ssc jr engineer civil question paper
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3.33.9P i"#Time Allowed: 2 Hoursfuifftd €Hq:2 q?
INSTRUCTIONS TO CANDIDATESl. This Booklet contains 200 questions in all comprising the following
three tests :
Test (i) : General dReasoning (50 euestions)Test (ii) : General (50 euestions)Test(iii): PartA: eering (t00euestionsj
(Civil and Structural)OR
Part B : General Engineering(Electrical)
ORPart C : General Engineering-
(Mechanical)In questions set bilingually in Enelish anddiscr'epancy. the English"version will pr?viil. - -
DO NOT OPEN THE SEAL OF THE BOOKLET UNTIL YOIJ ARE TOLD TO DO SO
Test Form No.2€ qtd {.414 La 5
JN
r. T€ gR-+l l 5n zoo ytr i, m,fi=ifrffi d-c ctq"r {nfr€ i ,
q0qq (i; : {rrnq 5ft S{ d-+ (bo eFT)
{q" fill : {rTrlrer qrfirfr . ^ (bo w?)ctlsrq (iii) : r{FT 6
' qrqfq {Sm (foo xw)(frkd qi {re-{riq-s)
.*. ,o#ffi* (1oo eFT)(Fdgd)
(100 Questions)
(100 Questions)
Hindi, in case of
10. I:.jn"f:l:l!::l,lrfl be handed over to rhe rnvigitator betore youleave tne bxamlnatlon Hall.
14. No rough_workis to be done on_the Answer-Sheet. Space for roughwork hds been provided below the quiiti;;;.---" -
4.o.
6.
e1ft sq-c 3TF-cd E dpn {q+ srrq{ eis I rya w i 4aFr(Ta6 ad 67rv I dr tt?ftt 3dr + fus 0 25 3jswwt Ivrd*vmitt qrtfudtuREJLqQ R.iT 3rrrrarl r zFntfu*lne,rf :Ireqr!, dr deEt?rf{tttrs gRI eTITsr Tf,{-qFrTsr 3rdzT tg5 6.C q *ta g* 3nr-qFfl * side-l i fiqqrc-d * srlsR s47T, Id ;1a17, iae w( cnefi 6t ilq # s*yr q? i fud, qs ffi;l+{w stR-cF*l c{Frrrll|d 6.r ffyrH $ft
10.
11.
12.
u,ri qr qClqER q{wsc-mt t
{ys.{i@r_so) C dE({ s c{€ qTqTffi
13. ,r^qcTfd t r gre xq 3ilsr{ irsr g;6sTtsffi €{q c drns I14. q,,rfit trpqrd*ftqremsrfr*
fr fre dq d,F 4 @H qq d$ +dr 7 wg.DB 2014lPage 1
Directions : In questions no.related word / Ietters / number
7to8,fro*
select thethe giuen
atternitiifr; *7?*.
,(kf }JJL (B) AxP(c) cFG . (D) GFC
.]lbV3. cet
' erclSDY: ?
,*{c""(C) CML
1:1::10:?(A) 72
(c) 2r0
7:56::5:?(A) 25
*{so
4
(B) CLM(D) CEP
'/r'-_ Y(B) 110
,,Jfrcoo
{.Kf/Nzawl(A) Shillong
(B)
(D)
G) Kohima(E Daijeeling
4 -5(-Ilsh- *g26
35
Y
cor
th;
w
a
tl
7. Crime: Court: : Disease: ?
(A) Doctor (B) Medicine
\ t\J9. Which one is the same as Mumbai. Kolkata
and Cochin ?
(A) lelhi (B) Kanpur-/',tg) Chennai (D) Sholapur
10. The following numbers fall in a group. Whichone does zof belong to the group ?
53,63,83,73(A) 53
(c) 83
. DB 201 4lPage 2
\e
v{ es
(D) 73
.DB 2
sPAcE FoR RoUGH woRK 71p 6{ + frq rafli
\1
TEST (i) : GENERAL INTELLIGENCE AND REASONING
yxmn
cbrs
13.
14.
15.
@rw'9
,lrkf cabbage(C) Potato
17. (A) HGFE(C) DCBA
remainder.
,*xfi+B(c) r43e
20.
\{\
\\
Directions : In questions no. 17 to 17, find the o
word / letters / number pair from the giralternatiues.
{rfDfrel cFr\ \..-/ (C) POR
,/L2. {A) vwqp
(C) stkl
(A) (324,78)(c) (7t7,8L)
"?46) y'fr1z
(A) (11, 121)
@'(12,l4l)(A) Kolkata
{OfBengaluru
(B) 'ffi,rf"
16. Carrot, Cabbage, Potato, Ginger, Beetroot
19. Which one of the given responses would bgmeaningful order of the following words ?
<u/wx@
"tcut(B)
(D)
18. Arrange the following words as per orderthe dictionary :
1. Emplane
3. Embrace
5. Equable
(A) 5, t,3,2,4Vff-4,3, r,2,5
1. Sowing
3. Reaping
(A) 3,L,2,4(c) 1,2,4,3
2. Tilling4. Weeding
.6 z,l, 4,9(D) 1,3,2,4
Find the smallest number which wdivided by 25,40 or 56 has in each case 13
(B) (25,625)(D) (15,225)
(B) Vishakhapatnan(D) Haldia
(B) Carrot(D) Beetroot
(B) PONM
.pfiusru
2. Empower
4. Elocution
(B) 4,2,7,3, [ ,
(D) 4,5,2,3,1
a.& t\L
v->'s:o(D) 1426
l"d
ln frdw : ert ti@T z * s t, fu qq Eqdt it t€q@rd tw t erqrl t iwr +l gfrg t
1. ADGJ: BEHK::DGJM: ?
(A) KPUB (B) GJMP(c) r(}{Qr (D) PS\ry
ACE: BDF: : GIK:?(A) HJL G) AXP(C) CFG (D) GFC
CAT: BIG: : DDY: ?
(A) CLL (B) CLM(C) CML (D) CEP
o.
6.
7 :56::5:?(A) 25 L=L (B) 26
(c) 30 '6 (D) 35
Tf,{r€is, td{-{r, . ft;q}qq . r
1:1::10:?(A) 72
(c) 2r0(B) 110
(D) 1000
G) 61fur(D) qrffftrr
({r3q=tR
(B) HRIS(D) DNEO
(B) 63
(D) 73
8. YQXP: JBIA: : OVNU: ?
(A) FAGZ(C) DKCJ
:?(B)
(D)
gw$, +tc+-m 3ft{ ffr * qqn +1c-vr t t(A) ftd (B)
(c) +f,$ (D)
s-HS{
{tsdrg{
r0. ftqfufu-d t'@nE qs q{6 it orrft t t rqn t+1r-m gq q{6 t qr{C 75'7 t z
53,63,83, 73
(A) 53
(c) 83
qfteTur (i) : €TltreT gR .+{ -*
11. (A) GFI(c) PoR
13.
ft€w 'er+{i@7
11 lfi fi, fuqqfuflf ttfu rR trrqi tawr gw al gfrv t
12. (A) vwqp(C) sfkl
(A) (324, 18)
(c) (117,81)
(A) (11, 121)
(c) (12, t4L)
(A) +€6dr(c) drqsrn!R, r1-d1riltfi,
(A) Tf,ITil$
(C) s{r(
(A) HGFE(C) DCBA
Frqfrfua {rqi +1 qrq+tql fr Rq rrq trc *srgqR fttfuq
'1. Emplane 2. Empower
3. Embrace 4. Elocution
5. Equable
(A) 5,r,3,2,4 (B) 4,2,L,3,5(c) 4,3,t,2,5 (D) 4,5,2,3,L
lqq.rq s-nit if t +1a-qr ffifua wd qlqrPis ;6rr qnkrn r
(B) VLIX(D) LKM
(B) yxmn(D) cbrs
'i (B) (44L,72)(D) (186, 14)
(B) (25,625)(D) (15,225)
fsl fr$r€Tqgrq(D) frqr
3Trq q({fr, 3s<r(B) rll"R(D) gEr(B) PONM(D) MSTU
t4.
15.
I
L7.
20. {6 q{A frE {qr {dr{q ftr0 zs, 40 3Tq-n 56
i r+rq q;t) qr iqsd v-+s q-TA fi rs d i
1. ftr-$3. 6'er$
(A) 3,r,2,4(c) L,2,4,3
(A) L4r3(c) r43e
2.ff4. FRd
(B) 2, t, 4,3(D) r,3,2,4
(B) 14oo
(D) L426
.DB 2014lPage 3 sPAcE FoR RoucH woRK l rr qrd + frq {Erc
2!. Arrange the colours of the rainbow (inreverse order) (from the top edge) :
Red, Orang€, 1.....
the
I'-1
1. Blue
3. Yellow
A. Violet
{^arf 3,4, 1,2,8
2. Indigo
4. Green
(B) 4,3,2,5,L(D) 2,4,3,7,5
(B) JDP
(D) UWY
(B) e
(D) 2t 1 (c) 8,s,4,2,1
t:ht-Direetions : In questions no. 22 to 24, a series isgiuen, with one term missing. Choose the correctalternatiue from, the giuen ones that wilt completethe series.
-llk--utL .lu'*-22. CGJ, KOR, TXA, ?
(A) ACE
.6F\W 38
44
40
39
,14-.r \ \ -
{J.iD - -
(A)
(c)
(A) 56
(c) 58
D
6h, 176
(c) 757
.a\
22
51 57 13
20
30. Arrange the letterssuggest what is it.
NGDEALN
(A) State
(C) River
(B)
(D)
u(A) K-64
(c) M-32
(A) 422
(c) 256
25.
,(6 Country
Ocean
SPACE FOR ROUGH WORK I rr i6.r$ * ftq ero
fil.^v-/
63
7 9 1
3 1 7 ?
Aa(c) 5
@ -8f*,.fli',ff, ,{ (A) QQSI ut, t*f,
24. B-r,D-2, F__4, H_9, J_L6,.? ,
,6t*(D) UVW
ttxf t -sz
(D) L-64
(B) 374
(D) 342
Direetions : In questinns no. 25 to 2g, find themissing number from the giuen responses.
6u,(D) 5e
,{721
6t ?t5tl25
G) 115
(D) 131
to form a word arr
.DB
.DB 2014lPage 4(D)
zr. trTq + ,t'if $T inq qdrsq (sA x'q n) (sqftftft+),d[d, ilcft, ......
1. frf,rB. frf,rb.ffi(A) 3,4,7,2,,5(c) 5,3,4,2,!
(A) ACE
(C) FJM
23. CEG, JLN, QSU, ?
(A) QQS
(C) HJL
frdw ' yw iwr zs
adranfrfu t
(B) 4,3,2,5, 7
(D) 2,4,3,7,5
(B) JDP
(D) UVrY
(B) TVX
(D) uvw
lc J>/y'u/',ru' ,h'- s\
//4tz
n"It .. -D\ '/ - i^\-1''.-'*-*-b-'
?. qrrfr4. Etr
22. CGJ,KOR,TXA, ?
(A) 3
(c) 5
(A) 40
(c) 3e
(B) e
(D) 2
"rAC "
ell'
B-L,D-2, F-4, H_9, J_76, ?.
(A) K-64
(c) M-s2
(B) L-32
(D) L-64
tzs t, fuW Bidtt#g'F
Ih,;
.FF
(B)
(D)
(A) 422
(c) 256
(A) 56
(c) 58
11
sl ze lttlo
(A) L76
(c) t57
(A) {reT
(c) Tfr374
342
63
I 9 1
3 1 7 ?
@tt(D) 44
(B) t{r(D) €IrR
G) 57
o) 5e
22 l2rBlBTls al ? lbrtll
20 25
(B) 115
(D) 131
so. qrq q+fi + ftq eTtrt +1 sq{d fifrq s+rqdr{q fr at wr t r
NGDEALN
rS/<,2r'
.DB 2014lPage 5 sPAcE FoR RoucH woRK 715 q{ + frq rrnc
31. Find the answer of the following :
(D) 487
32. Find the odd number out :
18,34,36,54
34
18
33. Introducing a grrl, Ram said to his son-in-law,"Her brother is the only son of mybrother-in-law." Who is the girl of Ram ?
(A) Sister-in-law (By'Ni"."(C) Daughter (D) Sister
35.
R!fI
7 +3--421
LI+7 =477
9+5=4456+2=?
(A) 444
(c) 475
(A) 1e
(c) 2L
x({ +tz
,6(c)
th
IfA = 1, B = 2 and N = r+, th"'biiillUtb = t(A) 2r54(L4)s7 G) 25r4(r4)7s
' *
,6zst+g(t+)t (D) 2LE4(r4)7s
t+J- 3t trIf A = l-, AGE = 13, then CAR = ? '
(B) 54
(D) 36 \
34.
.--,AIVI 36.) s in the direction from\+/ v a speed of 150 km/hr
covering 2000 km, then in whichwill the smoke of its engine go?
u{s-NQ)lfto direction
37. If 1= 1,2=3,3 = 5 and 4=7,then5=?
direction
(A) N-+S
(C) E-+W
6s (B) 7
1@
38. Identifu the answer frgure from whichpieces given in question figure have been
Question figure :
Answer figures :
(B)(A) (D)
39. Which of the following are the linessymmetry ?
C
journey.
(A) 24Dl<m (B) 300 km
(A) AB and CD
(B) EF and GH
first hour, he travelled I of the journey. In4 '1the next one hour, he travelled I of the
' journey. In the last 30 minsfus, he travelled
80 km. Find the distance of the whole
,/
+
(c) 5 to) s I Vfgzo\uo (D) 360 km %.DB 2O1 4tpage6 spACE FOR ROUGH WORK 7{$6r{+fuerr{
-
(C) 18 1p) s6
ss. {T } 3{q+ Ercrq q+ \r*' d-sfi sT qft=qq R gqq'6r fr, 'tsfir rrr$ R {fit$ q.r Ffi-ddr +at t"q6wffncfi*1qtI
st. ftqFdfud tnr rf,{ ddt-{q :
T+B=427
]-l+7=4TT
9+5=4486+2=?
(A) 444
(c) 475
s2. frqq {wr tffiTSR :
19, 34, 36,54
(A) 34
38. s{r Tfi. Iffr in.r qil drn{q fuf t yvq3l-frd q |qq qq3ryi +t s.Er r1qr t I
w+ etryfr:
(A) G) (c) (D)
ftErfufud if t +1r-{ft grrftrfr 1g,I( t z
c
D(A) en efu coG) EF 3frT GH
(c) Bq{-m urfr
@) ilftfi+t$q-fi40. qF +rc et +rr Bils rn$ RTr s-r rqr I T{A
EAfrwi i qnrrqfi rwrdqfiEAfrw+ ; vrrn Rr fi | eiftq so ftqz t Bq+
8oFffi qwr ff | €r1rt qar fi q! w,Eq r
(A) z+o frffi G) soo fr.fr(c) szo frfi rnl goo frfi
(A) qrd(c) 5.fr
(B) 472
(D) 487
(B) 54
(B) ,+ifr
(D) dfl84. qR a= 1,B=z eilt N= 14 t, d
BEADING = ?
(A) 2754(L4)s7 G) 2574(74)7s(c) 25749(74)7 (D) 2754(74)7s
3b, qR a= 1,AGE = 18t, t) caR= z
(A) 19
(c) 27
(A) e
(c) 5
I
I
(B) 20
(D) 22
(A) s. -+ (. (B) (. _+ B.(c) R -+ q. ro) frrft S ft{n il TS
37- rrR r = 1,2=B,S =5 3frq 4= zt, d s=?
G)7(D) 8
wr enntfui:
.DB 2O14lpage 7 sPAcE FoR RoUGH woRK I rp qr4 + ftq rEH
41. Which of the following numbers is present
only in the square and the circle ?
(A) .5
(c) 3
relation amongInformation-
is not made uPof the question
theandgv?
(D) 2
43. Which of the answer figuresonly bY the comPonentsfrgure ?
Question figure :
Answer figures:
I-<liln
{q (=-
+ FZ
Directi.ins : In questions no- 'U -'5., one or two
staternents are giuen, follnd h three lfourConclusions lArguments, I' II, m d IV' You hnue
to consid.er the statements to b a-- *n if they
seem to be at uariance from cofir bown facts'You are to decide whi'ch J tfu giu:en
ConclusionslArguments can dffiy be drawn
from the giuen statement(s). Indirtgonswen
Statement:Should little children be ld with such
heavy school bags ?
Arguments:
L Yes, aheavYbagmeon*=howledge'II. No, heavy school bagF alf 6e posture
of the children.
III. Yes, children need to b dapted forearning knowledge.
IV. No, a heavY bag -rt ensuresknowledge gathering-
(A) I and III appear to be stqagumentsG) I and III are Poor argurrrc
<gf land fV are strong argrc(D) I and fV are strong aryurE
Statements :
1. SAGE is a rePutedjournals and books'
2. AII publishing of
putiHrp of both
SAGB is highlYqualitative.
Conclusions:
I. SAGE publishes qualitative rticles'
II. SAGE did not publish lortst qualityarticles.
iff. SACO enriches its publicafi'rrs by highscrutinization.
III
a46 Only conclusions I and tr'/ (D) Only conclusions II and III(D)(A)
ACE FOR ROUGH WORK 7 g ANd * frq EETN
\.DB 201 4lPage 8
i$i(\
fuftfur if t dq-m ii€qr +Td +f efu qrii+*U '
4t-.DO
UT
UC
ey:s.
,ntn
(B) 4
(D) 2
(A) 5
(c) 3A
r *_fr 1rtft H&, F€{fz *r qil{r-{qRffiFrff + +q *iaiu qqlifr * '(A) GBD
*-+e yrq 3tr5ft + rc+i i
{q Gtr
| -{-: =5
(D)(c)(B)
fi'dw t e?+ s@T aa elr u t, w qT aI d6q fuW d, fuT+ eni ft+ 1a77 ffi1a6, t, tt, ttt atkN ffi w d t atlqal fratr 6r+r d E aw ved, q7e 4d stqT=ftf: an aeaT t fri4 ydd alt d teilqal ffiq wqT d fr fu w aw # d *h_dM,6 ffiad oc f ffi qr aql d t etq)daro)ffifu t
44. d@:wr fr) wit q{ gc+r urft qg n'r dr<r qFrTqrleq z
a*:I. d, r+rfr t'r sl eref i eTPrs f,H r
r. Tfr, t+r0 qo i'r i Fit fi qn-ftkfi Uflq{sAqrftt r
rr. Ei, fl.r sTdq + frq {q} dr 3rTtlffi+{r qrRq
I
rv. +fr, g*' qrt +'r t q,S S w {rturglqfu +o tmr i r
(A) rq tttds ilS rft-d Eifr t(B) rq mortrr a-* t(c) rq rv*q il* to) riTrvalqil*t
45. 47fra1 :
1. +q q{c sfu gss} fr} *,.r frqrdy+-tvro t r
2. +q + qS y+rvn va gq-46 qrd t r
ffi:r. fu Uq+rr qre fu y+.IRR orm t r
r. te i 3rtr{q 1qrf,r qrd +q n-6rFrd rfifrqt
rrr. te s-q +i{wr ERr s{q} trs,Rrit eil vg6q+rm t t
(A) *_+eM rrr(B) qtft frq.{(c) g*ffir*ru(D) 1*ffi n*r ur
.DB 2014lPage 9 sPAcE FoR RoucH woRK 7 rn q.rd * frq *rrn
Directions : In questions no'
Znr*n, figure wiII cornPlete
question ftgure ?
46. Qu,estion figure:
re:47.
46 and 47,
the Pattern
whichin the
Answer figures:
F,
Answer figures :
(y
In the following question' a matrix of certain
characters is given' fhese character-s follow a
certain trend, row-wise or column-wtt:,^1t*
""i-thtt trend and choose the missrng
character accordinglY'
(c)(B)(A)
I,<n2
(D)(B)(A)
44.
NN w
NN f-4tl.J N
I 10 D
D 6 4
4 6 4
536 660 ?
49. ' A piece of paper i folded and cut as shown
below in the question frgures' From the given
answer figures' indicate how it will appear
when oPened'
Question figures :
Answer figures:
If a mirror is placed on the ii-e \L\' then
which of the answer frgures - =e correct
image of the question figure ?
Question figure :
Answer fi.gures:
,t6D)(c)(B)
50.
