 16 km (2) 6 km (3) 4 km (4) 12 km(5) None of these

Directions (Q.11-15): In each question below are three statements followed by two conclusions numbered I and II. You have to take the three given statements to be true even if they seem to be at variance with commonly known facts and then decide which of the given conclusions logically follows from the three statements disregarding commonly known facts. Give answer(1) If only conclusion I follows.(2) If only conclusion II follows.(3) If either conclusion I or conclusion II follows.(4) If neither conclusion I nor conclusion II follows.(5) If both conclusion I and II follow.

11. dFku% lHkh thi dkjsa gSaAlHkh dkjsa clsa gSaAdqN clsa Vªd gSaA

fu”d”kZ%I. dqN thi Vªd gSaAII. lHkh thi clsa gSaA

12. dFku% dqN ckWy jSdswV gSaA

dqN jSdsV cSV gSaAlHkh cSV usV gSaA

fu”d”kZ%I. dksbZ usV ckWy ugha gSAII. lHkh jSdsV usV gSaA

13. dFku% lHkh dEI;wVj fçUVj gSaA

lHkh fçUVj LVSiyj gSaAlHkh LVSiyj LdSuj gSaA

fu”d”kZ%I. lHkh fçUVj LdSuj gSaAII. dqN LVSiyj dEI;wVj gSaA

14. dFku% dksbZ Mªe fxVkj ugha gSA

lHkh fxVkj okbfyu gSaA dqN okbfyu ckalqfj;ka gSaA

fu”d”kZ%I. dqN okbfyu fxVkj gSaAII. dqN Mªe ckalqfj;ka gSaA

15. dFku% lHkh canwdsa rksisa gSaA

lHkh rhj rksisa gSaAdqN rksis /kuq”k gSaA

fu”d”kZ%I. dqN canwdsa rhj gSaAII. dqN rhu /kuq”k gSaA

funsZ’k (ç.16-20): fuEufyf[kr ç’uksa esa @, ©, %, $, vkSj çrhdksa dk uhps dk vFkZ esa ç;ksx fd;k x;k gS % ‘P © Q’ dk vFkZ gS ‘P, Q ds ;k rks cjkcj ;k cM+k gSA’‘P % Q’ dk vFkZ gS ‘P, Q ls NksVk gSA’‘P Q’ dk vFkZ gS ‘P, Q ds ;k rks cjkcj gS ;k NksVk gS’‘P @ Q’ dk vFkZ gS ‘P, Q ls cM+k gSA’‘P $ Q’ dk vFkZ gS ‘P, Q ds cjkcj gSA’

11. Statements: All jeeps are cars.All cars are buses.Some buses are trucks.

Conclusions:I. Some jeeps are trucks.II. All jeeps are buses.

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12. Statements: Some balls are rackets.Some rackets are bats.All bats are nets.

Conclusions:I. No net is a ball.II. All rackets are nets

13. Statements: All computers are printers.All printers are staplers.All staplers are scanners.

Conclusions:I. All printers are scanners.II. Some staplers are computers.

14. Statements: No drum is a guitar.All guitars are violins.Some violins are flutes

Conclusions:I. Some violins are guitars.II. Some drums are flutes.

15. Statements: All guns are cannons.All arrows are cannons.Some cannons are bows.

Conclusions:I. Some guns are bows.II. Some arrows are bows.

Directions (Q.16-20): In the following questions, @, ©, %, $, and are used with the following meaning as illustrated below: ‘P © Q’ means ‘P is either equal to or greater than Q.’ ‘P % Q’ means ‘P is smaller than Q.’ ‘P Q’ means ‘P is either equal to or smaller than Q.’ ‘P @ Q’ means ‘P is greater than Q.’‘P $ Q’ means ‘P is equal to Q.’vc uhps fn, x, çR;sd ç’u esa fn, x, dFkuksa dks lR; ekurs gq, ;g irk yxkb, fd muds uhps fn, x, fu”d”kZ I vkSj II esa dkSu&lk@dkSu&ls fu”d”kZ fuf’pr :i ls lR; gS@gSa \mŸkj nhft,&