(A)(A) 450
(c) 320
(B)
sD
550
420ffi.* lwqd*ftq*Bin+'>'\
\+n.DB 2014/Page 10 sPAcE FoR RxH
qtp
47.
frdw t e?q i@T 46 elT 4r t, 674fr aar etTTfr
ew etryfr * sfuc vl gr vbft z
ffifud sT{ il, gF q"il qrr tFffi ftqr rrqr
t r t s"f .iftFqR qr qfuqg fr;$ ffiu *{fr+l e{qilt t I W ygft c6t sdT e'req 3fu
n-€qR gH q.f sT qiFT fiftq r
(A) 450
(c) 320
(B) 550
(D) 420
N N N N(A) B c '/(D
uat eltfiM'
M|,tr\ | tr N N(A) r((B) (D)
I 10 5
5 6 4
4 6 4
536 660 ,)
fri slq sir-fftq1 fr ftqrq W{TR *rrrs +}+.e-s{ 6rcl ilrT ffi * er-q u6 ftu em3trTft *ff fur$ e'n t
xw atVftai,
sar ewffi:
(A) (D)(c)(B)
@tr@@qR q* E4"r d MN tqr c{ {Gn qrq, fr { 'dsin 3Tr5fuii it t *lr-m qr-fft w urgftff FS eFdRE frft r
nw enpfr '
sat d+wM:
4#7 ryAw(c)(B)(A) (D)
.DB 2014lPage 11
,
K
58.-
A natural phenomenon that becomes harmful
due to Pollution is
gifctorut warming
(B) .Ecologlcalbalance a(C) Greenhouse effect"
(D) Desertification
Decomposers include
-(A)'- Bacteria
(B) Fungi ,/(C) Both Bacteria and Ful;g] /(D) Animals
l---
TEST (ii) : GENERAL AWARENESS
51. In the yOar 1905, Gopal Krishna Gokhale
founded the
@ Servants of India SocletY
(B) Asiatic SocietY
(C) Brahmo Samaj
(D) Bharat Sewak Samaj
/uil Gandhiji believed that Satvagraha is a' c'/ weapon of\'
(A) the Poor
(B) the weak
(C) the untouchables
(A) €fu 3lisqRqrM(B) \'ffi+'M(c) qrd qqre
o) rnm t++' qqre
fisftfr or lqrqrs qr fu qeur6 flsT \rs qrcrr
t(A) frdr fr'rtB) ddd'r(c) 3i-{d ril{o) +or$ <ill
.iBa fl$q ScR {rci GFq* sftcr{fi t z
(A) urcft 1466"1G) sfl(c) fudR(o) *"nqdqfr qq* {+,il{ + ftq F{qrd t(A) qlrr{T
G) risiir(c) rfl{d(D) oilg{q
ffiifua sTrrfrfi trgcftit it t Frq} Ergdr(UdTft) +1qqru frqr r(A) 313[rdrT ft$c(B) Qri{€ Ss{qr(c) sfd qrfiT'e
ro) ffii6u{fu-q fi eerq qfrdT eidftm-qrfi etc t r(A) tfrffi-{rAWcr(B) qrftb{r tedr fti{-(c) €af,r+t qtrffirqrrn) ++tA
qfreTur 11; r {trtfet qrrfi'ft
(D) TI-{TPRFT
3{wcdi fr untriT t(A) +rfrftqr (-ftdrE)
(B) .ffi 1*.+q)(c) +reffm (+drE) *:.h.ft (e-{s) +ii(D) qg (vrfr)
qd + ert ii rc ffi qor en ft 'to q+or ff31frq f" 2
(A) trtr{(c) efrT
G) €rfrrto) qrd
qriie tgt€ w d en q.ei eren fuq fr T{dqknr i(A) q;dd qr€
(B) qim qr+1
(c) rifrq qre(D) 2tftqr fif,d
ftffitdqRqrcrq.r{ilerRwrt z
(A) {rqfrfus 3TFrqr
(B) qrqrfufr B{i+dq
(c) ?rC S{ +fus-dr
ro) qFo. fi EriTdr
3TfrrEstffi<qnif rfue qE t z
(A) eFScR
G) {nE-qEi
(c) {crRq ft{(D) el_drsflr ffi
q{ rgos fr, 'tqrm T*r .M t ffi ermr I sz. qs qrffrs qftq-.{r fr qv"r * mnq 6fudr56ffz I e-cwfrt,qot ^
.l
II
54.
ra.
.DB 2014lPage 13 sPAcE FoR RoucH woRK 7g q.r{ + frR {erc
64.
The Supreme Court of India was set up by the
(A) Regulating Act' 1773
(B) prryEq13"t,r784(C) Charter Act,-I8HF=--(D) Charter Act, 1833
Which ConstitutionalConstitutional status
Institutions ?
93td Amendment
44th Amendment
42'd Amendment
73td Amendment
Who has the power to pardon in case of
capital Punishment ?
(A) Prime N{inister
(B) President
(C) Chief Justice
(D) AttorneY General of India
The Union Public Service Commi'ssion o
ir"ait tt". been established under
(A) Article 315
(B) Article 320
(C) Article 325
(D) Article 335
The HaraPPans worshiPPed
(A) Shiva, Parvathi and Vishnu
*6f Mother Goddess and PashuPathi
(C) Vishnu and Mother Goddess
(D) PashuPathi and Vishnu
caPital
(B) HeIp in the further production of goods
(C) Directly go into the satisfaction of
human wants
(D) Find multiPle uses
NNP is equal to
(A) GNP + DePreciation
(B) GNP - DePreciation
(C) GNP + ExPorts
(D) GNP - ExPorts
Rate of growth of an economy is measured in
terms of
(A) Per caPita income
(B) Industrial develoPment
(C) Number of people who have been lifted
above the PovertY line
(D) National income
The basic characteristic of oligopoiS' is
(A) A few sellers, a few buYers
,g{l'few sellers, many buYers
(C) A few sellers, one buYer
sellers, a few buYers
74. Governor wiII act on the advice of Council of
Ministers while
(A)
(B)
(c)
(D)
# Classification of Economic's into two branches
(Macro Bto"o*i"* and Micro Economics) was
done bY
Wtl.w Keynes
(C) Ragnar Frisch
?0. 'Capital Goods'refers to goods which
(A) Serve as a source of raising further
(A) Dissolving the Legislatise -\ssembly
(B) Appointing the Chairman of the State
P"LU. Service Commission
(C) Recommending for President's RuIe in
the State
(B) Milton Friedman
(D) Adam Smith
(D) Returning a bill for recon--ideration
Amendment Providedto PanchaYat Raj
!anZ
66.
/ r: n,r^--t.,{r, Gandhiji started the Dandi March for
(A) Poorna Swaraj
(B) Home-rule
g/prot st against the imposition of Salt
Tax
Enra qr rqilq qqrtFr frq+ Eru *Bnfra furITqT ETT ?
(A) Wfrq t+a, rzzs(B) Rq ifur \+2, rza+
(c) qr& t+a, rsrg(o) qr& ke, rsgg
frq {acrfts {{hrc t.iqrd nq +i*pnift +}{furfi-s @ft yqm fi r(A) gaqi +ivilerq
G) a+qi ririlqc(c) +zqi *iriltn(D) zsqi {i{frT{
Tq-<e t q.6 i[ qqr t] +r 3TRrsR ffiit(A) Y?TH ri*(B) irgqft(c) gq qrqr?flTr
o) tTrra * €errqr$trrrfiq {q +s +{r 3il+q ffi 3iil,la rrnfrdfuqr .rqr r(A) wge$< ars(B) eqd< szo
(c) wg=S< szs
(D) eq=de ses
6.sq + dt frFfr T* s6'q ?
ra) frrq, qdfr ft frgG) i* qi ft Wqft(c) frg m{Hqi(D) qgqfr ft Fry
qftftfr i sid Erd ffi ftq srilT fuqr qr r(A) Wfwm(B) H{TRl-r
(c) ;Fr*' ir-r d'ni + yfr F{ftT(D) B-fliqm qtrFn
3Trfuns or i rnqrsit (*6 s{eiTrFr *rEqD 3Trfun-€r) + srnq-{ur gc+ drr ft-qrrqr qr
rAt i.qq. fi-q tel fr€{ n.r{sfr(c) n'r+n frvr rnl tsq frqtfiqn qq'gq eqeit +) eidr qrar t, fr(A) 3fr{ oTRrn tfr qnFa 6r} + *r * sq
i[qm6cfti(B) eqeif +ftsTFrn
6cfr t(c) qgq fi awrcrT *1 S* cre
6tcr E
(D) v-go w)'it fr dr$ qrfr tqq.\r{.fr.ffiqqHtr(A) fr.W.fr. + {eI6RT(B) ffi.q-{.q. - T*-d*(C) sft.W.fr. + ftq|a(D) S.q.fr. - furid
fufterfu*enfiqftfiq{ffi q-qf dcrft qrfr t z
(A) xft aq6..r*(B) offihs frq.rq(c) Tfrft tqr i scr sdrq rq EqfrFq) ff
{icqr(D) n$+ e+r+
78. effirFrnR fi qw fr*vm( t(A) N+frhil, riqte-ft<R(B) Stfr*il,cgatqftER(c) ,& t frFil, q€ sftqrc(D) vgatfrhil, StqftqR
74. {FFTIRT (.rdiT) {B-cftvE fi qon q{ aFE iFTq
dir(A) frem qqT 61 $i,T oft qrq
67.
G) rrq fr+ +dr 3r+'r * eT?aqT 6 ftgfuq-ril qqq
nq i {qqfr rncc * frq ffir 6{eqqq
frffi frt{s ei ga6* + ftq ffi{FTiT
(c)
(D)
.DB 2O14lPage 15 sPAcE FoR RoucH woRK I rg q.rd * frq ern
Themain cause of faulting is
(A) Tension- (A) Wind(C) Tidal activitY'.r'
n(f Gr av itation al force
'Pan Americanl refers to
(A) North America
G) South America
(C) Central America
(D) All the above
Most primitive living vascular plants are
(A) Brown algae G) CYcas
(C) Ferrra,/ (D) Sphagnum
The famous court Poet of Akbar was
(A) Birbal
(Pf Tolsida. ./(C) Rahim lOtutX(D) Bairam Khan
- (B) Ranagundam
78.
77.
I,<nz
(A) Kundah
(C) PYkara
87. Which one of the
come under the
climate ?
(A) Iberian Peninsula
(B) California coast
(C) Chilean coast
(D) Eastern coast of South Africa
Ib
qYL\F{v
t/ Temporary wilting occurs in plants due to
on
(C) PhotosFrthesis
(D) AbsorPtion of water
,,fig. Lichens are a symbiotic association of
,k{Nsu"and Fungi
' (B) Bacteria and Fungi
(C) Bacteria and Algae
(D) Fungi and Higher Plants
5 Photophobia is caused' by the deficiencv of
(A) Vitamin B, .(Bf Vitamin n,
(C) Vitamin Bn (D) Vjtamin Bu
t.E1. Which of the following is present only in plant
cell ?
(A) Cell membrane
VEl tvlito"ttondria
@*wan/(D' ic reticulum
spAcE FOR ROUGH WOR, i ($ 614 * frq*qn ./
83. Who established four great Mathas at the
four corners of India Sringeri' Puri'
Dwaraka and Badrinath ?
(A) Shankara G) Ramanuja
(C) Madhva (D) Ramana-nda
d. The Iocal name of Mohenjodaro is
(A) Mound of the living
(B) Mound of the great/
,!,Ef Mourrd of the dead
(D) Mound of bones
Which is the longest dam in India ?
p(nnrna-Nangal(B) Rihand
RqArlirakud "
(D) Nagarjuna Sagar
The Thermal Power Plant in Tamil Nadu is
UAlx.y'"u
following regions does zofMediterranean tYPe of
.DB 2014/Pase 16
79.
80.
'I l.
qrFI "FT gw e.nor t
(A) d;Tlct
(B) FFT
(c) qrftq qB-+dT
(D) gF-dq qf,
qr 3T+ftsr'ffi' fttq yW rhr t z
(A) siffr srqftfrr
(B) qfh'ft 3tqrtsl
(c) tqe e+qftsT
o) 3qgffi s$q-ctRrs q&r f3TrRqy frfa ri+e+ qr<q t(A) Wr +drm re) Hr{+q(c) wrt'r (p.-+) rol. *-qqqrqdt fr 3r+Br* -orft f'Wgril) Es+ qnq tftt(A) YERFT
(B) Erqlrudr(c) vfivr-+ivfuur(D) clFT .F't 3rC{ilqul
dg+-q (+s) frR+ q-€-d-fr +eqre t I(A) 66 1+0rc) fr{.i'ft (+,+*)(B) +r&Rqr (fr-drE) sft.fr'ft(c) +rAftqr sft q,d
(o) .i'ft eft sq-+1fr qrqq
yottrqt€dr fr€-fi q-rfr + o'nor dd t z
(A) ffi44r G) ffirE(c) frnfra qa rol forftq fr6
81. frqftrfuc i t *1q-qr *+q qrqq +lftrnr iiscRrd i r(A) *1Rrqr-q.or(B) qr*'fur+T
(c) EtRrnr-nft(D) 3iilffi qrfu6r
Bz. srsq * EteR + Ifud q'h +(A) ft-d€(B) gir*Erq
(c) rfrq qn(D) *rq qn
88. rTrcd + qn +}il _ ojit, gft, drc+l ofu qfi{rrrif B-q) qR {dFT q.if ff *erm+ fi r
(A) Yrrs{
(C) IITETq
frtrfr<.d qr *Bnfiq il-c t(A) Sffi*l*or(B) q-ait *-r fm(c) Saeitw fer(D) srRFit qr *or
rrna if F{+ aiqr eier +{-qr t z
(A) tilssr-qiT€
(B) ftEE
(c) fi{r$s
ro) qFn-Sr qrT{
dfud re if Frd qfe qrqr wia rc t
I
87. ffiftR +it fr t qila-qr fu rlqqsrrnqv+n fi FfidE + siil'td rd sr-dr ?
(A) 3Tq+ftm Hqfrq
G) +cffiffiqT qg;ce
(Cr ffiqrqT{fre(D) qlqTur 3TftsT q-r Tfi ac
.DB 2014lPage 17 sPAcE FoR RoucH woRK 7 g +.r4 + fta rerc
88. Asteroid belt is a region in the solar system
that exists between the orbits of
(A) Venus and Mars
(B) Mars and JuPiter
(C) Mercury and Earth
(D) JuPiter and lJranus
89. Electrocardiograph (ECG) is used to measure
(A) Blood Count--.
,(Bl Heart Beat
(C) TemPerature
(D) ElectriciW
I)<lnn
USB stands for
l/rlfVrriquie Serial Bus
(B) Universal Serial Bus
(C) UnarY Serial Bus
(D) Universal Secondary Bus
The yellow coloul of mangoes is due
presence of
(A) ChloroPhYll
(B) AnthocYanin
(C) Anthoxanthin
(D) Carotene
to the91.
92. Lunar eclipse is caused by shadow of the
)N F';*n on the Moon
Moon on the Sun
Earth on the Sun
Earth and the Moon on other stars
93. The largest planet in the solar system rs
(A) Venus (B) Mars
.DB 2014lPage 18
.,o/{)\b': r'^'( U !-
/"')
(B)
(c)
(D)
{ t6
94. The unit of rate of reaction is
(A) MoI lit-1 "." {(B) Sec mol-1
(C) Moles sec-l
(D) Joules seCl
95.
96.
97.
98.
(A) Si
(C) P
100. Which metal' H2SO4 ?
(A) Pb
in aqueous ammonia
(B) Pbcl2
(D) Al(oH)3
(B)
(D)
does zot react with dilute
(B) Fe
Salt that dissolvessolution is
(A) HgCl,
(c) cdo[)2a/
Residence time of water molecule in the ocean
is
(A) 3'5 years
(B) 3'5 million Years',(C) 35 yeats y/
(D) 35000 Years
Biotic environment includes
(A) Producers (B) Consumers
(C) Decomposers Vl Nlthe above
In computer network terminology' WAN
stands for
(A) World area network
(B) Wide area network
(C) Wide arraY net
r(d Wit"tess area network
99. Which element produces hydrogen on reaction
with strong alkali ?
c.S
| ,n1 Zn (D) Mgry\ Jupiter (D) Earth | \\'
-.-$ )- Gt- nm /SPACE FOR ROUGH woRK 7 s +r4 + q' * v
eB. ft qft-dR i F{0 q.sr rd t(A) us.(c) T{sfr
(B)
(D)
TIlf€
p*
qtfiFs.r$t
I lit-1 .""-lmol-1
", ,""-l
"u aea-l
cil wOq 3rdfu ftdqr if ge wm
12 G) pbcl2
H)z (D) At(oH)g
qEr 3TE S,T q_qg HTq t
q{
q{
if wrqfrfuat r
(B) sq$frT
tl) BcEn €$qIffi i[, qrq ffiAN) fusfir
+.{*ffi
tuqkn +.q+
Ai c{ +)c-qr dtr?
(B) C(c)P o)s
1l
roo. +tq-S qtg q3 H2so4 + 3TFThT 7p.*.cfi r(A) Pb
(C) Zn
(B) Fe
(D) Mg.DB 2O14lpage 19
LA)
SPACE FOR ROUGH WORK
{/\>
7g o.rd * ftq +ern
-{,a\\(ga'
b
Itrtnn
101. volume by Trapezoidal Formula Method is I ros. The plan of a building is in the form of a
determinedbytheformula I rectangle with:"1"u ttT:t-"::t::,::11:
TEST (iii), P.ART A: GENERAL ENGINEERING
(CIVIL AI\D STRUCTURAL)
outer walls as 10'3 m x 15'3 m' The thickness
(C) Verandah area
102. The value of the propertv at the end of its | )@ Courtvard area
useful life (without being dismantled) isOne brick thickness of wall is roughly equal
known as Ii A
y{ s^tu^g"value
/ tD Scrap value
(C) Book value
(D) Junkvalue 108. A work'costing T 20,000 is termed as
(A) Peltywotkr/ G) Minorwork
tl(A) o{oo lo" + Ar+An + Au *...e"-r I I ::'n"
walls in superstmcture is 0'3 m' Then
-t 2 z a " - -J I itscarpetareais
G) Dt!++Ao+A,+A,* .o,,-,) I ;; l::;-, ::] il:,-(c) o{oo :
o, + A, + A, + Au +....A I Lou' o"o up the item of work not included in the
I z ^1 - ^3 - ^5 ' "''-"-tJ I puntrr area estimate.
./ ) | tnl WalI thickness
,(rt{A' *-A" + A, + A, + A, +A. + "' o"-, I I .") Room area\.2' I z L - J |
\!
103. The multiplying constant for the tacheometer
is, generallY, kePt as
(C) Major work (D) Minor Project
109. The density of cement is taken to bes{too(c) 40
(B) 20
(D) 60 (B) 72li}kglm3
(D) 18fi) kg/m"
(A) 1000 kglm3
.o/rnnokg/*3104. The fundamental principle of surveying is to
work lom the-/q,I,AI whole to Part
(B) Part to whole
(C) lower level to higher level
The damp proof course (DP'C') of uniform
thickness in a building havlng walls of
different widths is measured in
(B) -3(D) m
(A)
(d
4ID
2m(D) higher level to lower level
rroat FoR ROUGH WORK / {5 6.r{ * fte rBr{.DB 2O14lPage 20
r0r. qmifr sTt€T c-dft fr qr{kr.T *-r ftefrur fsssT{A+ftqrqrortz.
[A^ +A I(A) D{' ' t + Ar+A, +Au +...A- .' I| 2 -"-tJ
[A. +A I(B) "1- + Ao +A, +A, *... A"_ri
(c) "{*+ + A, +Ar+Au *...o"-r}
(D) D{t+ + A, + A, + A, +An + .o^-r}
roz. ffi sffi fi sq+'ft e1qfu (fr€us-fi{q frq,fr{r) + si( it Bq* qi+ *1 qeTT s6r qrcr t z
(A) fiwn"r{g(B) Sq te(c) urdr {R(D) rfr 6T {e
tot. 26e*fi-a * ftq sTl{felif. rIuH RRis €rrqr qrm t z
(A) 100
(c) 40
(B) 20
(D) 60
ro+. qdqq 6l W ftrdid m,d +1 fre ysR 6c+r
tz(A) Wia, t ei{rd,
(B) 3i{rd, t R+d,
(c) frq wr t sq wt(D) Ta 6q t ftq wt
ro7.
tob. qs rtErrr gT ++m (ergfrfrv) e+r+arorr sq t tfuf Erdfr ffif ff rTur tqr Mro.e fr. x 1b.B fr. t t erRric++r if ffi fifu 0.efr. t r dq F*FT wtr t{Ff, t(A) rsofr.2 G) tsz.sgfi.z
(c) ros.gofr.2 (o) rzofr.2
g;{m ** sFFFcFT fr +.d fi +{-m qq wfu€,6?t?(A) tqn * ftTi(B) qq\ qr fr{s€(c) qrrce sT fi-ds-d
(D) sf.n +T d-{u-€
qs tc mzr$ A fiqn ernrr GFs+ etrq( +frtz(A) ro tfi(c) zotfr
r08.=zo,ooo
ff errra qr& q.d +1 wr q,E[ cndr
tz(A) ge-gz *.d (B) da 6r{(C) qs-r qrd 1p) eg-qft*q+r
Silz *r q+e fua+r qr+ war t z
(A) 1000 kglm3 (B) L2b0kg/m3
(C) L440kg/ms (D) 1800 kglm3
ti ,r+c, ftsii frFrH -fu qrd m d, frr's-scm fu + md-+s G o.p.c.l H) fuqi+
109.
crqr qrilr t z
(A) -4(C)
^2
106.
(B) rs trfr(D) ao tfr
II
il
110.