(1) ;fn dsoy fu”d”kZ I lR; gSA(2) ;fn dsoy fu”d”kZ II lR; gSA(3) ;fn ;k rks fu”d”kZ I ;k fQj II lR; gSA(4) ;fn u rks fu”d”kZ I vkSj u gh II lR;

gSA(5) ;fn fu”d”kZ I vkSj II nksuksa lR;

gSaA

16. dFku % L M, M$N, N%Kfu”d”kZ% I. K@L II. L N

17. dFku % A©B, B@C, C Dfu”d”kZ% I. D©B II. C%A

18. dFku % H%G, G©F, F Efu”d”kZ% I. F%H II. G©E

19. dFku % R@S, S©T, T$V

fu”d”kZ% I. R@T II. V S

20. dFku % W X, X@Y, Y%Zfu”d”kZ% I. W%Y II. Z@W

funsZ’k (ç.21-25): fuEufyf[kr tkudkjh dks /;ku ls if<+, vkSj fn, x, ç’uksa ds mŸkj nhft, %

vkB fe= L, M, P, Q, R, S, T vkSj V dsUæ dh vksj eqag djds ,d o`Ÿk ds fxnZ cSBs gSaA L, M ds nk,a dks rhljs LFkku ij cSB gS vkSj L, P ds ck,a dks nwljs LFkku ij cSBk gSA R o S ,d nwljs ds ckn cSBs gSa vkSj muesa ls dksbZ Hkh L dk fudVLFk iM+kslh ugha gSA Q, T ds nk,a dks nwljs LFkku ij cSBk gSA V, S ds nk,a dks nwljs LFkku ij cSBk gSA

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21. V ds ck,a dks rhljs LFkku ij dkSu cSBk gS \(1) Q (2) R(3) P (4) L(5) buesa ls dksbZ ugha

22. fuEufyf[kr esa ls dkSu&lk tksM+k P ds fudVLFk iM+kslh dks fu:fir djrk gS \(1) RS (2) QT(3) MP (4) RQ(5) buesa ls dksbZ ugha

Now in each of the following questions assuming the given statements to be true, find which of the two conclusion I and II given below them is/ are definitely true.Give answer-(1) if only Conclusion I is true.(2) if only Conclusion II is true.(3) if either Conclusion I or II is true.(4) if neither Conclusion I nor II is true(5) If both Conclusion I and II are true.

16. Statements : L M, M$N, N%KConclusions: I. K@L II. L N

17. Statements : A©B, B@C, C DConclusions: I. D©B II. C%A

18. Statements : H%G, G©F, F EConclusions: I. F%H II. G©E

19. Statements : R@S, S©T, T$V

Conclusions: I. R@T II. V S

20. Statements : W X, X@Y, Y%ZConclusions: I. W%Y II. Z@W

Directions (Q.21-25): Study the following

information to answer the given questions:

Wight friends L, M, P, Q, R, S, T and V are

sitting around circle facing the centre. L sits third

to the right of M and L sits second of the left of P.

R and S sit next to each other and none of them is

an immediate neighbour of L. Q sits second to the

right of T. V sits second to the right of S.

21. Who sits third to the left of V ?(1) Q (2) R(3) P (4) L(5) None of these

22. Which of the following pairs represents the immediate neighbours of P ?(1) RS (2) QT(3) MP (4) RQ(5) None of these

23. fuEufyf[kr esa ls yksxksa ds fdl lewg esa rhljk O;fDr igys vkSj nwljs O;fDr ds Bhd e/; esa cSBk gS \(1) PRS (2) MST(3) LVT (4) MPR(5) buesa ls dksbZ ugha

24. mijksDr O;oLFkk esa vius LFkku ds vk/kkj ij fuEufyf[kr esa ls pkj fdlh çdkj leku gSa blfy, mudk ,d lewg curk gSA og ,d dkSu&lk gS tks ml lewg esa ugha vkrk gS \(1) SQ (2) PT(3) VR (4) MP(5) VP

25. ;fn L ls vkjaHk djds lHkh fe=ksa dks nf{k.kkorZ fn’kk esa muds ukeksa ds o.kkZuqØe esa fcBk;k tk,] rks fdrus fe=ksa dk LFkku ¼L dks NksM+dj½ vifjofrZr jgsxk \(1) dksbZ ugha (2) ,d (3) nks (4) rhu(5) pkj

funsZ’k (ç.26-30): fuEufyf[kr ç’u uhps nh xbZ ikap f=vadh; la[;kvksa ij vk/kkfjr gSa %

761 548 392 645 249

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26. ;fn lHkh la[;kvksa dks ck,a ls nk,a vojksgh Øe esa yxk;k tk,] rks nk,a ls nwljh la[;k ds rhuksa vadksa dk ;ksx fuEufyf[kr ls fdruk gksxk \(1) 15 (2) 18(3) 14 (4) 17(5) 21