(B) ,n3
(D) m.DB 2O14lPage 21 sPAcE FoR RoucH woRK I rn +.r{ } frq {qq
111. Bearing stiffeners are designed as
(A) beams
(C) ties
(B) beam-ttes a(D) column *,2
112. The maximum allowable slenderness ratio for
members carrying compressive load due to
wind and seismic force onlY is ,,'(A) 180 (B) 25{(C) Bbo (D) 400
. The throat in a fillet weld is
(A) large side of the triangle of the fillet I
Igl hypotenuse of the triangle of the fillet
the triangle of the fillet
distance from the root tothe hypotenuse
The size of a rivetThe size of a rivet
-t{l diameter of s,lI{ilZ
Vq
(c) Span/soo (D) Flange thickness
116. Permissible stress may also be known as
(A) ultimate stresslt(}1 working stress
(C) limit stress
(D) Yield stress
rd(diameSer of head
(C)' length of shank
(D) shape of head
Horizontal stiffendrs are needed in plate
girders if the thickness of web is less than./
(A) 6 mm (B) DePNzoV
{U7')f:n" maximum permissible stress for power
Y diu.n freld rivet in bearing on rivet is
100 N/mm2
270 N/mmz
(B) 250 N/mm2
'@{gooN/mm2
(A)
(c)
118.
119.
L20.
The diameter of longitudinal bars of a RCC
column should never be less than
(B) 8 mm
,*t'tz^
The minimum clear
main reinforcementIS : 456-2000 is
(A) 20
cover (in mm) for thein column, according to
(B) 25
(D) 50
(B) o.5o d
(D) 1.oo d
Lz'-.
L22. AB ler IS : 800, the factor of safety adopted
with respect to the yield stress of steels is
(B) 1'5
(D) 2.0
td tre
For a continuous slab of 3 m x 3'5 m size, the
minirrum overall depth of slab to satisfrvertical defl ection limi
(A) 5cm d -r=E'-(C) 10 cm 3o
(A) 0'25 d
Jfrrua
(A) r.45
(c) L-67
123. A tie is a-/
{,A,)-tension member
(B) compression member
(C) flexural member
(D) torsion member
124: T'lr:re slenderness ratio'of lacing bars should
zof exceed
(A) r2O
(C) 180 i
{{n
(A) 6 mm
(C) 10 mm
ln an RCC section of effective depth 'd', ifvertical stirnrps are provided to resist shear,
their maximum spacing measured along the
axis of the member as per IS : 456-2000
should nof exceed
.DB 2014lPage 22
(D) 100
SPACE FOR ROUGH WORK 7 {IF ET{ + frq {A]l-q
d
^
/?
lu. iqfFr ge+'rt fus sq if qil\ qrt t z
(A)
(c)
112. $EreT qfi qq
(B)
(D)
rnifu ce
(B) 250 N/mmz
(D) 300 N/mm2
l{R
?rf{
du*
sl qfl q-rt qr-fr s-.+1 + ftq sTRts-dc "Eiqil{dr 3tcrd wr t ?
(A) 180 (B) 250
(c) 350 (D) 4oo
11s. ft+d t€ fr.ia wr *m t t(A) ffi-c+frgqffq.S Uw(B) ffic + fuv q.t +.t(c) ffi-c + ftTq fi otfr gqr
(D) netqota*fiiiq{rr+. ft*e ql qTq GFst ftrtkd fuqr qrar t z
(A) rlq * qrq
G) .nq S wre(c) qtsfiff(D) {ft{ ff slrrfr
rrs. i-a (+q) fi fu ffi m.q dt qr ta.rdriit diftq Ee*r-fr 3ilcrvrFn dt t z
(A) 6 mm tsl r6{d/zoo
(D) dqMtcl' ffi/soo116.
"rgiq sfus-d +1 3ft wr qd t t
(A) qrq sft-{€
13) q1ffisFd{d(c) mcr vFild€
(o) q${q nftrd€
nz. tfre c{ ffirr f Fdg-q qrfud t* tdc + ftqeTEr*-dq
"r5iq yfu{d fufr{r tm t t
(A) 100 N/rnm2
(C) 270 N/mm2
rre. err$.qs. : 456-2000 * q.E{nt, qi * t g.cq
Flc'FT + frq qffiq ersqff 6fl (** it)
fur{r trm i z
rrg. 3TR.S.fi. kitT + srJH edt ol qre q,tft SfrFsfr qc rfr +{r qrRq ?
(A) 20(c) 40
(A) 6 mm(C) 10 mm
(A) 0.25 d
(c) 0.75 d
(B) 25
(D) 50
(B) 8 mm(D) L2mm
(B) 0.50 d
(D) 1'oo d
yffi rttrr{ ,d' + erR.fr.fr. ds t, sfrsrrl-Grq ffi + frq seairT{ qe,pr6 errq wtt', d e{r$.qs. : 4b6-2ooo * ugun qe* *sTH rR 3:1116T TIITTT rrqr 3Tft1fidq siil{t-f, fuI$sTRm ,6? +{r qrRe z
l2t.
1.5
2.0
BmxB.5mqmff{ddcftfir+fr qffic qcn rflr$ fuilfr t'ftseatsn frfrc Scr +1T:r q-r qt r
(A) 5 cm
(C) 10 cm
s+r$.w" : 8oo *efo{d + {iaiq it
'rqr t z
(A) r.45
(c) r-67
tier+ wr i r
(A) irrq qZcF
(B) {ifrsr qzs
(c) 3{FItl;[ q&F
(D) {ac q-s
3rtitrc w) q.r dJdr 3rjcrd CF{0 aTEr+ d+{r qrRq ?
(A) r20 (B) r4b(c) 180 (D) 100
(B) 7'5 cm
(D) 15 cm
3rgsR, Fwkit ft q{rtn+tq-H gtHT Uqs sTtli-rqT
(B)
(D)
_l
1
I
sPAcE FoR RoucH woRK I rn q.r{ + ftlq enc.DB 2014lPage 23
126. Which of the beams given in
Figs. is a determinate beam ?
the following
I2<nt
column is
(A) o.5Llr
(c) Jzt'l'
/" -B{Kil
(B) A
(D)A
The effective slenderness ratio of a cantilever
@The top diameter, bottom diameter and the
- h"ight of the steel mould used for slump test
ikt cm,2ocm,3o "^/@ 1o cm,3o cm,2o cm
2O cm,10 cm,30 cm
20 cm.30 cm, 10 cm
(c)
o)
128. The early high strength of rapid
cement is due to its
(A) increased content of gYPsum
(B) burrring at high temPerature
(C) increased content of cement
./(Bf nigtt"r content of tricalcium
^-.Lr.' A- 1(B) Ll, \'/
hardening
12g. beam subjected to general
mum bending noment is at
(B) free end
(C) mid-sPan
(D) -quarter-span
130.
rectangular section
horizontal centroidal
axis is
(A) U6slt2 G)
131. Ratio of length of ,column to the minimum
radius of gyration of the cross-sectional area
of the cqlumn is known as-/
.(*)- Stenderne ss ratio
(B) Buckling ratio
(C) CriPPling ratio
(D) ComPressive ratio
132., A linear force-defotr'mation relation is
obtained in materials
(A) having elastic stress-strain pmperty
(B) jraving plastic sh's5s-strain propertJ
<gf foi|ro*ing Hooke's law
(D) which are rigid elastic materials
The property of a material by which it can be
beaten or rolled into plates, is cafbd
Moment of inerbia of
shown in Fig. about its
(D)
db3/B
bd3/3
@v
(A)'/malleability
(B) ductilitY
L{€.fplasticltY
(D) elasticitY
SPACE FOR ROUGH WORK / {S 64 } frq gN.DB 2O14lPage 24
p5. ffifu6 3Tmftdi fr { T$ q.t{-m q{q ftft?rc{tr
(A)
(B) A
(c) oH"
(D) A
126. srq q{q o-r er+rs ilgdr slgqrd wt t I(A) o.sl'/,
(c) Jzr/,
(B) I'/r
(D) 2L/,
122. 3rqqrd qftqur + ftq jqt'r fuq qri qrd g*qrd
+ qie q-r qN aIr{T, RT qlq *{ sq-ff gqr$
ffitfttr(A) to tfr, zo tfr, so tfr(B) to tfr, ao tft, zotft(c) zotft, totfr, aotfr(D) zo tfr, eo tfr, ro tfr
rze. fqs q-&t{ Sttz E1 rftq rq eqerdT frq q-nul
td-frt z
(A) ftqq fi qFfd qrdr
(B) Tq iTFltfl-q q{ 'sclf,q
(c) Srlz ff qRle qr*r
(D) qF*Rrqc ET Fr oi{r
.DB 201 lPage 25
{r*'-
(A) dblh2
(c) bd3/L2
(B) aus/s
(lt uas/g
rgr. Fdq ff ff 3fr{ kir{ + srJv€el-src eaq-d
+ qfurq'r fi qffic frq1 6 Wqa q] wr+-rt t t(A) qm (5*rot) 3i-Jqrd
(B) q,gn{ 3[i1crd
(c) Fq 3[gcrd
. (D) rifrss 3i-Cqrd
rgz. tfus qe-ftswr tai?T fuq eTcfr t vrs frqtqrmt ?
(A) ftqil y-spar nFfrc_d-ffi W A(B) ftqil q{rrer€er (qrfu6) Yfffi-d-ffi
yd(c) E5 *-r ftqq 3ffi{r} etd(D) s) E6 vFIReI qrcfr d
rgs. qrqfi + ti g"r *1wr od t ftilq+ q'nor ottra qr s*-m t qr frt fr eBd ftqr qt s*'m
tz(A) gilqrfrqctffTdr
(B) it-=fdT
(c) qrtl-Flrc€rdT (g{Eai)(D) YFTT€gKTT
129. qlqfet rnror * 3{?ft{ gI€ sl|c ii, 3TRrqmq
Eifi srTf fr;q c{ *m t z
(A) Fn ftr\ qt
(B) Um l€rt c{(c) cea-mq{(D) nlqTi-m{t
31T$ il <fiq rlq sil-ftTttnn rn'r q-r 3st Sft-q
Acfiq eTq * q{i 3+{ s-s€ sTlTIi wt t z
Ifi
sPAcE FoR RoucH woRK I rp er{ * frq rqn
134. In limit state of collapse for direct
compression, the maximum axial compressive
strain in concrete is
-/ ^ nno,,ad o'ooz (B) o'oog
135.
136.
137.
(c) 0.0035 (D) 0'004
A reduction factor C. to load carrying capacrty
for a long column of effective length L" and
width b is applied as obtained from following
expression:
L(A) t - ,;i
-/L,*6 r.25 - ah
(B) t.25 -
L(D) 1.5 - --+
II
<
nZ
A T-beam behaves as a rectangular beam of a
width equal to its flange if its neutral axis
;dt*rwithin the flange
(B) falls below the flange
(C) coincides with the geometrical centre of
the beam
(D) falls below the centroidal axis of the
beam
If t' is the nominal shear stress' r" is design
shear strength of concrete and t., ,ort is the
maximum design shear strength of concrete'
which of the following statements is correct ?
(A) If t, > r", -u*, section is to be designed
for shear.
(B) If Ty ) Tg, max, mlnlmum
reinforcement is to be Provided'
t 1 tr'cv < xc, minimum shear reinforcement
is to be Provided'
(D) If t.,, > t., minimum
is to be Provided'
shear reinforcement
138. Workability of concrete for a given water
content is good ifthe aggregates are
(A) angular aggregates
ES
(D) irregular aggregates
139. Generally, strength of concrete is considered
negligibie/verY low in
(A) ComPression '(B) Tension
(C) Faiigte-/ (D) None of the above
140. As the cement sets and hardens' it generates
heat. This is called
ldUeat of hYdration
(B) Latent heat
(C) Heat of vaPorisation
(D) Sensible heat
In concrete, while hand mixing is adopted'
excess cement to be added ist4L.
L42./lJor constructing road pavements' the type of
J ""t "ntgenerallY
used is
@,odinarY Portland cemen t
,pd raPid hardening cement
(C) low heat cement
(D) blast furnace slag cement
,6r] orr" YPe of stair for usage is--{ro, 'rB{aoeiegged
(c) O) circular
L44. Ifthe-area of tension reinforcement provided
is less than that required for a balanced
section' then the RCC beam is called
(A) over reinforced
(B) Teutral reinforced
vd ,rndet reinforced
(D) bottom reinforced
i
(A) 4Vo
(C) l47o
(B) L0Vc'-"(D) 20Va
shear
zL
ROUGH WORK / {F 6.r$ * ftq *Bnc \.
s.DB 2014lPage 26
rs4. St {ifis{ + frq fiqrd ff frff erqtqr ii,
ifrfic it sTRrfidq sltrq {ifis{ ffi ffitfrt z
rss. ftFd qmi{r * fuq +fic fi g6d-dr 3rd*ft t sR frrner(A) +ffire) {r6-d(c) 'ffl6r{ frrqrqr Atn) 3$qFrd ftrgrsr A
1se. {TrrIfEkT, frqti riftc * qrcd +} ilrss/qgd
"FrT qr-{t qrer t t
(A) {ifis{(c) sift
(A) o'oo2
(c) 0'0035
(B) 0'003
(D) o.oo4
rss. ${r* trqr{ l" 3ft dgr€ u qrd <G <iq +
ftg tTR trfl HrrdT + ft{q eE*..{ur Uultr cr 6l
frq Pq6Pu i n fuq qFwFs t Yrs frqtqnrt z
r+0. $t-ti frilz qrdr t 3fu o.& tdr t, qE
c;qT 3ffit qrm t r Et wr q-ar qm t r(A) qsd-qq 3NI(B) IHwr(c) .tTsFT $sIT
(D) ri*q g,ql
rar. 4fie i oer i frqq qG qqq gtqT qlt qrf,r
oTftrft-m Sitz fr-f{r *o t t
(c)
(B) d-{rq
or sqfm f t +t$ {S
(B) lOVo
(D) 2OVo
1s6. qs T-erc{ €c * err* # qrd eilqdrfrR
qtq -t sq ii 6.rq 6.tft t, qR ss+t ro€ 3TH
(A) fr + $d{ sTrdl atg) qdq + fii errdr d(c) qcc t qrfrfu+ ifiq 6T {crfr A
to) sm * Aqfr erq t fte 3Trdr A
rsz. qR t" etFtfua-uvwur gftrq€ |, t" ;i*e fi3{Frqfl 3{tl-G-tu qtqs{ t 3frt r". -"*
iiftc ff3rErq-dq 3Tftrenfl s{trq-tm qtcs{ i, A
Frecfrfud t t et+-qr 6e5a sS I IvR t, > r", -",., A <ie 6) 31q5qq + frqerFr*Fm frq qqm t
uR "r,
) r". -r", fr q|fr{ 3+[FTM $RFT
ftq qqm t
fr ".,,
< r.; ft qrdq 3{q-5ru Yqcq ftnqt
qrgrn I
(D) vft "..,
t "",
fr qmc a+r6-u Yq6a frq1
142. {sF qzft?it * ffiur + frq, q1qfq61 ftq. *6r-{ or Sifu }fr'r ftFqr qrm t t
(A) qlqrq frtds Siz(B) {ftq q-&cc mfu(c) ftrq sqr frtc(D) ersr v$ errE{d mrfu
ras. tr.6 + fr'r + frq 3rsftrs 3ltrqk rf,R+tq-qr tm t t(A) fitfr Gt sfudfi
(A) 4Vo
(C) L4Vo
f\
ri
(A)
(B)
(c)
(c) gA mqc-€iq to) {f,rsn144. qR {gfrd <is + ftq qqrertffc A qq I
flegr .rqT iFFT Ft*H t* $g t, A tSenr.S.S. errq +1wr q-tt t z
(A) 3rft y-qfud
(B) Ae r+rfut(c) oq vqfua(D) ee vqfuaqNIN I
spAcE FoR RoucH woRK lln qr$ * ftq F rrc
r3r
L4
.DB 201 lPage 27
151. Mild steel used in
(A) IS:432,,//(C) IS : 1786
t52.
153.
RCC structures conforms to
(B) IS : 1566
(D) 15:2062
Which of the following types of lime is used
for plastering and white s'35hing ?
(A) Quick lime
(B) Slaked lime
(C) Hydraulic lime
(D) Fat lime
Which of the following acts a-q retarder for the
concrete ?
(A) Calcium chloride
(B) Calcium lignosulPhorr^," /(C) Calcium stearate
(D) Aluminium Powder
IS : 3102
IS :3{96
(B) Bulking of sand is marirnun at 4'6Vq
moisture content.
(C) Bulking of sand is con-'ide9 in weigh
batching of concrete mir ''z'
(D) Bulking of sand occurs due to free
moisture frlm formation oser sand grain'
155. Strength based- classifrcation of
made on the basis of
(A) IS:3101
(C) IS : 3495
(C) Solvent t/
ISbricks
156. In paints, methylated spirit- naphtha and
turpentine are used as
(A) Base (B) Binder
(D) Extender
(B)
(D)
145. Coarse sand
range of
(A) 2'2-2'4
(c) 2'6-2'9
148. Quartzite and marble
(A) volcanic
(C) sedimentarY
has a frneness modulus in the
(B) 2.4 - 2'6
(D) 2's-3'2/
pressure, gTanrte can
(B) marble
(D) gnei"",/
are by nature
(B) plutonii
147. Aluminium is anodized to protect it from
weathering effect by forming a surface coat of
(A) Aluminium carbide
(B) Aluminium borate
(C) Aluminium oxide v/(D) Red lead
L49.
(D) Cube rate estimate
150. The annual instalment (I)
tLd ^"t^^orphic
Most accurate method of estimation
on
(A) Building cost index estimate
(B) Plinth area estimate
(C) Detailed estimate "'/
of the sinking
fund (S) over n years, al i tate of interest may
be calculated from the formula
(A) I=Si/ Q+i)^-I /
(B) I=S(1*i)"-1/i
(c) I=s(1+i)'*1 l6+t)(D) I=Si/(1+i)'*1
is based
.DB 2014lPage 28 SPACE FOR ROUGH WORK / {F 6T{ + frq rBrrc /{\
(
14b. frA to fr qwcr qrqis FFq tq t dm t t(A) 2.2-2'4(c) 2.6 -2'e
146. gqr *r qre + gftflq i-{Ez frqil
(B) 2.4-2'6(D) 2.e -3'2
\gfrtuqftK
(c)
(D)
3ftH|-{g
tz(A)
(c)
(A) tgftfuc Hritqs
(B) \gfrfuc dtz
148. €dFr{c afo {ffitw{ HEft6 sq t +A At
Erdlgfr Gl ffiq3i-d{ffi O) scidftd
149. qFFF€{ * uqfRr+ {S {gfr frq q{ eTrqrftd
tt(A) tlcFT dTrkt {q-sis qFFfiaH
(B) g;{S (Rq) hwd qFFncn
(c) tdgd qFFF€q
(D) S;T E{ 9ltF6crq
150. n qqT it i qM < c{ ftfrq frftr tsl ft qrffid
fr< tl 6q trftdT q1qfioka ff qrqft ?
(A) I=Si/(1+i)'-1
(B) I=S(1+i)'-1/i
(cj I=s(1+i)'*1 /(r+i)(D) I=Si/(1+i)'*1
rar. ern.S.6. {qfirsit t xgm
3dg6c d-o t z
TS vqrc CFq+
(A) IS:432(C) IS: 1786
ffiba it t fuq FFI-{ cFT Wr wrs{ q..G
sfr{ q}fr HG + ftq yfr'r ftqr qrcr t z
(A) 3r€flr {{r(B) sfr Etr(c) qfrErr(D) {c wr
ffifud t i +1r-qt rific + frq ics +sqlordqrmtt(A) +frrqq drEs(B) AfrrqqftTffifu(c) +Rrqq Rfu(D) \gfrFqc qrs-s{
L64. Fra seFT qdr{q I
(A) ta q'r 3TErR 4ovo ffi d q*'m t t
(B) ta ql 3{EIR +'eqo qft eiqr qt 3Tft-*,dq
rtmt t
(c) te qr 3rErR *fic ftqq * *rc qH (tTn
'ron) it frqt qrat t t
o) td sl ffiR ia q."il q{ 5tr cfr c{d *ffq + qrqor tdr t t
rsr. *ii ET €Tqs{-3TTqrfin erff+..rul frq sTrqR q(
ftqr qrn t t(B) IS : 3102
(D) IS:3496
rso. iz tt tFrfuc Frfte, tqen ft zt{crtq ql ftqsq I vfrr frqr qrm t z
(B) IS : 1566
(D) IS:2062
153.
(A) IS : 3101
(C) IS :3495
(A) enqR (As)
(c) tdflTfr
.DB 201 4lPage 29 spAcE FoR RouGH woRK I rP qr{ + ftq rarn
I
L67, If whole circle bearing of a line is 2lO" 0' 0"'
its value in quadrantal bearing system is
-/\*xf s 30'o'o- w P) N 30' o'o" E
(C) S 80. 0, 0- E (D) N B0o 0'0" W
158. The magnetic declination is the difference
162. Radiation, Intersection and Resection are
(A) ComPass SurveYing Techniques
(B) Chain SurveYing Techniques
(C) Levelling Techniques
-/gff eUtt" Table Surveying Techniques
(D) Magrretic Meridian and False Meridian | ,^IVIap B is a large scale map compared to
| / maPA.
4. The correction to be applied to each 30 m
chain for a line measurement along a slope
between n&. Which of the following statements in respect
(A) True Meridian a1d False Meridian (|-{ of a map A.having ":":^t^: i::: :t another
(B) False Meridian and TYue Meridian ,/(fl)/fllap A is a large..scale map compared to
;pY/TvueMeridian and Magnetic Meridian | '?'*"n "
(C) intermediate sight I of e is
(D) long sight | (A) B0 (1- cos 0) G) 30 (1- sin 0)
(C) 30 (1- tan 0) (D) 30 (1 - cot 0)
shows that the area is
I
I,<nz
160. Clay is generallY I ^(*l-ili"rirr" l(#) Narrowly spaced contour lines on a map
(B) permeable I s'uws ur
(C) having large particle size I tel Flat(u, navrrrH,
(D) None of the above I fnl Steeply sloped v
,Jg{v.*ical cliff
for a | (D) Overhang cliff161. The ratio -L::L--:-:^-. Inasticity index I t
soil mass is called I fOO, The length of the tangent of a curve whose
J radius is R and the angle of deflection A is(A) LiquiditY index
(B) shrinkageratio | ,g"t*, + G) znsin I(€)- ConsistencY index
(C) zR tan I io) R rir' I(D) Toughness index I tt'r zn t'a'LL - \v' -" "--- 2
.DB 2O14lpage 30 SPACE FOR ROUGH WORK / {S 6',r{ + frq FI|q
6's-
157. sR \r*. tqr q.r {Xut Tf, M{tr 2L0" o'0- t, dqf,'cr{q trnT eq-rffi fr Fq-i5{ q5q fuil{r I r
frfr{or, yftd-qq q Rlfr fr?if{"r
(A) crrqrq qtqq il+-{lifi t(B) Tqdtq{qq ilfifl?fi itCr uutryr d_rffi iro) tr{ t{d qteq cq.ft}t t
1 : 1oooffi qtA qnfur e*t 1' 5sse ffierd q+ srq qqfra e * {idq il +tc-qr 6.trq
v$tz(A) clqfu AqHfut n fi gc+r;t E6a ftqHr
cnfud t r
(B) wtqfrr s qpafuq e fi gc+r t g& $flqrqrqfud g
,
(c) qufrr B qnfud n ff gc+r ii oTErs
fr<-d qnfrr t l
(D) €m fr t 6t$ {S
e * asn * qrq \qT qrq{ + ft{q so fr. fires "iq-dr it f,*-fiT {{frqq frqr qrn *m'tt(A) 30 (1- cos 0)
(C) 30 (1 - tan 0)
(A)
(c)
s 300 0'0" w
s 300 0'0" E
(B) N 30' O', o" E
(D) N 3oo o'o" w
rss. gqftq ft-fivrd ffi ftq qr er<r t z
(A) qqTef qtqt-.r{ oft qTt+r$ qr+d{
(B) enrrrs qtqtit 3ft sqrrf qt-qtfl{
trq {TICr - qe,ilql
-Orfr*-n {q-$fs
(B)
(D)
165. q5afu; qr +ifioi aiil{Id
{ciq it wr Eqrlft t t(A) qtil-e
(B) q.S aro
(c) uwfw Tg(D) ffiW,
166. R fi-q sik td{dc B1q
tcTfi€qr$ffit I
(A) RtanA (B)2
(C) 2R tan A (D)2
30 (1 - sin 0)
30 (1 - cot 0)
qqiq \sr( frr +
l qrd qfi ff wqt
2R sin A2
Rsin A2
(c) qqref qrdt-t 3ft qqfiq qrqlt{
(D) grc-ft ut+f,{ 3ft 3TrtTrS qw}d{
1be. ti fr3 w frq ,iq rre qrdqis (tB'r) q1 wr6-fl qnrT t fr€fir 3-ceFT qfisdc fr-g * w tfiqiRa frqr qrcr etm t t(A) 3r.JqE qq+is
(B) qrqgD Wrs(c) ue++ff Efu
(D) {d Efr
166. qRror sTqrekT: ffi tlft t t(A)
(B)
(c)
(D) "qfm
it t 6ti c-fr
161. T<t rqcn + frq 3ngqrd
*i w.r q-A qrcn t r
(A) 6+at qq-sis
(B) {ig;ff srgcrd
(c) TrEFfdr (rn-.ddT) {s-sl-s
(D) dq-sqq {Irsis
.DB 2O14lPage 31
.{- r
3k a
sPAcE FoR RoucH woRK I rn q.rd + frq em
I,
n
z
167. The maximum shear force in a simply- supported beam of span L, subjected to a
central point load, W is given by the followingexpression :
..--Wu!8f :- G) WL
(c) wr21z @) wL2h
168. A
For simply supported beam shown in Fig., themagnitude of vertical leaction at'B'is(A) 20 kN
(c) 15 kN
(B) 18 kN
lg{to^169. "Poisson's ratio" is defined as the ratio of
jffiteral strain to linear strain
(B) linear strain to lateral strain
(C) lateral stress to linear stress
(D) linear stress to lateral stress
170. If 'A is the area of cross-section and I' is themoment of inertia of a given plane section,
then radius of gyration (r) is given by theformula
(A)
(c) (D) r = JA,I
171. Strain energ'y due to axial deformation isgiven by
(o: resultant stress
P : axial load
A: deformation
strainmodulus of elasticity)
(B) P^
,.z/zE ,tK+ ro2
r=I/Ar=AlI
tE
(A)
(c)
30 kN
1m_*+_ 2 m
L72. The of*0 the toL wat th
AS
(A) water use effrciency
(B). water conveyance effrciency
(C) water application'.tr A.n"y./
1ffi ater storage effrciency
173. For ualined canals, the freeboard is measured
from the
(A) full supply level to top of the barrk -/(B) top of the bank to bed of the canal
(C) full supply level to top of the dowel
(D) None of the above
I74. T\e ruling minimum radius of the curve forruling design speed V m./sec, coefficient offriction f, acceleration due to gravity g mlsecz
and superelevation e is given by
(A) vz/@-Ds (B) vz/(t - e) s
v2/(e + f) zsgdv2/r" * n e (D)
175. Camber in the road is provided for
(A) couhteracting the centrifugal force
6"n""tive drainage
(C) having proper sight distance
(D) avoidingoverturning
176. The standard 5-day BOD at 20"C, when' compared to ultimate BOD is about
(A) 60Vo
(C) SOVo
,,Jg{aeq"(D) 9OVo
L77. The global warming is caused mainly by
(A) NOx (B) SOx
(D) 02,,rcf co,
.DB 2O14lPage 32
o\. \
SPACE FOR ROUGH WORK / {IF s.d +X/
16z. +fiq fi-g un w S er4-q M L di qmrq
3Tftikd el-€ it sTRr+-dq 3ilrs-tm eeT
Frqftfud frq 3rftrqFs arr q{rf{ qrar t t(A) w
2
(c) wl.;z1z
30 kN
rzz. qe*it * qrqq q€ fu f fnftd qq fi cfdt "67
+d fr "maq it ffi{d ftq 'rq qe fi cwr t
erdqrd +) wt o-or war t r(A) qg 3q+rr qqrdr
(B) qEI qTfl EffiTT
(c) qq sngryfu qrdr
(D) qs rimq qq-m
rzs. 6-d c-dfi + frq, gffiiil (ffid) q.ti t qrqt
qror t r(A) ti v<s wr t aa * rN roG) aa*sft$t+atdwr+(c) ti Fqq wt t €i+d + qN d-s
(D) "c&
fr t +t$ c-S
tt*. qffr+-ct qle'T v m./sec, s{q-5urid r, Ucdqccnur c m/sec2 afr{ qrdtceffi
" * biqq +ftq rs fi Dqr 6I qkTc tqiq.r ffi ertqarqr qrdr t t
(B) WL
tn) wr21+
tEfrftfrsFilq-d
sfus-d
(A) r = I/A(C) r = AlI
(A) v2/(" -t) s
(c) v2/@ +D s
(A) 607o
(C) 80Vo
(A) NOx
(c) coz
lzb. {.sn il sr+R (+El) fus frq ftq qrt t t(A) 3rqad qo +1lqrdfi{ q.G + fuq
re) vr+rfr qo-frfr..rq + frq(c) 3qgtr Bs (t + ft{q
o) Tfti t qqt + frq
r7G. 20"c q{ qr+s s-ftg$q son fi gs{r 3ifrc
eoo t qli c{ qE eirltlrT ftaqT dn t
(B) v2l(t - ") s
1p) V7e + f) 2g
(B) 68Vo
(D) 9O7o
(B) SOx
(D) 02
rzz. iF++ 6Jqq r[@kT: fuq q.nur t tot t t
.DB 2014/Page 33
,Ln* {
1m+K- 2 m
orrTft fr Eff-€ 'r$ qrcrq 3{seifod qrc * frq,
'B' w se4fqq qftqrd 61qfrqq wr t t(B) 18 kN
(D) 10 kN
(A) 20 kN
(c) 15 kN
't4rcii 3rEqkT" q} FFq-h sngqrd * sq iiqfuTrft-d fu'qr qrm t z
(A) qTffis ftgtft d{tfu-s(B) tfu-s ffi 3i{ qTffiF
(c) qTffi6 sfuqi{ cfu tfu-s(D) tfus qfr-q-d .ft qrF{q
r7o. qR 'x ftq qq qqcet tTlrr + 3ilg5rcel-6re 6T
e?s-d *{ 'I'w.s-e urryf t, fr cftirqur fi-qr(r) *1ftq {d 6nr q{Ttql qrm i t
(B) , = 'ft'A(D) r = JA/t
rzr. sTtrq frGcrr * *nq ffi g_qf
srr ft{tftd fr qrft t t
(o :vfivnft std-qcn
P:eilfiq qR
I : f,+sqq
',ffiE :9FTIteftTT rfrqis)
(A) oe G) PA
(c) ozlzE (D) l "ospAcE FoR RoucH woRK I rr q.r{ * fuq*qn
178. An aggtegate is said to be flaky, if its least
dimension is less than
(A) ?3
(B) i(c) +
D
(D) iThe frneness of cement can be found out by
sieve analysis using IS sieve number
mean dime n"ion 9z/
183. Di-calcium silicate (C2S)
(A) hYfates raPidlY
,J6.n"rates less heat of hYdration
(C) hardens raPidIY
(D) has less resistance to sulphate attack
184. Separation ofcoarse aggregates from concrete
during transPortation, is known as
(A) bleeding G) creePing
(C/ segregation (D) evaPoration
185. The resistance of an aggregate to wear rs
known as
(A) imPact value-/
t6 abrasion resistance
(C) shear resistance
(D) crushing resistance
mean dimension
mean dimension
mean diameter
(A) zo ,/(C) I '-z
(B) 10
(D) 6
in volum-e ofwhich keePs
I,<nt
180. For batching L :2 :4 concrete mix by volume
the ingredients required per bag (50 kg) of
cement are
(A) 100 litres of fine aggregat'e: 140 litres ofcoarse aggtegate
,9Zf too kg of frne aggregate : 200 kg of
coarse aggregate
(C) 70 kg offrne aggregate : 140 kg'ofcoarseaggregate
(D) 70 litres of fine aggregate : 140 litres of
coarse aggtegate
Bulking is
$increase
(B) increase in density of sand due toirnpurities like clay, organic matter
(C) ramming of sand so that it occupies
minimum volume
(D) comPacting of sand
182. The concrete cubes are prepared, cured
tested according to Indian Standards
If fineness modulus of a sand is
graded as
(A) very frne sand
G) frne sand'/medium sand
coarse sand
187. Water-cement ratio is measured
of water and cement used per cubic metre of
concrete.
(A) volume bY volume-/' \
\fweishtbY weight
(C) weight bY volume
(D) volume bYweight
&To prevent segregation, the maximum height
for placing concrete, is)(A) :-:oocm-,/ (B) l25cm
(C) 150 cm (D) 200 cm
2.5, it is
(c)
(D)
sandsand
due toparticlesmoisture
apart
number
(A) IS :515
(C) IS : 517
IS :516 /?IS:518
(B)
(D)
.DB 201 4lPage 34 {s sd + ftq{qnSPACE FOR ROUGH
/V)
fi qrdc frqr ftFs+ +.c d+ q{ FS{ro-d qa qrcr t z
(A) Z qrEq frqr3
1^(B) : qtq lctqt
(c) q *,* fr*,5
(D) 3 qtq qrq4
eil-$.qq. qrcfi {. qr yfrq +-dgq qrrfi Fq{As.T *r* *rtz fi qwor $l qdT
e,Irnqt qr s+Ar t t
(A) 20 (B) 10
(c) e (D) 6
efl-{d;I grr iifte frqq r :2 : 4 * qr{ qrrq +frq dfz ff yft frft (so f6nr) + ftv efifhd{{-s t(A) roo fta qw ft-or+r
(B) 1oo funr (q fucrqrft-f,rdr
(c) zo ftlr qm ft-or+rlriETlcIT
(D) zo fta qm fuor+rft-flqr
r81. e5r{ (efuq) wr t r(A) srridr,* q.nor ta * e{Frdq fr qk fr ta
quil *1 erf,'r q-rfi i(B) {fufrr, +q vqrelT ffi oUO*eit * q;nq
tc*q+sfrgk(C) td ff 5-eri drh {6 q5f,c afl-iftri16} nt(D) ta qr {8fu6{uT
rez. ime s+t +) fuq :+rcfu {wr +ergqR AqR fur qrm t, {qrRrd frqr qrcr t*r snqr qtq{ur frqr qrer t z
r+o fua tra
zoo frqr frEr
r+o frfl tra
r+o fta *a
(A) IS:515(C) IS:517
(B) IS:516(D) IS :518
ras. sd-erRrqq ftftr*z tczs)
(A) ffi t scq]fud frdr t(B) qfl+s{ fi qq sGrT 3Fl?T q.rm t(c) tfr + q-er A qrcr t(D) 6T R+-c ailrnru + efr qq yFciq frm
ttaa. Gdr$ + +{r ft firin+ + iiftc t yermtq
*) wr q-5r vrar t r(A) ft'€"M
(c) Yq-m<q
(B) q{ur
(D) qrsq{
rss. ffiq t ffi + eftrt?r +1wr mr qrm t ?
(A) t'qE
(B) 3{qq{ur yftrtq
(c) qqsrM vFdftT
(D) {ffi eFdt?T
186. sR qrqsr (qrrdr crci6 z.st, fr F€rft *"ft t(A) uft qw erq(B) Rqc qrq
(c) ce=ItT
(D) *a erq
rez. sft qq ftat *fic + ftq e+'r fuq qfi qr&qe-rftifz Hl 3f,gcrd fuqif qrqr qrcr t z
(A) oTr{kFT qr err+cq t(B) -tsFT cFI qaa Q
(c) EtEFr q-r err+fr{ io) $nirffr .nT qqq fr
t8B. ye.ltFF{uT +1 t-*+ + ftq, ifrftc *} rq} fi3T&r+-dqfu frilft*fi t t(A) 1oo tfr(c) rso tfr
(B) rzs tfr(D) zootfr
I
sPAcE FoR RoucH woRK 7 rn m.rd * ftq *r+n.DB 2o14lPage 35
1-:{s1
195. The volume of voids to the total volume of soil
is known as
q4fPorositY(B) void ratio
(C) air ratio(D) air content
A fundamental equation of void ratio (e)'
specifrc gravity (G), water content (W) and
the degree of saturation (Sn) is
196.
,b4Y(c) G-
(A) II,III"{ef r
(B) w= fp
eW
S p
(D) Sn =
p
eW
G
t97. Manometer is a device used for measuring
(A) VelocitY lBf P""ttrr""
(C) DensitY O) Discharge
198. CaPillaritY is due to
.Y/surface tension
IL cohesion
III. viscositY
rV. vapour Pressure
V. weight densitY of liquid
(B) III(D) II, III, V
199.
200. The discharge through a V-notch varies
(A) ProPortional to head (H)
(B) inversely proportional to angle 0
(C) ProPortional to]F.S/z i'-'/
(D) inversely proportional to tan 012
Flow of water through a passage under
atmospheric Pressure is called
(A) Pipe flow .
(B) Uniform flow
{gf Op.n channel flow
(D) Non-uniform flow
189. The dimension for Angular velocity is " .r,9
(A) Tz Sb/rt Aqw
(c) Tl (D) T-2 tlt
/f\Sg)v,/h*n of the following flow constants does
notlnave anY unit ?
(A) Chezy's C
(B) Manning's N
ffl Both Chezy's C and Manningis N
v / rol None of the above
191. Each term of the Bernoulli
rePresents
(A) energy Per unit weight
(B) energT Per unit mass./
i19f "n",gY Per unit volume
(D) sPecifrc energy
equation
have
192.
tg4.
Pressure in terms of metres of oil (specifrc
gravrty = 0'9) equivalent to 4'5 m of water is
(A) 4.05 wI s'o
(c) 3.6 (D) 0:298
193. Typica-lly, a hydroelectric plant will
following hYdraulic machine :
,N Hydraulic T\rrbine
(B) Hydraulic PumP
(C) Electric Motor
(D) None of the above
Darcy - Weisbach equation to calculate the
head loss due to friction for flow through
pipes is applicable when the flow through the
pipe can be
. (A) laminar onlY
(B) turbulent onlY
\gf Aotttlaminar and turbulent
(D) subcritical flow
SPACE FOR ROUGH woRK / {IF s'd * ftq *em
(\9xI
.DB 2014/Page 36
rge. +1uftq i'r ff frcr t(A) T2 (B) T-1
(c) T1 (D) T-2
leb. Tqr * gfr 3$rfiT fr ge-+ it ftftdt $ 31546a
*1 wr 65r vror i r
(A) qigrdr
(B) ftfu ergwa
.(c) qrg 3Ecld
(D) arg fi w*t
rge. ftfu 3rgqTd' 1e;, frfrru q{rq (G)' qqiqr twl.fo riEfr cmr (sp) sT W qtrtur t
tt(A) ifr c(B) tfi'rt N(c) *fr c afr{ tfir Ntit(D) iltm fr t 6t$ c-S
1e1. erld qfu{ur q-I lds {E e{T ffi-a e-cm
tt(A) vft {+.r$ qqc t qun usi(B) gft {*'r€ tr+rn + ergqn s-qt
(c) sft {*.r{ 3irqd{ * agun ssf(D) ftRrs g-qi
tsz. 4.5 m llET * g@ctq eR (frfrrs gte = o's)
qr tra t sq il qrq fur{r t ?
(A) 4'05 G) 5'o
(c) 3'6 (D) 0'2e8
rgs. frfug sq t qs qf,-fugE {rir i FqRfud
'tr-qrkd cqftq +ft '
(A) (q-qrfu z-dfqc
G) (*qrfud'ic(c) tdg-q+c{
(D) sqttr fr t +t$ c-S
1e4. qfufir (qrgc) Era xtrd + frq q{rr * +-RUI- qrfrqdr tfi or qftoffi q-G + frq qfufiPit
oa *qr Y-crE At q{ sr$ - ffiq qffitqvr1ftn qrm t t(A) +Td R0q(B) *-c-€ frWr(c) Kfu 3fu frU"t frto) s{sift-s Y{r6
rgo. ffifud fr t fus i Et$ Aft-c
60',1 t'tF, lr-
1e7. ffifisq gfu *l Yfr'r wr cM+ + ftq ftqrqrcr t z
(A) e'r(c) Fr€
1es. Sft5+-m fuq 6T{ur t ttfr t r
I. Y8 il{rqIL tiis{III. {qFrdT
w. q|q qlcT
v. (6t "5T qR s;f€
(A) II, ilI(C) I
(B) Erq
P; Frwrut
(B) III(D) II, III, V
(
!
S6
t-6s
rgg. qqrisd-q <rq * 3fifi{ qrd t U$G erd qq *vort + eII s-6t wer t t(A) cr{q tr{r6(B) qd-{qf{ vqE(c) 5-6 YB (+{f,) e-drd
(D) 3T{FTH rt[6
zoo. v-qiq ;1 q ftsu1 fus 3UqR qftsffia affir
tt(A) qrm-e-dr trr) + q{i3q|tfs
(B) +1q e+€-trqqwfts(c) H5/2 + sqqcTftrs
(D) tar_ ol2+ gorrgcrftrs
.DB 201 4lPage 37 sPAcE FoR RoucH woRK I rn q.rS * fte FrH
\n
{t(
101. The technique of adding a precise amount of
time between the trigger point and the
beginning of the scope sweep in a CRO is
known as
(A) Free running sweep
(B) Delayed sweep
(C) Triggered sweep
(D) Non-sawtooth sweeP
102. In a CRO, a sinusoidal waveform oJ a certain
frequency is displayed. Ttre value of the
quantity that can be made.out by observation
is
(A) RMS value of the sine wave
(B) average value of the sine wave
(C) form factor of lhe sine wave
(D) peak-peakvalue of the sine wave
103. In a Cathode Ray T\rbe, the focussing anode is
located
(A) after accelerating anode
(B) between pre-accelerating and
accelerating anodes
(C) beforb pre-accelerating anode
(D) just after electron-gun
TEST (iii)
PART B : GET..IERAL ENGINEERING
(ELECTRICAL)
104. In a CE (common emitter) transistor,
Vcc = 12 V and t]ne zero signal collector
current is 1 mA. Determine the operating
point when collector load (Rg) is 6 kQ.
(A) 6V, 1mA
(B) 6V,2mA
(C) 12 V, 1mA
(D) 1-2V,2mA
105.