27. ;fn lcls cM+h la[;k ds nwljs vad dks lcls NksVh la[;k ds igys vad ls foHkkftr fd;k tk, rks ifj.kke D;k vk,xk \(1) 1.5 (2) 2(3) 4 (4) 9(5) 3

28. ;fn çR;sd fo”ke la[;k ds igys vad esa ‘1’ tksM+k tk, vkSj çR;sd le la[;k ds igys vad ls ‘1’ ?kVk;k tk, rks bl rjg cuh lcls cM+h vkSj lcls NksVh la[;k ds chp fdruk varj jgsxk \(1) 569 (2) 413(3) 453 (4) 512(5) 469

23. In which of the following groups of people is the third person sitting exactly in the middle of the first and the second persons ?(1) PRS (2) MST(3) LVT (4) MPR(5) None of these

24. Four the following five are alike in a certain way had on their positions in the above arrangement and so five a group. Which is the one that does not belong to the group ?(1) SQ (2) PT(3) VR (4) MP(5) VP

25. Starting from L, if all the friends are made to sit in the alphabetical order of their names in the clockwise direction, the positions of how many (except L) will remain unchanged ?(1) None (2) One(3) Two (4) Three(5) Four

Directions (Q.26-30): Following questions are based on the five three-digit numbers given below:

761 548 392 645 249

26. If all the numbers are arranged in descending order from left to right, which of the following will be the sum of all the three digits of the number which is second from the right ?(1) 15 (2) 18(3) 14 (4) 17(5) 21

27. What will be the resultant if the second digit of the highest number is divided by the first digit of the lowest number ?(1) 1.5 (2) 2(3) 4 (4) 9(5) 3

28. If ‘1’ is added to the first digit of every odd number and ‘1’ is subtracted from the first digit of every even number what will be difference between the highest number and the lowest number thus formed ?(1) 569 (2) 413(3) 453 (4) 512(5) 469

29. ;fn çR;sd la[;k esa lHkh vad la[;k ds chp ck,a ls nk,a dks vojksgh Øe esa yxk, tk,a rks fdruh fo”ke la[;k cusaxh \(1) dksbZ ugha (2) ,d (3) nks (4) rhu(5) pkj

30. çR;sd la[;k ds igys vkSj rhljs vad ds LFkku ijLij cnys tkrs gSaA bl rjg cuh nwljh lcls cM+h la[;k ds igys vkSj vafre ds chp fdruk varj gksxk \(1) 9 (2) 2(3) 4 (4) 6(5) 3

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funsZ’k (ç.31-35): fuEufyf[kr O;oLFkk dks /;ku ls if<+, vkSj uhps fn, x, ç’uksa ds mŸkj nhft,%A Q 2 K F & E 7 S 9 N M Z $ 6 % @ V L 8 W 4 β 3 5 © U # C

31. mijksDr O;oLFkk ds ck,a Nksj ls vBkjgosa ds ck,a dks ukSoka fuEufyf[kr esa ls dkSu gS \(1) W (2) N(3) (4) S(5) buesa ls dksbZ ugha

32. mijksDr O;oLFkk esa ,slh fdruh fo”ke la[;k, gSa] ftuesa ls çR;sd ds ,dne igys ,d O;atu vkSj ,dne ckn esa Hkh ,d O;atu gS \(1) dksbZ ugha (2) ,d (3) nks (4) rhu(5) rhu ls vf/kd

33. ;fn mijksDr O;oLFkk ls lHkh v{kj vkSj çrhd gVk fn, tk,a] rks mijksDr O;oLFkk ds ck,a Nksj ls NBk fuEufyf[kr esa ls dkSu&lk gksxk \(1) 7 (2) 8(3) 3 (4) 6(5) 4

34. mijksDr O;oLFkk eas ,sls fdrus çrhd gSa ftuesa ls ,dne igys ,d la[;k vkSj ,d ,nde ckn esa ,d v{kj Hkh gS \

29. If in each number all the digits are arranged in descending order from left to right within the number, how many odd numbers will be formed ?(1) None (2) One(3) Two (4) Three(5) Four

30. The positions of the first and the third digits of each of the numbers are interchanged. What will be the difference between the first and the last digits of the second highest number thus formed ?(1) 9 (2) 2(3) 4 (4) 6(5) 3

Directions (Q.31-35): Study the following arrangement carefully and answer the questions given below:A Q 2 K F & E 7 S 9 N M Z $ 6 % @ V L 8 W 4 β 3 5 © U # C

31. Which of the following is the ninth to the left of the eighteenth from the left end of the above arrangement ?(1) W (2) N(3) (4) S(5) None of these