10:
37.6 V
23.0 V
(A)
(c)
An Aq supply of 23O V is applied to half-wave
rectifier through transformer of turns ratio
10 : 1 as shown in figure. Determine the peak
inverse voltage across the diode.
1kf)
32.5V
14.54V
The potential barrier existing across pn
junction
(A) prevents flow of minority carriers
(B) prevents flow of majority carriers
(C) prevents total recombination of holes
and electrons
(D) prevents neutralisation of acceptor and
donor ions
(B)
(D)
.DB 2O14lPage 38 SPACE FOR ROUGH WORK 7 {5 *T{ + frq TqTq
ro1. S.3{R.*. it wlq Yq{e-c-d{ + fiq fi-+a qqq
wr o-et t t(A) gm-urc+ xvd
(B) ffidd qq{
(c) qqRa sq{
(D) ft eil-{rqfr sq{
roz. fr.ent.fr. it, q+ frRo 31T{fr or qr+fiq
afu-sc vqRid A-dr t r q4iqrq EKr {rc fi qt
{fi't qr$ qtt{T t6t crc wr t r
(A) qr eh qT RMS crq
(B) qr ertr ql *ga cH
(c) qr eitr 6I5c Uurfi
(D) qt at'r el Rrqr-frlqt qn
ros. *ers fo{ur qftilfir q, e}+v+ tlts s-di €'n
trmtt(A) ar+ tts * erE
+ Aq{ qriz 3i1
f,,TTi fi ilf,fis +l
(B) qf-ere eft{ dr+ ti-st + d-q
1d-ec* tits + q{A
ffi'rc * *6 qrq
(c)
(D)
to4. m.t. (qrcrq "oq+)
gifr€{ il, vcc = r2Y
gftr W ftFq€ inrE-d qRT 1 mA i | fuq
qqq +iTre+ t{R (Rc) o to d, 3q vcq 6-t
10:
ereii * Y-srd 6\ n-rdr teEi@-s qrEdt * Yq|-6 H} lt+"T t
!=nrFr fug {rd fiqq t
(A) 6V, 1mA
(B) 6V,2mA
(C) 12 V, 1mA
(D) l2V,2mA
ros. urgfr fr ftlurq 3rJqR qd e'';'T ftP-*-t-t ii, qdr
3qcrd 1o : 1 * qfiYnfu{ * qrqq t zao v frq.S. eqr$ { qrfi t r srsts qr Yfiq frrqt
ftanT n56 fifrq t
37.6 V
23'0 v
106. pn sie{q q{ +$ ftrrq lr4{
Ft;
1ko
(B)
(D)
(A)
(c)
(A)
(B)
32.5V
L4.54V
(c) fuqi S{ {fr-+(iit * Wt 5a'*i*w+ *1
t*-dT tto) nrfi 3i{ EltT sTrq+i + frserrrd{ q} t*-dT
5a
spAcE FoR RoucH woRK I rn or{ * frq *qn.DB 2014lPage 39
111.
112.
113.
T\vo sinusoidal currents are given by the?I.
equations il = 5o sin (ctlt + ; ) and
i^ = 25 sin (<rlt - *1. The phase differencezb
between them is degrees'
(A) 15
(c) 45
(B) 30
(D) 75
The reactance of 1 farad capacitance
connected to a DC circuit is
(A) infrnite (B) 1A
(c) 0.5 o (D) zero ohms
A sqpply voltage of 230 V, 50 Hz is fed to a
residential building. Write down its equation
for instantaneous value.
($ 163 sin 314'16 t
(B) 230 sin 314'16 t
(C) 325 sin 314'16 t
(D) 361 sin 314'16 t
coil
114. The AC bridge used for measurement
dielectric loss ofcaPacitor is
(A) . Anderson bridge
(B) Schering bridge
(C) Wien bridge
(D) Hay's bridge
107. In electrodynamometer ammeter' the
deflection ofthe pointer is proportional to
(A) mean of currents in fixed coil and
moving coil
(B) square of the current in moving coil
(C) RMS value of current in fixed coil
(D) mean-square of currents in fixed coil and
moving coil
108. In whichlof the following traasformers, is the
secondary winding always kept closed ?
(A) Current transformer
(B) Potential transformer
(C) Power transformer
(D) Distribution transformer
109. Two holes are drilted in the disc
diameter of enerry-meter to
(A) increaseventilation
(B) recluce the weight of disc
(C) eliminate creePing on no-load
(D) increase deflecting torque
ona
110. Which of the following instruments has the
highest torque/weight ratio among the given
instruments ?
(A) Attraction tYPe MI instrument
(B) RePulsion tYPe MI instrument
(C) Permanent magnet moving
instrument
(D) Electrodynamometer instrument
.DB 2O14lPage 40 SPACE FOR ROUGH WORK / {$ 6T{ + frq {sr|q
t
1oz. {fr{frsrflrfrftar W& fr, {ikd-s +l frfrqFFsh srgqrd fr tm t t(A) rq-s $sS St qe ffi fr qKreil sT
qt?4
(B) +o 1ffi ii qrn qr e'l
(c) er+o ffi fr emr q-t RMScI-{
(D) effi€ :$sd *r qo ffi it Errcreit sT
qna-qrf
roa. Frafufud n n fts qfisnftr (<iqsift) ii'
Bfu$ drd d E+{n 3TEd €r qrm t t(A) eTKr qftsnfr{
(B) furq qfrsnfrr
(c) tdgd {rfu qft"nfr1
(o) fr-d{ur cft"nfu{
rog. --qft*fi * qrq qr qh_+r f A fu F6q ftqfrqefttz(A) {qrc{ {.drf * ft\(B) qBqr.ql enm inq qlf + ftq
(c) qIaT tTR q< Mur + ffi + frq
(D) frfrfr qq-gilWt +1 qqri + ftTq
11s. ffifud 3q-6{uit it t fuq 3qq-{qT t Ffuqe-en{tissrq qgcrd tar t z
(A) s[rfi{ur v+n * MIBrF{q
(B) sftlfiftT v+-n * Mlstltr{ut
(c) *Bn* gqs +o 5ffi 3q6{q
(D) fit+@na3q5{ul
rrr. d qwfiq qnreit *1q++r"t
ir = 50 sin (rot * ]l St iz= 25 sin (rot - l)4, I 6
Er{r ft{tkd frqr qrm t r sct {q t*-an tnzFT c6e,tr<R dm t
(A) 15 G) 30
(c) 45 (D) 75
rrz. ftq qrtr qftqel i Si qrl qt r *'ce qrftm olvfurd wr d'n z
(A) 3{qfrfrd (B) 1ei
(C) 0'5 O (D) Vg+ o1t-.
118. qen 3Trdrfr rr+q if 230 v, 50 Hz ol ffiqqqr$ tdr i t m.qrFr+ cr+ * frq ss+lqfi-+rq frfuq t
(A) 163 sin 314'16 t
(B) 230 sin 314'16 t
(C) 325 sin 314'16 t
(D) 361 sin 314'16 t
rra. riqrfrr fi qirag-d Erfr + qrv{ $ frq ft-qq.S. +E e.r vfrt frqr qrm t z
(A) qs{-u'r tg
(B) iR.r fu(c) *q tE
(D) ts fu
-\
.DB 201 4lpage 41 SPACE FoR ROUGH WORK T15q;r{*frqern
t20.
Lzl..
r22.
L23. A circuit has inductance of 2 H' If the
current changes at the rate of 10 A'/sec'
self-induced emf is
(A) 5v
(c) 20 v
(A) 1v
(c) o'4 V
(B) o'8 v
(D) o'2v
(B) o'2 v
(D) 10 v
119. Energy stored in an inductor is given by
(B) I""(D) I "r'
| <tD2.rlz
1
JLI
(A)
(c)
A coil with a certain number of turns has
specifred time constant' If the number
turns is doubled, its time constant would
(A) remain unaffected
(B) become double
(C) become four-fold
(D) get halved
Hysteresis is the Phenomenon in
magnetic circuit bY which
(A) H lags behind B
(B) B lags behind H
(C) B and H are alwaYs same
(D) setting uP a constant flux is done
The flux through each turn 6f a 100-turn
is (t3 - 2t) mWh, where 't'is in seconds'
the magnitude of the induced emf at f' = 2 s'
I,<n
,
\--
115. The B-H curve for will be a
straight line passing through the origin'
(A) air
(B) soft iron
(C) hardened steel
(D) silicon steel
116. Magnetic lines of force coming from a magnet
(A) intersect at infrnitY
(B) intersect within the magnet
(C) cannot intersect at all
(D) cancei at Pole faces
117. The main advantage of temporary magnets is
that we can
(A) change the magnetic flux
(B) use any magnetic material
(C) decrease the hYsteresis loss
(D) magnetize without any source
118. The magnetic material usdd in
magnets is
(A) iron
(B) soft steel
(C) nickel
(D) hardened steel
permanent
.DB 201 lPage 42 SpAcE FoR R9UGH woRK i {s o.r{ * fuq *qrc
115. ftq+ ftq s-HTs W + Tst+ qrd eF tqrfrftt(A) q|g
(B) 5gtrdr
(c) w&ftKr eqrd
o) ftftn-+q {srd
t1G. gErs t sTri qrd qe fi gqfttq-rq
(A) erid qt sffiE Htfr t(B) gq6 + rfrd{ vfttdq 6cft t(c) te-€id rfr sftdq q't qsfi
(D) ?F scoiqr FKR A qfr t
rrz. erenfr gq+l 6l g@ dN 116 t fr tc' (A) gqfiq 3TFrdrE +) qEo s-se t
(B) frFS S gqffq Fq'n 51 5d+ro e..t
F+i E
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(c) 20 v
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(D) 0.2V
(B) 0.2 V
(D) 10 V
.DB 20l4lPage 43 sPAcE FoR RoucH woRK 7 rr q,r{ + ftTq enq
124, The conductor, by means of which the metal
. body of an equipment or an application is
connected to the earth, is known as
(A) Neutral continuitY conductor
(B) Earth discontinuity conductor
(C) Eaith continuitY conductor
(D) Neutral discontinuity conductor
125. 'Which insulation is most widely used for
covering wires/cables used in internal
wiring ?
(A) Paper
(C) Glass
126. Which of the following types of wiring
preferred for workshoP lighting ?
(A) Casing=CaPPingwiring
(B) Batten wiring
(C) Concealed conduit wiring
.(D) Surface conduit wiring
L27. \\e 'earthing electrodes should be placed
within what distance in'meters from the
(B) Wood
(D) PVC
buitding whose installation system is being
iarthed ?
(A) 4 (B) 2'5
(c) 1.5 (D) o'5
Supplier's fuse, which is provided in domestic
wiring system is
(A) after ttre enerry meter
(B) before the energY meter
(C) before distributionboard
(D) after main switch
L29.
130.
131.
Power distribution by cable is gener
adopted for line length
(A) less than 10 km
(B) above 10 km
(C) less than 50 km
(D) above 50 km
The leakage resistance of a 50 km long
is 1 MQ. For a 100 km long cable it will be
(A) o'5 Ms,
(c) 0.66 MA
(B) 2 Ma
(D) None of these
If voltage is increased by 'n' times, the size
the conductor would
(A) increase bY'n'times
(B) reduce bY'Ud times
(C) increase bY'12' times
(D) reduce bY'Usz' times
The maximum demand of a consumer is 2 kW
and his daily energy consumptionis2{ units'
His load factor is Vo'
24 (B) 4t'6
50 o) 80
133. A wire placed on the top of a transmission
line acts as
(A) a Phase wire
(B) neutral
(C) a transmission wire
(D) gPound wire
(A)
(c)
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.DB 2014lPage 45 spAcE FoR RoucH woRK I rn er{ + frq {PTH
I34. The colciur of the light given out by a sodium
vapour discharge lamP is
136. The transformer used in a welding set is
(A) steP-uPtransformer
(B) steP-down transformer
(C) constant current transformer
(D) booster transformer
136. The domestic load that has IIPF is
(A) Fan
(B) Mixer
(C) Tube'
(D) Filament lamP
L37.
(A) pink
(C) yellow
(A) 0'5
(c) 0'6
(B) bluish $een
(D) blue
(B) O.75
(D) 2'o
An industrial consuner has a daily load
pattern of 2000 kW, 0'8 lag for 12 hours and
1000 kW UPF for 12 hours. The load factor is
138. Dielectric loss is proportional to
(A) Erequencylu2 (g) frequencY
(C) frequency2 (D) frequency3
139. Which of the following applications needs
frequent starting and stopping of electric
motor ?
(A) Air-conditioner
(B) Lifts and |roists
(C) Grinding mill
(D) PaPer mill
140. As per recommendation of ISI, the maximum
number of points of lights, fans and socket
outlets that can be connected in one
sub-circuit is
(A) 8
(c) 15
(B) 10
(D) 20
r4t.
L4,t2.
In a 3-pin plug
(A) all the three pins are of the same size
(B) two pins are of the same size but thirdone is thicker
two pins are of the same size but thirdone is thicker and longer
all the three pins are of different sizes
The acceptable value of grounding resistance
to domestic aPPlication is
(c)
(D)
(A) 0.1c)
(c) 10 o
(B) 1a(D) 100 o
L43. Inside the earth pit, the earthing electrode
should be placed
(A) vertical
(B) horizontal
(C) inclined at 45"
(D) inclined at any angle other than 45' '
L44. Toreduce the cost of the electricity generated
(A) the load factor and diversity factor must
be low
(B) the load factor must be low but diversityfactor high
(C) the load factor must be high but
diversity factor low
(D) the load factor and diversity factor must
be high
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l
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(c) 0.6
(B) 0.75
(D) 2.0
.DB 2014tPage 47 sPAcE FoR RoucH woRK 7 rtr 6r{ * ftq rrro
L45. Ifthe excitation of an alternator operating in
parallel with other alternator is increased
above the normal value of excitation' its
(A) power factor becomes more lagging
(B) power factor becomes more leading
(C) outPut current decreases
(D) output kW decreases
L46. In an alternator, the effect of armature
reaction is minimum at power factor of
(A) 0'S lagging
Gj o'866lagging
(C) 0'866leading
(D) unitY
147. Damper winding in synchronous motors
used to
(A) suppress hunting
(B) imProve Power factor
(C) develoP reluctance torque
(D) .improve
the efficiencY
148. Turbo alternators have rotors of
(A) small diameter and long axial length
(B) large diameter and long axial length
(C) large diameter and small axial length
(D) small diameter and small axial length
149. Which of the following equipmenJs is used
to limit short-circuit current level in a
sub-station ?
(A) Isolators
(B) tightning switch
(C)' CouPling caPacitor
150.
151.
L52.
153.
In a single' phase indrrction motor' speed
sensitive centrifugal switch is connected in
winding'
(A) parallel with main
(B) series with main
(C) parallel with starting
(D) series with starting
,dt starting, the starting
winding (I") of si motor
(A)
(B)
(c)
(D)
lags V bY 90"
leads 1l bY 90"
is nearly in Phase with V
leads 1l bY 75"
In a single phase induction motor at start' the
two revolvin$ fields Produce
(A) unequal torques in the rotor conductors
(B) no torque in the rotor conductor
(C) equal and opposite torques in the rotor
conductors
(D) equal torques in same direction in the
rotor conductors
A synchronous motor can be used
synohronous condenser when it is
(A) over excited
(B) over loaded
(C) under excited
(D) under loaded
154. Which one of the
give a higher than
of an alternator ?
(A) ZPF method
(C) EMF method
following methods would
actual value of regulation
(B) MMF method
(D) AsAmethod
.DB 2014lPage 48 SpAcE FoR R9UGH W9RK / {$ o.r{ * ftq {r[Iq(D) Series reactor
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(A) ss+l $fr' g"ris 3TRrs q{-qil-fr fr vrni
(B) cqql qrfr U@ 3TRrs 3Tnq-rft d qror t(c) ffi erru qa wft t(D) ftriq pry qe war t
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(A) 6'5qrq{-rfr
G) 9.966 qfqrn*
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(D) \'6q ($a)
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(D) v*iq g;s-o+ 6 sTer ffi.i
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(c) {utr q6df if qqn efu ffin qe-erqf
(D) Wtr qmsl fr qd d fun if gln;rqe-erryt
rss. gev*rk* fra *-r ffir g@-sTfus rirTrR"
1*dw) * sq il o-e frq qr s6ar t ?
(A) eTft T+tq-d di c{
(B) erft q6o di q{
(c) q;q stfud di cr
(D) q-q r+rfra dl cr
rsa. yersftfr (qi-&tat) + fi?irur * qrwf* qrq
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.DB 2O14lPage 49 spAcE FoR RoucH woRK 71p 6pd * frq *ern
155. For the network shown in thevalue ofcurrent in 8 Q resistor is
PI
48V
figure, the
a
(A) 4.8 A
(c) 1.5 A
8O
(B) 2.4 A
(D) t.2 A
156. A piece of oil soaked paper has been inserted
between the plates of a parallel plate
capacitor. Then the potential difference
between the Plates will
(A) increase
(B) decrease
(C) remain unaltered
(D) become zero
The current drawn by a tungsten frlarnent
lamp is measured by an ammeter' The
ammeter reading under steady state
condition will be the ammeter
reading when the supply is switched on'
(A) same as (B) less than
157.
(C) greater than (D) double
158. Tesla is same as
(A) Weber/meter
(B) Weberfmeter)2
(C) Farad,/meter
(D) HenrY(meter)2
159.
160.
161.
L62.
A stove elernent draws 15 A when connected
to 230 V line. How long does it take to
consume one unit of energY ?
The R"n for the circuit shown in frgure is
4A 1c)
(A) 3'45 h
(c) 1.0 h
(A) L4'4fJ
(c) 15.27 A
(A) ohm-m
(C) mho-m
Calculate the
resistdnce.
14.5 O
The SI unit of conductivitY is
(B) 2.16 h
(D) o.2e h
(B) L4-57 A
(D) 15.88 e
(B) ohm/m
(D) mho/m
voltage droP across 14'5
25.5 A 60 o
(A) 14.5 V
(c) 2ev
(B) 18 V
(D) 30.5 v
.DB 2014/Page 50 SPACE FOR ROUGH WORK / {S 6.F{ } Iqq +'NI
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,
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161. qe$dT fi sr{Fe wr t z
(A) ohm-m (B) ohm/m
(C) mho-m
LA.E ctyftfor vt *-h Er€ (+ezar qrd) 6Tqft+,il{ fiFqq r
(A) 14.5 V
(c) 29V
L4-5 A 25.5 0
.DB 2O14lPage 51 sPAcE FoR RoucH woRKT{$6.r{}fuenc
iI
,
II
III?
Calculate the total susceptance of the circuitshown in frgure.
-j10 o
164. The Q-factog of a parallel resonant circuit is
(A) +
1-(c) ; J1ILC
165. In an R-L series circuit, the phase diff"t"n."between applied voltage and circuit current
will iircrease if(A) Xr, is increased
(B) R is increased
(C) Xl is decreased
(D) supply frequency is decreased
166. A series circuit has R = 4 9, Xt = 12 Q and
Xc = I Q and is supplied with 200 Y,5O Hz
Calculate the Power.
(A) 6.67 (J
(c) 0.16 o
1.87 ()
0.08 ('
(B) 8000 w
(D) 19,200 W
(B)
(D)
(B) +,8
(D)
(A) 6400 W
(c) 14,400 w
167. For the circuit shown in figure, the voltage
across the capacitor during steady state
168. A current of 5 mA flows in a resistanceless
choke from a 200 V alternating source. The
enerry consumed in the choke is
(A) OV
(c) 6v
(A) OJ
(c) 500 J
(A) 18 O
(c) 45 Q
(B) 4V
(D) LzV
(B) 4.4 J
(D) 1000 J
30s)
68O
169. Find R4s for the circuit shown in figure.
(B)
(D)
.DB 2O14lPage 52 SPACE FOR ROUGH WORK / {S 6.d } frq wn
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-j10 o
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164. foTtftd
(B) IR
(D) +JLC
r6b. R-L M qftqq fr, wgrgm ete-dr 3+{ qftqrT
qRr + *-+ 6q61tnq qE ,,nKrtT ?
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(B) w n q.tsn
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166. gfi 44 qftqq l, n - 4 e, xL = 12 e *t
G)
(D)
(A)
(c)
1.87 ()
0.08 ('
q-Xq-* ffiqtrd eT
fuqr
(A)
(c)
Xc = g s *r qqr$ 2oo v, 5o Hz t r F+qoqlcn iFT qk*.dq fffrq t
(A) 6400 w (B) 8000 w(c) 14,400 W (D) 19.200 W
L67. 3TTFft f frqq rTq qftcer * ftq, *e+rfi
E{n if S?nkr w fte+ EHq dcr t r1F
(A) OV
(c) 6v
168. 2oo v ysr+ff qtd
b mA fi qra rdrRdgqtfiqrcdfrtz
(A) OJ
(c) 500 J
tog. 3TEft ti ftqq .rq
fifrq t
(B) 4V
(D) r2V
t qfrriq-{Fd
+fttrqt++nnfrfrffi
(B) 4.4 J
(D) 1000 J
qftqq * frq 'na"f,rd
Ll
12V
(A) 18 O
(c) 45 A
30o
68s)
(B)
(D).DB 2014lPage 53 spAcE FoR RoucH woRK I rn q.rd * frq *eil{
lrr.
170.' The commutator of aDC generator aqts as
(A) an amPlifieT'
(B)' a rectifier
(C)'aload
(D) a multiPlier
171. Flemingfs left hand rule is applicable to '
(A) DC generator
(B) DC motor ,
. (C) Alternator
(D) Transformer
Which of the following single ph-ase motors is
available with speed as low as one revolution
per minute ?
(C). Hysteresis
(B) Reluctance
(D) Universal
(A) resistance sPlit Phase :
(B) caPacitor start
(C) shaded Pole
(D) single Phase series
t74. In capacitm start sing-le p-hase
rnotor, the cu:rent in the
inductign
: (A) . supplylinesleadsthevoltage .
(B) starting winaing lags the voltage .
(C) main winding leads'thevoltage
r (,!) starting winding leads the voltage
.DB 201 lPage 54
voltage will be
(A) 2oo v(c) 230 v
irocr FoR ROucH woRK / ru ol{ * ftq, Fnc
vlv2
Stepped core is used in tranSformers in
to reduce
(A) volume of iron
(B) volume of coPPer
(C) iron loss
(D) reluctance of core
Commutation conditions at full load for
DC machines ca$ be efEciently checked
the
(A) Brake test
(B) Swinb-urne's test
(C) IloPkinsonis test
(D) Field test
the armature'cul*ent is 200 A' the
(B) 210 v
(D) 250 v
175. In an autotransformer of voltage ratio
Y1 > Y2, the fraction of Po'wer
inductivelY is ProPortional to
(A) Vr / N1 + V2)
G) Vz /Vr
(C) (V1-V2)/ff1+V2)
(D) ffr -v:, lvr
176.
177.
178. T'he emf induced in a DC shunt generator
230 V. The armature resistance is 0'1 Q'
t70. frE qru w{tc{ (qftr)if sT{ *-wr t r(A) sqtts(B) M(c) r{R
o) uur-s
+r ffirqdq. frq 6c
c+ftq inr Errq * * frq q{ mtt r(A) RE *TKr q-dtat (qfrr)
G) ftE qrn qtar
(c) verqffir (3ri-e{+c{)
(D) qissif{
\rs cftFqur yft fr{c fi frq .rft qrffi +1r_mq*;€ seTT *a srftq t I(A) ofta gq G) yftEnT
(c) frQftfrq o) grftf.s lnffia)
+qq ffi-{r n fuq fra qr yfr'r +dr t z
(A) sFdtq frrl-tr qRT
(B) {qrRr }-dts(c) orftn gq
(D) qs€ s-dr *fr
rz+. +iqfu* y+dq qsd S-s fr.T frat fr,(A) qqr$ dr*if { emr ffi + eprqrfr Et-fttG) l-idq :iger fr ?TRr eHq + qyfl-fi
EY-fi t(c) gw {e-c+ fr qrq qEc * aF;'nm E)fr)bro) r+dq:Fffi ii errcr fttq + 3{nqtfr d-fri
r7l.
I nz.
173.
-
rzs. *eam Wqrd 3, u, , v, * utaliumfft frv2
irFrqa, oidftd qrfu +.r si{r fuq+ sq6qrfu*'d'n z
(A) Vrl(Vr + Vz)
(B) Yz/Yt
(C) (v1 - v2) / {v, +vr)
(D) (V1 -V|, /Vr
rzo. 4ivwifif if ffi-d *ts s] yfr'r wr q;q od+ fuq frqr qrar t z
(A) dt *-r qr{ftFT
(B) aiq ql sTrrkFI
(c) dt *r arq
(D) xts 6l yftEnl
q-.S fu errr qqft+i + ftq R mr c{ mgdqRrfrRT 61 ffi BKr qrdrTf* fiq.Fd frqrqr v+-m t t(A) *+ cftHq
(B) fu+rqfrqur(c) EffiRT qT cfrHq
(D) ftr.s qfiqTur
rze. RE qRT qT{dqer sita it ift-d t*gq_er5* w(emf) 280 v i t eHT+q{ sftrfrq 0.1 o't f qft3ilfr-fl er{r 2oo A A, fr ztrqe qhudr fr.rfi&ft2
(A) 200 v(c) 230 V
177: .\
TJ
(B) 210 V
(D) 250V
rsPAcE FoR RoucH woRK 719 614 * frq eern
.DB 2014lPage b5
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.DB 201 4lPage 56 Jrocr FoR RoucH woRK / {F sr{ * ftqetr+
179. A resistance R is measured bY----
.**"ter-voltmeter method' The voltmeter
""tai"g is 200 V and its internal-resistance
is 2 K. If the ammeter reading is found to be
2 A, then value of R is
182. For the linear circuit shown in frgure'
whenR=*,V=2OY;whenR =Q,l=44;when R = 5 C), the current I is
(A)
(c)
(B)
(D)
100.0 a
90.3 o
183.
(A) 1A
(c) 3A
The current Ifigure is
(B) 2A(D) 4A
in the circuit shown in
4A105.3 A
95.3 A
180. The circuit shown rn
equivalent to a load of
4Fa
4A
the given figure is
2A
(A) - 3'67 A
(c) 4A
In the network shown in the frgure' the val
of R1 such that maximum possible power
be transferred to R1 is
(B) - 1A(D) 6A
(B)
(D)
(A)
(c)
s/3 o
29
181. The north pole of a magnet is moved away
from a metallic ring' The induced current in
the ring flows
(A) clockwise
(B) anticlockwise
(C) first anticlockwise and then clockwise
(D) first clockwise and then anticlockwise(B)
(D)
6.0 f)
15.0 o
(A) 5'76 a
(c) 10'o o
-
vYvY I2at
i eol
10oRL
ue. yftftq R s1 tfic{-ffi& q-dfr t rilsT qrdT
t t eHc{ q6T 2oo v t *r sso, e{idft-fi
eftrnq 2 Kt I qR W4 ce'q 2 A rTl-{TT rgt A,d nq, rrFT wr tq-r z
180. { ,r$ 3rr$ f ftqtqr rrqT qftqer frq r+R *g€t ?
(A) 105.3 c)
(c) e5.3 el
(A) 4/S e
(c) 4O
(B) 100.0 a
(D) e0.3 o -
(B) s/3 o
(D) 2a
181. qrg * qoq t gq+ + Tdfr ge *) Ea frqrnTrdT t I trtrr + iftd erm n*yqrRd *ft z
(A) q.S ff R$r f(B) s-.S fi ffid fr{n il(c) q-de q-S fi t4qftd fuTr fr sfu fu rS
fi fr$rit@)qf,eq.Sfffurifftf5{qdfi
ffidfunfr
rsz. engft fr lquq rq tfu-n cftqer * ftq,qGTR=o,V=2OY;
GIGIR=0,I=44;
"ltr R - 5 Q, gIKr 1GFilfi I}ft T
(A) 14'
(C) 3A
(B) 2A
(D) 4A
lss. sil-Tft f ftqq qq cftcq if qra r Frcrfi fr'ft r4A
)20
2A
sol 'o(
(A) -3.67A (B)
(c) 4 A (D)
3trTftfrR€tq.rqffiRrft t fuil{r Et'n ssfr 3TFrer-f,q {rrd td{dsl"R RL ii 3idRd Er qrq ?
2A
-1A6A
it, R, q.t qH sg
i/
(A) 5'76 O
(c) 10.0 c)
G) 6.0 O
(D) 15.0 o
.DB 2014lPage 57 spAcE FoR RoucH woRK I rg or{ * fre {qn
185. The material to be used in the manufacture ofa standard resistor should be of
(A) low resistivity
(B) high resistivity and low temperaturecoeffrcient
(C) high temperature coeffrcient
(D) low resistivity and high temperaturecoefficient
186. In a 3-phase induction motor crawlinghappens at
(A) any speed
(B) no-load speed
(C) odd multiples of fundamental
(D) even multiples of fundamental
187. A 4-pole, 3-phase1440 rpm on a 50
speed. '
(A) 2940 rpm
(C) 1440 rpm
induction motor runs atHz supply. Find the slip
(B) 1500 rpm
(D) 60 rpm
188. Low voltage windings are placed nearer to thecore in the case of concentric windingsbecause
(A) it reduces hysteresis loss
(B) it reduces eddy current loss
(C) it reduces insulation requirement
(D) it reduces leakage fluxes
189. If K is the phase-to-phase voltage ratio, thenthe line-to-line voltage ratio in a 3-phase,
'Y-Atransformeris
(A) K
(c) J5x
(B) K/Jg
(D) $ lK
190. If current through the operating coil
moving iron instrument is doubled,
operating force becomes
(A) one and a half times
(B) 2 times
(C) 3 times
(D) 4 times
191. In moving iron instruments, the iron moves
a direction to cause
(A) coil inductance to be constant
G) mutual inductance to be minimum
(C) minimum reluctance path
(D) decrease in the flux passing through it
A moving coil instrument has a resistance
10 Q and gives full scale deflection at 0'5
potential difference across it. How can itadapted to measure a current upto 100 A ?
(A) By connecting shunt resistance
0'005 O across the meter
192.
(B) By connecting shunt resistance of 0'05 Aacross the meter
By conlecting shunt resistance of 5across the meter
By connecting shunt resistance of 10
across the meter
193. The multiplying power of the shunt ofmilliammeter is 8. If the circuit current200 mA, then current through the meter is
(c)
(D)
(A) 25 mA
(C) 1600 mA
(B) 200 mA
(D) 3200 mA
a
is
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18b. rtFI.F sftrtqfi + ffiq t rym ff qi *tqrcfr il wr Arr qrRq ?
(A) fu efttttr{-dr
(B) vq sfttersf,r *{ ftq ilc U"ris
(c) sq drc Uuri6
(D) 6- qftt?rfrilr *r sq arq Uqiq
rso. s-Bs ft"r qt& it ffiq (fr.T"r) qq tar t z
(A) ffi$'rfrc{(B) W-ITR trft c{
(c) ao 'rft + frsq Uwii qt
(D) ae ffi * qc Wrs\ c{
tsr. 4-W, s-+tr fr ftq izr Eo Hz qqr$ qt
1440 rpm ci qtrft t t F+s{"r'rfr {rd €frq t
(A) 2940 rpm (B) 1500 rpm
(C) l44O tpm (D) 60 rpm
r88. {Ar{-jffi s Rrfr if frq sHq +:itrffis) *ts + fr+-i {GrT qrdT t R}fu
(A) qe Rfrfrq Erfr s\ +'c H{nr t(B) qe riqt-qn Erfr d q.q +ror t(c) rc fl+gq-ntn 3il?rsFrdT +1 oq orm i(D) rc stq 3fui el oq ni-m i
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(A) K (B) K/J3
(c) J5x o) $ lK
teo. qR q€ fr6 3rrrr{ur ft qkqrf,{ drd d-{r qrr
+1gn *-{ frqr qrq, fr qftqm{ w furcr dwEn ?
(A) & Ucr
(B) sTr(c) td5{l
(D) fut1e1. qeT 65 sqowil i, fr6r qs frq|-r f ftq ftq
Ermtz(A) ffii.*-cs6)RRil++frq(B) 3r+q ic+-€ 61{ffi il} + ftTq
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3mtdii fuqr qr s*-ar t z
(A) fta cr o.oob o cH * qrd qftfrq 61
iE or
(B) fiet qt o:ob o qn * qrd eftrnq d qt-s
r5-{
(c) fra qt 5 arrr;T + cnd vfttq +1ft qt
ro) fta c{ 10 o rlrq + qrd qftrtq s1 *sr5{
1es. ftffig{ + qrv{qQr ff gun nft e t t qR
qRcer errr 2oo mA A, A ftc{ it qra Cn-ilfi
tftr(A) 25 mA (B) 200 mA
(C) 1600 mA (D) 3200 mA
lr
.DB 2O14lPage 59 SPACE FoR ROUGH WoRK lrs,6.14*frqrp+n
194. A 200 W, 200 V bulb and a 100 W, 200 V bulbare connected in series and the voltage of400 V is applied across the series connected
bulbs. Under this condition
(A) 100 W bulb witl be brighter than 200 Wbulb
G) 200 W bulb will be brighter than 100 Wbulb
(C) Both the bulbs will have equal
brightness
(D) Both the bulbs will be darker than whenthey are connected across rated voltage
195. In the network shown, if one of the 4 C)
resistances is disconnected, when the circuit
is active, the current flowing now will
196.
(A) increase very much
(B) decrease
(C) be zgro
(D) increase very slightly
For the circuit shown in frgure, when V. = Q,
I = 3 A.'When Vs = 200 V, what will be the
value of I ?
10e) 20c)
rf laoot) t,l,faoo (v..ID̂
(A) -44(c) 1A
(B) - 1A(D) 7A
197.
198.
The unit of volume resistivitY is
(A) ohm-m3/m2
(B) ohm-m2/m
(C) ohm-gram-m/gram
(D) ohm-m4/mg
Four resistances 2 Q, 4 Q, 5 C),
connected in parallel. Their
resistance is
(A) le) (B) 2A
(c) 4a (D) 5a
2.5 A
7'5 A
5.0 o
10.0 o
10v
(A) 100 watts (B)
(C) 20 watts (D)
199. In the figure, the value of R is
8A R
(B)
(D)
(A)
(c)
200. Power consumed in the given circuit is
5 watts
40 watts
30o
20cJ
.DB 2014/Page 60 SPACE FOR ROUGH WORK / {$ t6.14 * ftR *qlq
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L94.
195.
200 w, 200 v ftq sfu 100 w, 200 v EtFl
1udrfrg$get3ft4oovqrffiMitEB Rdf qt cfirin qrer t t qq Rft { wrd'n t(A) 100 w ErGr 200 w dcr t eftr* q{sER
A'r(B) 2oo w qer 1oo w qer t eftro q*Fil{
El'n(c) +it q€T fr qqn qqs A'ft(D) tit *o 3Eqd +€-dr w gQ qeit t
3TRr6 gqe Eit
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ergr strr *'S d'fr t
24V
(A) e-gd 3TRm qa qrEft
(B) qe qtg'ft
(c) erq d qrqfr
(D) sgd E6-m s.e'ft
I.
G) -1A(D) 7A
rso. engft fr ftgq .tq qfrser + ftq, EGr vs = 0,
I = BAA-dr i I qs v" = 2oov, n) I.FI gFI
wrtm r
10o 20c)
r| !so"t) r,l,fsoo (v
(A) -4A(c) 1A
lez. sn-qrFr sftrfrTs-dr fi {frc wr t r(A) ohm-m3/m2
(B) ohm-m2/m
(C) ohm-gram-m/gram
(D) ohm-ma/mg
r98. qR vFdftT 2 gt, 4 s), 5 g), zo o qqiar f g}ge t r s+*.r dW vftriq fur{r tn r
(A) 1c) (B) 2e(c) 4a (D) 5c2
res. en5ft it, Rql w wr t t
2.5 A
7.5 Ct
10v
(l) 5 q|-e
(D) 40Srd
5.0 o
10.0 o
10c)
8A
I
!
\i;
(B)
(D)
(A)
(c)
zoo. ftq rq cftqq fr fugq fi qrc frn-cfi t r
30c)
(A)
(c)
1004-e
20q-e
.Oe ZOt 4lPage 61 sPAcE FoR RoucH woRK I rn qT{ + frq *ertq
I
101. Which one of the following is an example of
solid state welding ?
(A) Gas welding
(B) Arc welding- (C) Thermit welding
(D) Forge welding
102. The shape and size of sand grains affects the
following ProPertY :
(A) Adhesiveness
(B) PorositY
(C) Refractoriness
(D) Strength
103. Cereals are added to the moulding sand to
iinprove the following :
(A) PorositY
(B) Green strength
(C) Hot strength
(D) Edge hardness
104. Plastic toys are usually produced by using
(A) shell moulding
(B) green sand moulding
(C) plaster moulding
(D) injeciion moulding
105. Generally used fuel gas in gas welding is
(A) N2
(c) czlJz
(B) COz
(D) He
106. Spot welding, projection welding and seam
welding belong to the category of
(A) electric resistance welding
(B) forge welding
(C) thermit welding
(D) arc welding
TEST (iii)PART C : GENERAL ENGINEERING
(MECIIANICAL)
(A) o"c(c) 4'c
107. The water hammer pressure in a pipe can
reduced by(A) using piPe of greater diameter
(B) using a more elastic PiPe
(C) using pipe of greater wall thickness
(D) increasing the velocity of pressure wave
108. When a fluid is in motion, the pressure at
point is same in all directions. Then the
is(A) ReaI fluid(B) Newtonian fluid(C) Ideal fluid(D) Non-Newtonian fluid
109. Density of water is maximum at(B) 4K(D) 100'c
110. The ability of a tool material to resist shock
impact forces is known as
(A) wear resistance(B) toughness(C) red hardness(D) machinabilitY
111. The tool material which has high heat and
wear resistance is
(A) Ceramics(B) Cemented carbide
(C) Carbon steels
(D) Medium alloY steel
112. To improve the surface finish of castings, the
following additive is used in the moulding
sand:(A) Resins G) OiIs
(C) Wood flour (D) Sea coal
113. The binding material used in cemented
carbide tools is(A) Nickel G) Cobalt(C) Chromium (D) Carbon
.DB 201 4lPage 62 SPACE FOR ROUGH WORK / {F 6T4I frq TPIr;|
qfterur riiil11rrl rT:€TrtTR[ffi
(qiB-€)1ol. fitrTftfu-d it + dq
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ro) std +"Er
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o,+(n) Et-s ilrrT q-r tq q.at H-r
108. nrcr tco 'rh fr ET-dr t, d g* frq q{ Erq srftfr{rrcit ii sqn +dr t I iTcr IRFT +fr rtcr t r(A) qrwf* n-ro(B) q:fr dco(c) e+rE{i Tr€(D) 3T_qc* dw
r09. .iET crr q;rd o-q eTFrs-f,q fr-or t r
(B) COz
(D) He
rro. frffi s+sn srcfr fi sErkT qT {qg {f, sFdiqHTdr sl .nTT trdr qror t z
(A) frq{q sfrtq(B) E{-frdT' (c) rm q-&cm
(D) q{ftqq}q-dr (qqffiv-dr)111. .16 3Tt9R qtqfr M[ sq arq ofu MlT
eftnq +dr t(A) {funr-ftre (Srfuw)(B) frEie Ufi q.rqt$s
(c) srdq dd(D) qeqq \rdi4 *d
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(A) o'c(c) 4c
(A) tFqc(c) Ts wrt
(B) 4K(D) 1oo.c
(B)
(D)+dsf-d Ttet{-m Gis1a q1c-ftrrs. Sfrfz-Tm *.rqt$s eMt ii
lqt'rfiffitz(A) fl{#d G) +tqr€c(C) s)frqc fU qrfr
.DB 2014lPage 63 spAcE FoR RoucH woRK 719 +.r{ * frq rrn
114. A hydraulic turbine runs at 240 rym under ahead of 9 m. What will be the speed (in rpm) ofthe turbine if operating head is 16 m ?
115. The discharge of a liquid of kinematic viscosity
4 x L0-2 m2ls through a 80 mm diameter pipe
is 3200n x 10-a m3/s. The flow is
(B) turbulent(D) critical
(A) 320
(c) 264
(A) laminar(C) transition
(A) 10.4 N
(c) 4.8 N
(B) 426
(D) 23O
(B) 6.8 N
(D) 3.2 N
(B) l:2(D) 1: 16
116. The velocity at a point on the'crest of a modeldam was measured to be 1m/s. Ttre
corresponding prototype velocity for a linearscale ratio of 25,inrr./s, is
(A) 25 (B) 2'5
(c) 5 (D) 0'04
117. Pressure force on the 15 cm diameterheadlight' of an automobile travelling at0'25 m/s is
118. A piece of metal of specifrc gravity Z floats inmercury of specific gravity 13'6. What fractionof its volume is under mercury ?
(A) 0.5 G) O'4
(c) 0.515 (D) 0.415
119. The friction head lost due to flow of a viscousfluid through a circular pipe of length L anddiameter d with a velocity v and pipe Fanningfriction factor f is
4fr, ,2 4fl, u2(A) d.2s (lJ) E.2s
n,Y; 4n- u2(lJ) "d
' 2c
120. The ratio of pressures between two points Aand B located respectively at depths 0'5 m and
2 m below a constant level of water in a tank is
(A) 1: 1
(C) L:4
rzt. Froude's Number relates to
(A) inertia force and gravity force
(B) inertia force and pressure force
(C) inertiaforce and surface tensionforce
(D) inertia force and elastic forrce
L22. In pitot-tube the velocity of flow at a point isreduced to zero. That point is called as
(A) stagnation Point(B) critical Point(C) metacentre
(D) equilibrium Point
123. The velocity distribution in a pipe flow isparabolic if the flow is
(A) uniform, turbulent(B) uniform,lamirrar(C) non-uniform,steadY(D) rotational, comPressible
124. Mercury does zof wet the glass surface. Thisproperty of mercury is due to
(A) adhesion G) cohesion
(C) surface tension (D) viscositY
125. Loss of head due to friction in a uniformdiemetel pipe with viscous flow is
(A) Re (B) Vte(c) +ln (D) 16/3e
126. Maximum' theoretical efEciency of Peltonwheel is obtaiTed when tJre ratio of bucketspeed to jet speed is
(A) 0.26 (B) o'98
(c) 0.46 (D) 0'5S
L27. T\e velocity distribution for flow orer a flatplate is given by u = (y - yA in which u isvelocity in metres per second at a distancey metres above the plate. What is the shear
stress value at Y = 0'15 m ? The dynamicviscosity of fluid is 8'0 Poise.