32. How many such odd numbers are there in the above arrangement, each of which is immediately preceded by a consonant and also immediately followed by a consonant ?(1) None (2) One(3) Two (4) Three(5) More than three

33. If all the letters and symbols are dropped from the above arrangement, which of the following will be the sixth from the left end of the above arrangement? (1) 7 (2) 8(3) 3 (4) 6(5) 4

34. How many such symbols are there in the above arrangement, each of which is immediately preceded by a number and also immediately by a letter?(1) dksbZ ugha (2) ,d (3) nks (4) rhu(5) rhu ls vf/kd

35. mijksDr esa vius LFku ds vk/kkj ij fuEufyf[kr ik¡p esa ls pkj fdlh

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çdkj leku gSa blfy, mudk ,d lewg curk gSA og ,d dkSu&lk gS tks ml lewg esa ugha vkrk gS \ (1) KE& (2) SN9(3) M6$ (4) 453(5) @8L

funsZ’k (ç.36-40): uhps çR;sd ç’u esa vad@çrhdksa dk ,d lewg vkSj mlds ckn v{kjksa ds ik¡p la;kstu (1), (2), (3), (4) vkSj (5) fn, x, gSaA fuEufyf[kr dksfMax flLVe vkSj ‘krksZa ds vk/kkj ij vkidks irk yxkuk gS fd dkSu&lk la;kstu v{kj lewg dks lgh <ax ls fu:fir djrk gSA vkSj ml la;kstu ds uacj dks vius mŸkj ds :i esa fn[kkuk gSAvad@çrhd% 2 © 8 % H 5 @ # $ 6 9 4 P 7 3

v{kjdksM% W B F P M C I K A E T Q H R U

‘krsZ %(i) ;fn igyk rRo ,d le la[;k gks vkSj

vafre rRo ,d çrhd gks rks nksuksa dks ‘£’ dksM fn;k tk,xkA

(ii) ;fn igyk rRo ,d çrhd gS vkSj vafe rRo ,d iw.kZ oxZ gS] rks bu nksuksa ds dksM ijLij cnys tk,axsA

(iii) ;fn igyk vkSj vafre nksuksa rRo çrhd gSa rks bu nksuksa dks ogh dksM fn;k tk,xk tks dksM vafre çrhd dk gksxkA

36. #7%83$(1) KRPFUA (2) ARUPFA(3) ARPFUK (4) KRPFUK(5) ARPFUA

37. 652 8β(1) ECWMFH (2) £CWMF£(3) ECWMFE (4) £CWFM£ (5) £CMWF£

38. ©47$29

(1) TQRAWT (2) TQAWRB(3) BQRAVVT (4) TQRAWB(5) BQRAWB(1) None (2) One(3) Two (4) Three(5) More than three

35. Four of the following five are alike in a certain way based on their positions in the above arrangement and so form a group. Which is the one that does not belong to that group?(1) KE& (2) SN9(3) M6$ (4) 453(5) @8L

Directions (Q.36-40): In each question below is given a group of letters followed by five combinations of number / symbol codes numbered (1), (2), (3), (4) and (5). You have to find out which of the combinations correctly represents the group of letters based on the following coding system and the conditions and mark the number of that combination that follow and mark the number of that combination as our answer.Number

2 © 8 % H 5 @ # $ 6 9 4 P 7 3

Letters Code :

W B F P M C I K A E T Q H R U

Conditions :(i) If both first and last elements are even number

and the last a symbol both these are to be coded as ‘£’.

(ii) If the first element is a symbol and the last perfect square, the codes for both these are to be interchanged.

(iii) If both first and last elements are symbols, the codes for both these are to be coded as the code for the last symbol.

36. #7%83$(1) KRPFUA (2) ARUPFA(3) ARPFUK (4) KRPFUK(5) ARPFUA

37. 652 8β(1) ECWMFH (2) £CWMF£(3) ECWMFE (4) £CWFM£ (5) £CMWF£

38. ©47$29

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(1) TQRAWT (2) TQAWRB(3) BQRAVVT (4) TQRAWB(5) BQRAWB

39. 5$246#(1) £AWQE£ (2) CAWQEK(3) KAWQEC (4) CAEWQK(5) KAWQEK

40. H78%34(1) MRFPUQ (2) QRPUFM(3) QRFPUM (4) MRFPUM(5) £RFPU£

41. 5$246#(1) £AWQE£ (2) CAWQEK(3) KAWQEC (4) CAEWQK(5) KAWQEK

42. H78%34(1) MRFPUQ (2) QRPUFM(3) QRFPUM (4) MRFPUM(5) £RFPU£