(A) L2'4N/m2
(C) 0'56 N/m2
(B) ]r24Nlm2
(D) 5'6 N/mz
.DB 2O14lPage 64 spAcE FoR ROUGH WORK /{F fl{ * ftrq *effi
114.
c{ wfdt t r qR Fnal;T tg ro - t, fr zrqrfl
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(A) 320
(c) 264
116.
(A) 25
(c) 5
il2. o'zs fr. eft3tT,mqT{d fiqoi(A) 1o'4 N
(c) 4'8 N
118.
119.
(A) 0'5
(c) 0'515
(B) 426
(D) 230
G) frWI(D) Fifts
(B) 2'5
(D) 0'04
+drs c{ q€i qrd qd
rs tft qrq ff is-dl-tz ct EItr
(B) 6.8 N
(D) 3'2 N
(B) 0'4
(D) 0.415
qiso eiq + fl{rc{ qt gs fi-g w t{ r rr'/t qtqr
{rrT I Mq tqrqT 3rgqrd zs t fu a-€sfifficrqc *t t"lrilwr t t
qs frRrE utd 7 Hr erg 61 3s-.gr frfte yers.o +' crc il ftr rar t r gq+ 3dr{trT ql ftaqteisrqREttt
ewr{ L den qrq d ff qs q-d-o qrEq t rqnaco t r, fut ssl-6 * q,rq s{"r qfr{ EFT &FI Fn
t z qrgc +f+T qtrT Yr* r t t
v-%
120. qs ts t qo t ftn wr + +A o's fr' *iz fr. .en$ qr Rra x.wr' A Ggsit a *< s *fiq <rq qr 3{-Jqrd wr t t(A) 1: 1
(C) r:4(B) L:2(D) 1:16
12r. s'r-ss {icqr ffi qqa t z
(A) qs,e RT Sr 5e eo(B) qsc"I eET $t qrq e-d
(c) .rge ecT ft YSq n;FT q(,T
(D) qge qq *r vsrcer qo
rzz. trfta-qq fr \'6 frg c{ }trt qr *r qa 6{ q[s
fr vrcr i r o Gg *} qqT s-6t qrm t t(A) n TFdfrq frg'G) fiftrd fii-E
(c) eTrqq-+q(D) dCdc frE
r2s. cr-{c r+m i +T f,{d{ur vqrc fi foq Rrft nqre-dm tat t z
(A) gs-{IttFT, frgoq
G) q+-tmn, wftq(c) 3T€[qF[, 3iqfrTfi
(D) Tfi, {iftq'q
124. sl{E qfq ff src el sTrd ,d? 6<TT I q-rq slq€ 5or fuq 6l-{ur t t t(A) 3rr{iq{
(c) Y8 il{rs
(A) Re
(c) +/Re
3i-Jqrd +dr t(A) 0'26
(c) 0'46
G) qtIsFT
ro) YqFIdr (ffidr)
(B) 0'e8
(D) 0.58
(B) t'24Nfiorr2
(D) 5'6 N/m2
t25. {qrc eqr6 qft qs-+mn qrs * cr{q it s{"r +q-nq <rfrqar Erh t
(B) r/n"
(D) 16/Re
rzo. tac cRq fi 3TEts-dq Etril 3q qlFI
q-H fi qr qqfi i qq etz'rfr 3fu *e qfr ol
122. q.F qqfi €a q{ iqr6 4-T A'r fud{q tu = (y - rzyffii o Qz * sc{ v fia fi dqr fia sfr n-srs ii +'r t I y = o.rs fr. c{
3+r5-tM qft-qo ql-{ FII t z ero fi {fu$ rql;fflr
(ffidT) s'o qlYT t I
(A) 72'4Nlmz
(C) 0'56 N/m2
.DB 2014lPage 65 spAcE FoR RouGH woRK I rr qrd + ftq ern
128. Which of thb following does nof relate to steamengine ?
(A) Crank shaft
(B) Cross head
(C) Steam chest
(D) Steam separator
129. Self-ignition temperature of diesel as
compared'to petrol
(A) is higher
(B) is lower
(C) is same
(D) varies considerably
130. Morse test is conducted on
(A) vertical engines
(B) horizontal engines
(C) single cylinder engines
(D) multi cylinder engines
131. In spark ignition (SI) engines, the possibility ofknocking can be reduced by
(A) increasing compression ratio
(B) decreasing compression ratio
' (C) increasing the coolant teurperature
(D) advancing the'spark timing
132. Higher compression ratio in diesel engineresults in(A) lower temperature
(B) Iower pressure
(C) same pressure
(D) higher pressure
133. What salts of calcium and magnesium cause
temporary hardness of boiler feed water ?
(A) Chlorides
(C) Nitrates
(B) Bicarbonates
(D) Sulphites
134. In fiesel engines, the duration between thetime of injection and ignition, is known as
(A) pre-ignitionperiod
(B) delay period
(C) ignition period
(D) burning period
135. The process of supplying the intake air to theengine cylinder at a density more than thedensity of the surrounding atmosphere isknown as
(A)' scavenging
(B) detonation
(C) supercharging
(D) polyrnerisation
136. Which of the following expressions gives the
entropy change in an isobaric heating process
from T1 toT2?
T(A) nC^ln'2"T'
(B) m Co (T2 - Tr)
(C) m Co (T2: Tt/ To- : . ,
(D) m Co (T1+ T2)
137. If Vi be the inlet absolute velocity to blades, V5
be the tangential blade velocrty and a be thenozzle angle, then for maximum blade
effi.ciency for single-stage impulse turbine
v,(A) o -coscr,V.
I
v,(B) D=V.
I
\/(C) 'b
= -"2 o,V.
oos cr
2
V,(D) D=v:
cos2 q,
.DB 2014lPage 66 SPACE FoR RoUGH WORK 715 5fi * frq'rrrn
rz8. ffifun it t wr r+rc + isr i {ciftrd
tt(A) *s *€(B) srq ts(c) qs *e(D) mq Eqm'rc+
rzs. i-i€ ff g*t it *sd 6t FkT: FkH dltr-trFT
(A) ckn Etdr t(B) ftFn +dr t(c) qcm €dr t(D) 6rfi qngfi rflr t
rso. trd c0tnq fuq c{ frqr war t t(A) sqi?R vefr qr
G) dfte Fsr] q{
(c) qs-d frfus{ ffi vt(D) +g ftfusi lqit vt
rsr. qft'r Fre.r+ (qtT.sn$.) isii fr, snqw.tcq fit'qrc-{r GFs+ EKt q-IT fi qt v*ft t z
(A) {i{F{ 3qqrd q.at 6rG) ifts+ 3i-Jcrd qer +-{
(c) Tfrdd-+. q.r dFrqFT rer 6{(D) q;fur qqq +1 .nt qa1 +r
rsz. Ss€ iw { se rifrsr 3+Irn-d + qfturq+Tsq
wr*mt r
(A) ftqfi iTIqqFT
(B) frqfi qq(C) {TTTFT EIEI
(D) ct-il{ qq
rss. *Rrqq *{ n-fiRgc + ftq equit * +nqsiqdr srr{or ft{ t er€en$ q-&cdr tft t t
1sy qrlfrrdfu
o) qesr{c
rsn. *sd is-fr i, ei-<,frqq St vqcq qqq **q fi erqRr d wr q.il qrar t r(A) $-rwe+ ere(B) fuq qre(c) Iqd{ c6lET
(|) vcle'l-{ tFTf,
lsb. qftm -rkTrcr-{ur + qq€ n 3TRm q+e qt iqq
FrT sEr qnr t t(A) 3flqqdq
(B) qtru$tcq
(c) 3TFrRuT
(D) egqff+TT
186. frqfrfuT n t +{-m siffim {Frcrtt iTTtFT
v*q fr t, t t, fr q<ift qkdq *} qfud 6tfttt
T(A) mCotn f1
(B) m Co (T2 - T1)
'(C) mCn(T2-T1)/To
(D) m Co (T1+ T2)
rsz. qR vi +s ml sr<fqFqfffr +s +'r t 3ftr
qs-m-q{ur gTrhr Rr{r *Eqrdr + ftq
V,(A) o =cosct'v.
V.(B) D=V.
ftTfrs{ fr sidni€ arg ff f,ffi o-{f fr e&qr 6}
ffiq n'r t, vb
"{s+ort,frfrq eTRr*-dq ds
I
I
\I(C) 'b - -"2 o
V.
V,(D) D=V.
I
cos cr,
-r2 o
.DB 2014lPage 67 sPAcE FoR RoucH woRK i rg e,d + ftq em
138.
139.
The friction between objects thatstationary is called
(A) static friction
(B) rolling friction
(C) kinetic friction
(D) dynamic friction
Fatigue of a component is due to
(A) cyclic load
G) static load
(C) constant heating
(D) collision
(A) 900 rad
(C) 1200 rad
(B) 300,200
(D) 1000,900
140. The angle turned by a wheel while it starts
from rest and accelerates at constant rate of
3 rad/s2 for an interval of 20 sec is
(B) 600 rad
(D) 300 rad
141. Stress due to change in temperature developed
in a bar depends upon
(A) coefficient of thermal expansion
(B) thermal conductivity
(C) densitY
(D) Poisson's ratio
142. Strength ofthe beam depends on
(A) Bending moment
(B) Density
(C) Section modulus
(D) c.g. of the section
A reversible heat engine working at the rate of
100 kW has an efficiency of 2OVo. The
magnitudes of heat transfer rate from the
source and to the sink in kW would be,
respectively,
(A) 200, 100
(c) 500,400
143,
LU.
L45.
The direction of frictional force acting on abody which can slide on a fixed surface is
(A) in the direction of motion
(B) normal to the direction of motion
(C) unpredictable
(D) opposite to the direction of motion
What strength of the material is to be
considered for design of a ductile component
under cyclic load ?
(A) Illtimate strength
(B) Yield strength
(C) Endurance strength
(D) Fracture strength
146. For any given power and permissible shear
sttess, the rotational speed of shaft and itsdi"meter are conelated by the expression
(A) ND3 - constant
(B) ND2 - constant '
(C) ND = constant
(D) JND = constant
147. Which law of motion (of
measure of force ?
- (A) Newton's frrst law
(B) Newton's second law
(C) Newton's third law
(D) None of these
Newton) gives the
148. The shear stress at the centre of a circular
shaft under torsion is
(A) maximum
(B) minimum
(C) zero
(D) unpredictable
.DB 2014lPage 68 SPACE FOR ROUGH WORK / {F s,d } frq rprn
Prr+t q€3it + frs q{"r +} FIt 6EI qrdr t ?
:A) r+ftrs fitB) ag{ q{rr
(c) qidc q{ur
(D) qfi ('rfrs) qftT
Gr$qmfi ryifrfrqqTrrttfrt z
(A) err+fi tTR
(B) *dftr+ qn
(c) srkm ilq{(D) riEtEc
q* qFqr tqnq + qK sc'rqr eniq q.ccr t 3fr{
zo t*o-s + 3id{r€ + frq 3 rad/s2ff q*-qqtq
.rft t dRd +dr t r sq+ ETT sTI +}"r t(A) 900 rad
(C) 1200 rad
(B) 600 rad
(D) 300 rad
dTqqf{ it qfisdq * q.nq en (Es) ii Ai qrf,r
eFf{d fts qt ftrtr qrm i t(A) arfu qqn Uuris
G) dlfiq gqm+dr
(C) FIGI
(D) wru} ergwn
frq qr qng{ fuq c{ ftrft ocm t t(A) Eio{ 3TtTi
(B) q{€(c) cfidE qrqis
(D) cfidE ql c.s. (Ttd *-<)
, 1oo kw ff 'rft t q'd q-{+ qrd 3GnEI 6qtiw fi qqrff 20% t r *c t 3fr{ 31ftrP 66g.srT {alFTidrur Et tnT qftqrur kwfr xqqr' ftnrqt
d'n t(A) 2oo, 100
(c) 500,400
(B) 300,200
(D) 1000,900
t44. ti fi-s q< qrd qr G sfrft q€ fi flHn wt t+ RK qea qr q{or s{ v+ar t z
(A) 'rfr fi R{n tre) 'rfr ff ftqn * €q(c) 3r-JcTq +S e'nqt sTT sFil
1p) 'rft ff ft$r t ffid
qfr r+n * 3lft{ frFS irEI qeir + BsEr +frq qrcfi + frq qrcsd e} cmq t {qr $T$1 r
(A) qrq qrcd
(g) cqrlq qrcs{
(c) qEq qrq?d
tn) tcfq{ qn'Pd
GFfi S ffiq {rfu 3fr{ 3l-Jh 3dqsrm YRr*f, +frq, iqc ff {tfq 'rft 3fr{ 3ssl ql-q -nI
ft-ri.iqc 6 31ftrqfu 6ru qm frqr qrat t z
(A) NDB =Rt{(B) ND2 =RR(C) NII =Rn
.o) tr1.ID|=RR
L45.
147. trft or +1q-qr ftqq ({a 6r) q-d +-t qrq qrrkTl
ir(A) ry= or sqq ftqq
(B) qtr 6l frfu fiqq
(c) q:aorTfrfuq(D) gcfr t sti Tfr
r+e. td{ t s+ftr +6f, i€ + *r qt 3+r5rm
qFfr{d fufdT *m t I(A) sTEr+-dq
(B) qrdq(c) w(D) 3UqH qs qrrqr sII {l-€rdl
r3Jr'
1/'
s11^ -.
fl
i 201 4/Page 69
I
sPAcE FoR RoucH woRK I <g *r{ + ftq rsn
149. Name the mechanism in which the Coriolis
component of acceleration is to be considered'
(A) Quick return motion mechanism
(B) Four-bar mechanism
(C) Slider crank mechanism
(D) Beam engine
150. Bevel gears are used to transmit rotary motion
between two shafts whose axes are
(A) Perpendicular
(B) Parallel
(C) Non-intersecting
(D) Non-coPlanar
151. A differential gear in an automobile is a
(A) simPle gear train
(B) epicYclic gear train
(C) comPound gear train
(D) sPeed reducer
152. Creep in belt drive is due to
(A) weak material of the belt
(B) weak material of the Pulllf
(C) uneven extensions and contractions ofthe
belt when it passes from tight to slack
side
(D) expansion of the belt
153. The crank shaft turning in a journal bearing
forms a
(A) turning Pair
(B) sliding Pair
(C) rolling Pair
(D) helical Pair
L54.
155.
156.
The twining moment (T) deli'serecl by a
flywheel with respect to its angular
displacement is given by tbe following
expression :
T = 14000 + 7000 sin 0
The values of 0 for which delisered torque is
equal to mean torque for a single c5rcle are
(A) 0o, 180o,360o
(B) 9oo,27oo,360o
(c) 90o,270o,180o
(D) 0o, 27oo,360o
The shearing strength of a rivet is 50 N/mm2'
If the diameter of the rivet is douHed, then its
shearing strength will be
(A) 100 N/mm2
(C) 50 N/mm2
(B) 2OO .r*/hm2
(D) 300 \hm2
Figure shows a four bar chain and the number
indicates the respectivg link lengths in cm'
The type of tle mechanism is known as
(A) slider crank
(B) double crank
(C) crank rocker
(D) double rocker
157. A slider sliding at 10 cm/s on a link which is
rotating at 60 rpm, is subjected to Coriolis
acceleration of magnitude, il cmzls,
(A) 2on
(C) 4on
(B) 10tt
(D) 807r
.DB 201 4lPage 70 SPACE FOR ROUGH WORK / {S 6T{ + frq {qlC
149.,8{ "iTrq-d tRT qrq qf,r{q fiilq'i d{q ++}futkq qe+ +}qrn qrm t t
" (A) 6d qftFdc rrfr ?iil-dd
(B) q-Efs ?iflEd
(c) wr{s{ iffi "irrddo) Es iw
++q Mt or vfrr R A fui + trs Wtr'rfriRd q.G + frq frqt qrm 1ftrq+ Qi{
(A) eiq E]
(B) qqim €i
(c) qeffifr E]
(D) s{sc-frfiq E}
1b1. qd 3lfafrqr{-d f frt{ fu{ *-qr tm t t(A) scq fir+tqrot
G) 3TRrsfu-*' fu{crdr
(c) fta fircrtcrf,r
(D) qdqffirfr
1b2. rr{Er qrcc ii Mq fu€ 6.Rur n tm t z
(A) q€ff*.c-ftqrc'n
(B) 5d ff e,rfr{ qm'n
(c) +,t E< vrrd t firflm cwd fi 3fr{
uw vQ ET 3RITIt=t tdKR ft {itrfl(D) vQ o.r xvn (frwtt)
rrs. d€ ffi{ ii *-s ice q.r qdc r{rdT t(A) *h g'rd
(B) €{ur grrd
(c) +w gm
(D) dsffi gq€
qre
1b4. q"F rrftrqrf,* (wrg&s) Er{r 3{qt slrftq
ft{qrqq + {iciq ii xn ftqrrqr qqEH "ilTt6 ffifua qftrqfu dm qm frqr rrqr t'
T = 14000 + 7000 sin 0
e * sr+, frq+ ftq Yqq t*.qrrqr'qa-enwfqso wF $ qpa vo-enqti * errqi t, i(A) 0o, 18oo,360o
(B) 90o,270o,360o
(c) 90o,270",180o
(D) 0",270",360"
150. g* tde q.r 3n-6rm qrcd 50 N/mm2 t t qR
tde or q-q gqT qt leqr qrm i,oTrrSrM qtq?d fud--{r d{r t \
(A) 100 N/mm2 (B) 2oo N/mm2
(c) 5o N/mm2 (D) 3oo N/mm2
rso. Fq fu i qR qR +{ qnf-$ {$ t *t { 'r$M {iGiRrd frd ff ff 61 tft it q-drft t I
Fq ltFR fr ?iil-dfr +] wr 561wm t ?
(A) wrrs{ ih-*,
(B) sqe i;+(c) i'fi 1i*-{
(o) sqo ri+r
lsz. qs q{-s (wr{st) ro tfr 5ft e-fi"s fi'rft tti fu6 q{ €{or s-{ {6t t S oo 'p* fi -rft tq'ir ql €r t I tft2 efr t-sus it ft frsqfrsrq * *ftonfuq erq * artn+ t z
(A) 20n
(C) 4on
(B) l0n
(D) 80n
.DB 2O14lPage 71 spAcE FoR RoucH woRK I rp q.r{ + frq rern
158. A hydrometer is used to determine
(A) relative humiditY
G) surface tension of liquids
(C) sPecifrc gravitY of liquids
(D) viscositY of liquids
159. In flow through a pipe, the transition from
Iaminar to turbulent flow does not depend on
(A) velocitY of the fluid
(B) densitY of the fluid
(C) Iength of the PiPe
(D) diameter of the PiPe
160. Low specifrc speed of a turbine implies that itis
(A) ProPeller turbine
(B) Francis turbine
(C) Impulse turbine
(D) KaPlan turbine
161. Flow of water in a pipe about 3 metres in
diameter can be measured bY
(A) Orifrce Plate G) Venturi
(C) Pitot tube (D) Nozzle
t62. ln a pitot tube, at the stagnation point
(A) pressure is zero
(B) total energYis zero
(C) pressure head is equal to velocity
(D) all the velocity head is converted intopressure head
163. Navier - Stokes equations are associated with
(A) BuoYancY
(B) Supersonic flow
(C) Vortex flow
(D) Viscous flow
L64.
165.
166.
L67.
Using Blasius equation, the frbh fuor for
turbulent flow through PiPes srh r
The specifrc speed (Ns) of 7 4t PumP
is given by
(A) Re-1'
(c) Rt0'33
(B) R€-'5
(D) Re4-
(B) F(D) F
2U
"ut Jw tn-Ert
f, "ut'Jw tf
c6L,,[2g tH - Erta
(A) e=? G) P=?
(c) e= + (D) p= 9
Pressure intensity inside the-@lets is
(where o - surface tension
d - diameter of bub*'
The length of a rectang& E is L and
height H1. The alnximun dqA d rater on
the upstream side of the wi E H- Pbw rate
over the notch (Q) is
2;.f
(A) a= 3 c6L,{zg Iff
(B) Q=
(C) Q=
(D) Q=
168. The coeffrcient of dischagl tqa' d 'n orifice
varies with
(A) Weber number
(B) Mach number
(C) ReYnold's number
(D) Froude number
.DB 201 4lPage 72 SPACE FOR ROUGH WORK ITg +TS + frq {gI|C
G)
(D)
* rqr6 qil
I
ts8. g.r Er$fra *T vfrrr wr ftffta w+ + frqfuqr qrer t z
(A) utq erricr
G) nT*yu(c) r"if ql ftRrE gue
ro) nlAwFnT 1fficryt5e. gfi qr$q * qTT * wro rqr6 t frgoel r+n
ir€F ihT imquT fr-s q{ ftr{T til irkrr ?
(A) are q'r tq(B) RIcT i5r q{iq(c) qr{c fi d.'{r$
(D) rTrEq .'T qH
reo. ftq frRrE uft a-*rqq q.r eTsf t fr rc ttAl g"nE* U{qrfl
G) nifrq Rrfl(c) sn+'ft zwrsi
tDr tFRiH Tt=qI{{
ailqrr g frer qrs Sfus+ ERr qmr qr q*i(A) ens qfu
(c) ft*e q*
(A) Ere rfq +dr trn) 5ns-qf tpvtftt(c) qrq {ft{ +rr + qcH +dr trD) grft +{ qft{ qrq {ft{ fr qffi" E} qr} t
16. )ftq -€l€ qf6{q fusd qqc t ?
(A) TRftr;T
_ tn) q{taF-s rd6(c) gfr€ rdr€
@) FIFT FIr€
roz. ft*e <{E if, s'rfttq frrc q{
*at Eq, qrsq EKrgqe. frq* rusR
Re-o'5
Re-0,25
res. wH qrq ff frRrE'rfr rNd ffi ERr rf,r$qrfit r
166. q€ fr qs,{d + dn En fttrdr t(vEi
" -YB il{rEa -gogd *.r qrq)
16z. w s{FliTFrR F{fi fr dqr$ L t efu fu H,t r fuqt + sft Fil6 qt qe fi 3TRI$- c rrd{r$Ht r*q(e+isqtyqERt(A) a=; cu-,fg HE/2
(B) e= 3.u L,lzg (H-H1)s/2
(c) a=; "uL.lzg Hs/2
(D) Q =?"ur,!zg (H-H1)3/2
ros. {eT (ry) qT frqdq gurie 1.u; ffi qrqqffidtdrt? ,
(A) +q{ {@r(B) qre riwr(c) tir€ {qr(D) srss {i€qr
or yfrq
frq q{"1
(A) o=f G) o=f(c) n=f (D) p=9
IIII
\I
DB 2O14tPage 73 sPAcE FoB RoucH woRK 1{s Ed * ftq ern
169. The delay period in a p6trol engine is of theorder of
170. Octane number of iso-octane is
(A) 0'001sec
(C) 0'01sec
(A) 50
(c) 0
(B) 0'002 sec
(D) 0'05 sec
(B) 70
(D) 100
171. The silencer of an IC engine
(A) reduces noise
(B) decreases brake specific fuel consumption
(C) increases brake specific fuel consumption
(D) has no effect on efficiency
172. T\e compression ratio for a practical dieselengine usually lies in the range
(A) 5-7(c) 10 - 15
(B) 7 -e(D) 16 - 22
173. For a four-cylinder engine, the firing order for. ev€nness oftorque is
(A) r-2-3-4 (B)'1-3-2-4(c) r-4-3-2 (D) r-3-4-2
174. The drag coefficient is defined ap;
(A) (FDiA) l<p"T F_
(B) (FD/A) lfzo"f,)
(c) ro / to.s p vfr I
(D) FD / to.s p"fr nl
175; The length of the divergent portion ofventurimeter in comparison to convergentportion is
(A) same
(B) more /
(C) less
(D) depending upon the type 6f flow
176. In an isothermal proiess, the internal
(A) always increases
(B) always decreases
(C) increases or decreases
(D) remains constant
177. Which of the following is a boiler mounting
(A) Safety valve
, (B) Economizer
(C) Superheater
(D) Feed pump
178. Which part of a petrol engine wouldmodifications if the engine is to be made toon LPG ?
(A) Piston
(C) Valves
179. An adiabatic process in a
svstem is one in which there is
(A) a limited heat transfer to or fromsystem through the boundary
(B) no heat transfer to or from thethrough the boundary
(C) no enerry transfer to or from thethrough the boundary
(D) no internal enerry change in the system
180. A device usBd to increase the temperaturesaturated steam without raising its pressure
called
- (A) fusible plug
(C) economiser
(B) Crank shaft
(D) Carburettor
G) blow offcock
(D) superheater
181. Maximum diagram effi.ciency forreaction turbine is given by
(A) 2cos2a/(L+coso)
(B) cos2cr, ll*zcoscr)(C) cos2 cr / (t * z cos2 cr)
(D) 2cos2al(l+2cos2o)
tr-
.DB 201 4lPage 74 SPACE FOR ROUGH WORK 715 6{ } frq {qH
rzt. qfr eir$.+t. Fwr 6T {Gr {rTrfs (q6atw)(A) rq *) +q qTm tG) +s frRrE fqq qrd *) qq e-rar t(c) +s frRrE {q-c qq-d +} qa-mr t(D) gsfi qqrdr ct +$ elTrq rfr Etdr
rz2. qs' qq6rRs *sd i${ 61 aie-gq snqfd 6Tqirq qTrn;?kr, fud{T tor t r(A) 5-7(c) 10 - 15
16e. qs ti-d {fi fr t{€q slc,r eftrq fu6qT ddTtz(A) o.oort*us (B) o.oozt*rs(c) o.or t*us (D) o.os t+.o-s
rzo. en{+iftt{ fi 3rHc f@T t
rze. qqdrfr n*t if, 3Tidks g-qf
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177. ffi1fu6 i t +lq-Hr eTq-€{ ailifr-*rtt(A) g{Hr sicrtBr ffiw(c) sfildrq-s
(D) 9tqu1{q
(mitu)
128. t+d $qr +1 qm.q.S. q{ qf,r} + ftq {s{ +frq rrFr it 3{Rfurq ff erH{Tfi-dr frft r(A) ft€{ G) #fi *qe(C) cnG{ py ml$a
lze. gs sqFrfr-s ih + Fdq ysq il wr dm t r(A) qfrfrqr ERr +d it qr de t frtra sqr
*aIFTlit{uI
G) qftmqr EKr iir t qr dr t 3;q1 61Ferniil{ur q-S
(c) cftfifl dnr ir I qr t'e t s-ql srTarqiil{ur i€
(D) iir + st$ sTidkn B-qt qMq €f
(D) 2sr.za/0*2cos2o)
(A) 50
(c) 0
(B) 70
(D) 100
(B) 7 -e(D) t6 -22
r.78. HrT e-o-silTf + frq qn_ftfrgt iw ilF1?f{_Fq Wr fr.n f(A) r_2_3_4 (B) 7_3_2_4(c) r-4_3_2 (D) 7_3_4_2
u4. {is{ guris +) fr,s sq if qfu{rfd t*qr qmrt:(A) rFn/A) /fp"Z)
(B) (FD/A) /fzp"f;:
(c) ro / fo.s p vfr I
(D) FD /ro.spufr el
175. rtfifta n 3${vrfi qFr fi gc+ it y+n0 rTnfi dqr{ fu6ft +ft t ?
rAr qqrq
rB) 3TfrS
(C) tpi(D) YdIrE * y+rt o. ftft 6oo t
rso. +@ r+rq + Ers +1 e-.arq ftn us* arqqn 6)F.a++ frq r+'T fi qr+ qrd gft +1 Fn sErwartz(A) riq.d-q wrr (B) sTqqq{ ifdt(c) ftdq+Rr fnl erfoorqs
rer. q-f{ s{Ffivr z{qr{{ + frq 3TRr*.dq 3rtqqrdr ffi ERr qdr$ qrft t I(A) 2cos2o/(t*coss)
(B) cos2o /(t*zcoscr)(C) cos2G/(t*zcos2cr)
I
I
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+t$
.DB 2Ol4rPage 75 sPAcE FoR RoUGH woRK I rr q.rd + frq em
182. The food compartment of a refrigerator ismaintained at 4C by removing heat from it ata rate of 360 kJlmin. If the required powerinput to the refrigerator is zkW, the COp ofthe refrigerator is
(A) 2.0
(c) 0'5
G) LlB
o) 3.0
183. For a 4-stroke diesel engine, the compressionratio is 2l : L and the cut-off ratio is 2 : I.What is its expansion ratio ?
(A) 7 :7 (B) 10'5 : 1
L84.
(C) L2: L (D) 19 : 1
A gas in a container A is in thermalequilibrium with another gas of the same massin container B. If the corresponding pressuresand volumes are denoted by suffrxes A and B,then which of the following statements istrue ?
(A) P4*P3, V6=V3
(B) P4=Ps, V4*Vs
p' p(c) ^A
= ^BVA VB
(D) PAVA = PeVn
185. A liquid flows from low level 21, pr€Ssure p1 toa higher level 22, pressure p2. It can be
concluded
(A) first law of thermodynamics has beenviolated
(B) second law of thermodynamics has beenviolated
(c) zz<zt
(D) Pz < Pr
186. The boiling and freezing points for watermarked on a temperature scale p as 180"p
-20P respectively. What will be theon this scale corresponding to 60.C onscale ?
187. In a reaction turbine, the heat drop inblade is 8 kJ/kg and total heat drop per
' is 20 kJ&g. The degree of reaction is
(A) 40Vo (B) 6OVo
(C) 66'7Vo (D) 807o
188. A closed balloon containing 1O kg of helireceives 5 kJ/kg of heat. During thisthe volume of the balloon slowly increases0'2 mB at constant pressure of 100 kpa.change in interrral enerry, in kJ, is
(A) 10
(c) 30
189. Assertion (A) :
If a hot metal ball is quenched in a liquidlow temperature, heat transfer will takefrom metal ball to liquid and not in thedirection.
Reason (R) :
Heat transfer'process from hot metal ballliquid at lower temperature complies withincrease of entropy principle i.e. Sgen ) 0 andthe reverse process does not.
(A) Both A and R are true and R is the correctexplanation ofA
(B) Both A and R are true, but R is not thecorrect explanation of A
(C) A is true, but R is false
(D) R is true, but A is false
(A) 6o'P
(c) go'P
(B) 70.P
(D) 110'P
(B) 20
(D) 70
.DB 2014lPage 76 SPACE FOR ROUGH WORK / {S iF.r4 * frq *qrq
qs
182. qs'tffic{ + rils{ qrd sr} q,r drqqn BFi t860 kI efr fr{c ff <t t sqr q1 ua iFT 4"cqt qqrq {sT lndT t r qR ffiNtat fi epli-tdgq {rfm vqgz 2 kw t, d} tBqtdt iFr copfuil{r d'n r
186. qd + Feniq. *{ frqiq. +} *q$, gs dFTrrFr+#e p rR lso"p * w + sfu _20"p * sq ifoifud fuqr rrqr t r Es **s qr +fuq *il +6o.c rFT il€6fr qr€ifi wr drn z
(A) 60'P G) 7Op(c) 900P (D) 110.P(A) 2.0
(c) 0.5
L2:7
(B) 7/3
(D) 3.0
re3. \'s +-rfr* qrd *s€ gw * ftq, {frg{Wqrd 2t : Lt sfu fu+E Wcrd z : r t I
frRR Wqrd ft-cn t r
tsz. gs' STFTBqT &qrfl d, RR +s d sqr rnfrs kJ/ks i ft sft sltrcBn g;d Bqfi qrfr2okJkgt terp6utfiq|rrt(A) 4OVo (s) 60Vo
(c) 66'7Vo (D) 80vo
tss. qs d< gwru, fuf ro kc Sfuc t, s ur71.gsqr eTH +ro t I Fq eHqr + +{H, ga+rt elsilqiFT ?fit-cfft 100 kpa erqt EFr qt 0.2 mB q6qrer t | 3il<rks sql it, kJ if, fri ererqRq-dq t(A) 10 (B) 20(C) 30 1p) 70
1ss. fu+etq6):qfr \s. TF eilg-eT.q d ftq dFFm * fe ivftc A* qrcr t, tr *rE_Eid t qq d sqr{pnqiil{ur d'n sfu s€* ffid lqvn fr Tfi r
T$@) '
iru erE-eid n ftq dFrqFr q{ trq d sqrrrnriilrq eBqr \r{ifr fudid .{qk suuo > 0 fi{k sT srgqm{ q-ffi t *{ Eqt Eqft efrqTT$qffit I
(A) A sfu R +iT q0 t *t R, A Hl vfiHfro{q t
(B) e *r.n tql TS t, fra n, A s,T FSw$6{q ?A t
rc) a +fr t, fug n'rcc t(D) R Frfr t, fug e.rca t
(B)
(D)
(A)
(c)
10.5 : 1
19:1
rsa. ?it+t e { qfi +q, .it{ s fr qqn Eqq-4 ftF erq tq + qpT drfrq riCc+ tf t r qftsrdsfr Erq sfu silTtr{ *1 yqq A sfu B dnr{fud fuqr qrar t, fr ft{ftfur d t +tq_qro'qqgfrtr
(A) P4+P-s, Ve=Vs
G) P4=Ps, V4+Vg
(c) -% = P"
VA VB
(D) PlVe = PsVe
185. qis iq ftq kR 21, EIGI p1t sq kR 22, q|ttPz e{ rdrtrd tdr t I T6 M ft*ror qrs+,ar t fr(A) sqFrftfi * sqq fiqq + frr fuqr wr iG) sqtffidt + bft ftqq s1 rirr fuqT 'rqTt(c) 22<27
(D) P2 < Pr
.DB 2Ol4tPage 77 sPAcE FoR RoucH woRK I rp q.r{ * ftq ern
190. A body of weight 30 N rests on a horizontalfloor. A gradually increasing horizontal force isapplied to the body which just starts movingwhen the force is g N. Ttre coefficient offriction between the body arrd the floor will be
195. What type of contact occurs duringhelical gears ?
(A) Point
(C) Area
(B) Line
(D) Volume
191. A body of weight W is placed on a roughinclined plane. The inclination of the planewith the horizontal is less than the angle offriction. The body will
(A) be in equilibrium
(B) move downwards
(C) move upwards
(D) None of the above
192. A ball id dropped vertically downwards, it hitsthe floor with a velocity of 9 rnls and bouncesto a distance of 1.2 m. Coefficient of'restitutionbetween the floor and the balt is
(A) 0'54 G) zero
(c) 1 (D) a-27
193. For a material with,Poisson's ratio 0.25, theratio of modulus of rigidity to modulus ofelasticity will be
(A) 0'4 (B) r.2(c) 2'0 (D) 4.6
194. If equal and opposite forces applied to a bodytend to elongate it, then the stress produced is
(A) tensile stress
(B) bending stress
(C) compressive stress
(D) shear stress
196. Which one of the following drives is usedtransmitting power without slip ?
(A) Belt drives
(B) Rope drives
(C) Cone pulleys
(D) Chain drives
197. The contact between cam and follower isform a
(A) lower pair
(B) higher pair
(C) sliding pair
(D) rolling pair
198. Which of the following is antifriction bearing(A) Needle bearing
(B) Pedestal bearing
(C) Collar bearing
(D) Hydrostaticbearing
Helical gears have their teeth
(A) inclined to wheel rim(B) straight over the wheel rim(C) curved over the wheel rim(D) cut on the surfaces of the frusta of cones
200. When the speed of gover4or increases, then
(A) height of governor and radius ofincrease
(B) height of governor and radius ofdecrease
(C) height ofgovernor decreases but radiusrotation increases
(D) height ofgovernor increases but radiusrotation decleases
(A) 7o/3
(c) 7/3
G) slro
(D) lle
t
.DB 2O14lPage 78 SPACE FOR ROUGH WOBK I TN iF.r4 * ftq TsrN
reo. gin frfoe rf, rr-t B0 N *FT q-r frs rer t r fi-s
et lFrwt: qa,t Eq *fre qf, *r vfrtt fuqt qrer
t * qe'F g N di qr rrfrrmr fr vrcr t r fts*t re + *q q$q gqis A'n
(A) to/s
(c) tls
(B) slto
(D) tlg
191. qiF We.rH e'r frg eruc (sq) qFkT ileT q{ {Gtt
t t ao fi frftq * qrq orcft s{,tr dq t qq
t tqefi-s
(A) {TTErFr€en f A.n
(B) {i fi ft 'rn+H AqT
' (c) sc{ fr ft'nrqn t*(D) s€m fr + +t$ TS
lez. qi6 +q sqfm Fc t fti fi sft N qrft t*r g m. sft tfirs + +'r i q,{t qr anrft t*r stro qd 1.2 m. 1ft c{ qrfi t t qqi ofr{ tq+ fiq treFrcenq Wi* wr €t'n t
(A) 0.54 (B) Ylq
(c) 1 (D) 0.27
rgs. 0'2b qrql ruqrd qrd qm'i * frq, Felr€srdtqrqis t gfr-dr qriTi*' 61 3ucrd wt dqr t
(A) O-4 ; (B) L.2
(c) 2-o (D) 3.6
rga. .{R GFS fi-s rR rrrrFr *{ ffid seit ql Ffrqdt t T6 {ffi fr vrar t, d us* fi ererqft€t(e) e+t vfrqe
(B) iifr yfril€
(c) dftst sfu{d
(D) silT€rM yft{€
rss. $sftrft ffi + q{qtcr + *{r frq vs'R E'r
{qqf*drtr(A) ftq {iqet (B)
(c) *r {wqf o)tqr {wS3{r-€r-d;I {{q{t
rs6. Mvr tqqirt) + frn {rFd t'qtq + ftqffifu fr t olq-qt qret v*'r ftqr qrer
tz(A) q<r (t<-?) qrcq
(B) rE qrcH
(c) {r$ (6h) Um(D) TqdT (t+) qrcc
rsz. +q ft eE n-ft S *q {erf + wr q+et t r(A) ftaet g'rd(B) :rqtR gqd(c) u{w g'rd(D) +eq $e
leg. ffifuT fi t qq"ri$ ffirr +1q-qr t z
(A) {k*lfuft'r(B) qg6 (tlw) ffirr(c) Hrd{ fft'r(D) rd{r}fts fufrq
rss. $sffi ftqfr + qit(A) cRq + tc qt ermc dt t(B) qfu+ ftq c{ ft Ae t(c) qRq+ftqqt+*tili.(D) e,iS3ri + frtrd (m.ta) fi {m-dl qr 6t
fit2oo. .,ttr 3TftIfr{iT+' fi'rft q6fr t, fr
(A) erfuft{x+ fi gqr$ ft R.tr fi frqre-.6fr t
(B) 3tftftirs fi +qr$ *{ R.fr fi frqrE-ft t
(c) g{Frft{iTs fi gqr€ q-ft t frg qdr fffirqr qn-ft t
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.DB 2O14lPagp 79 spAcE FoR RoucH woRK l rg q.rd * fqq *qn
ARE TO BE GIVEN
the Answer-Sheet. ,- lftq qTt t t
The following example illustrates the manne: * I -'
which the questions are required to be answered' I gqT€PT t
Ball-point pen in column 'D' against Question N" I 3{+ fr+f Vf+f t :
'Q' in the manner indicated below : I
ODD word: | (A) €5fi(A) Giri I isl dssr(B) Boy I tct cfet(C) Woman I tot Sm
Question No. 'Q' I sf+ {' H
There is only one cotrect answer to each questron'
Youshouldblacken[O]theovaloftheappropriatecolumn, viz., A, B, C or D' If you blacken [O] more
than one oval against any one question' the answer
will be treated' as wrong' If you wish to cancel any
answer, you should completely erase that black
mark in the oval in the Answer-Sheet' and then
biacken the oval of revised response'
You are NOT required to mark your answers ln
this Booklet. AII answers must be indicated in the
Answer-Sheet onlY'
O@@@
strt iifi FdRr
Directions .' Each question or i""o-pl"t" I n*tl lr]:y*5f;$ T3}*T'*::::::",."u""111,;ffTil;#J::;;Jiill*.."y Kq *.oq s*T nq t ,v+s q$r ii
answers or completions. In each case, ;""";";; l*"*] fudb *1 g.-cl ^|{TR,$$}:ilff::;"JHT;:':;:,#;;.,;;;;:ri.:i" l# "* el51 6i 3ft sydf 5u.-cF6r c svg.F
question or completes the state*"i' T.d o.tTT""
I !1rg151t *n ol"' t I o el a;ratfftat Ei'€'qT{e
[O] appropriate oval A, B, C or D bv Black/Blue l}l t *.RTT tol +.c+l t I
Ba1-point pen against the question concerned in lfi+ fqq rrq g{-€{sr i *qE 5} srqm ft gtr fuq Ys'R
vre{. Ht -Example:Question No. 'Q'-
Out of the four words given below' three are
alike in some way and one is di-fferent' Find the
(D) Chair I
Exptanation : rnthe above exampte, the correct \ry,sc{ + -{€{ur i *-s .fl{ ttfr' t efi{ {6
answer is ,chair, and this answer has beenls(R'D'n g$lt tm t lTi:g-}slil;"".i"f ,;Yii:"o*1il-:il ffi.;ii '1
,:.;; l#* ,o'f .,'""* qrt ql Hrn*ftnr erd-qlez i-{
indicated by blackeninc tOl the oval bv BIack/Bl:" l; ffi ** tot qG s-fl{ fie {tt-i frfu *
C@@@s&+ vqc HI *{f, qo € sS rt-r t r errq-+]qgRf,
fu qqiq. A, B, c qr D + 3rsFFR qri +1 qrot
t., *." i i on ".* ffi Yrc + qrqi qs t
.rftr" 3{rsF6r{ q1i d urt} 1o1, fr eilq+T vf,{ rl{d
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.DB 2014lPage 80
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