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Transcript of S1S2_2013_MAY
-
8/10/2019 S1S2_2013_MAY
1/27
G
4917
B.TtrCII.
DEGIEE
ffAMTNA$ON'
MAY
2OI3
Filst
and
gecond
gsmst'r
EN0r0
lor-Ensineeins
Math.natie
-
I
(Nw
Schone-n
gular[EprcvendtrVsuppledentarv)
a6 No....,,,,.....
...............
N.me--------'-----:.---.
(corDon lor all
bnnchs6)
\
ParnA
/tnsmf all
@?srtor8,
Eo.i
EEsIion
on i's
3 nn'*t
f r
1 Fin'l
,he igcDvalues
f,d eirnvect.*.f
the
ndtrn
A
=
L,5
h
stzstiatr
@tiet
6
norkt
r-3 rl
0
I
rl
r 0
,1.
l 2
0 l
;l
rfu=,i,- '
[ i4),,**,*,
',{'[
tu ,tr
Ehh,rd
J
I
i;;r;t.
6,
F'ifll the
lrpln@ Tnndfom
of
4
6. Find
the rank of
ths b.tril
3
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8.
9,
l0_
11-
(a)
Tst
tor otristency
and
elve
,r^li
/ r . r r
(,
=
.sl l --:r-
l ,
shoshlt
++,
i
=1
\
. ' r
/
a q '
Driv,
y kiple
eghrion,
h.$luDeofs
sphr
ofddiwo,
solre
(2r
+
3r +
'I) &-{4r+
6r
+
6) dJ= o.
Find the lplacs T.lnsfdrn of, sin 3, @s2r.
PAIt
C
At6uer
o .hnlE@
iot
ho
exh
onde.
Fach
,
qnqtbL
dn is
t2 norhs.
c
491?
221
(r,
"*.,n",
r".",*
jj
r2l
iN
frrol
l ,
J -rl
Lr
-r
3J
li
:
l-,-r
M
,
verit
(AB)-
=
B
'A-l
il
,l
, o . ' , r r r = r rdS{n ,s reF r . +J , + rb = r ,6nd
; ;
'
( h )
I f :=
rs i t r o@s{ , f : , . g i n
o s i n
L
z= r@s0 ,
show
Qar
Or
9 .r.1-,,,,"
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8/10/2019 S1S2_2013_MAY
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{b)
3
Dxp.ld sin
G
+
l')
O
+
,r) ty laylor'. thcorcE.
Fiad
tle Mibub v h. of .t '
,tr
2I {hsF ,
+,
+,
:
a
G t91?
15 ,
(a)
Dllllate
lil(i+/+')dr
d, r',
z=0andr+r+ :
=1 ,
O)
Find, by doubl i e:otion,
rh
:-+:-=
|
"h"ur
rh .,;is.
rcr
|he retrahcdF bornded
by tlE
p| @3 J
;
0,
t
=
0
(6 na*e)
klub of the
mlid
Slnehtcd
by evolvirg
ah ellipse
d,
,
*[e6 R is th regio
boud.d by t
tadbols tr
='|.t
ard J
=
41
0r)
Fid tte volrne of the teh[.dron
boundd by tbe
o.ordiEtit
Fbfts
and rhc
plirc
L;
mor|9
MomE,l
u.
( )
solE he.itultxft.u"****,f;."=0,
,f
.r=o,si{'ro):
t (
l )=0 .
(b)
Solv
d-6Dt+
llD
6)
=.u
+.L.
Ot
Solve rin Ode
+('3
-2r2
sso+c60)rr
=0,
(D-1) ,+Dt=2,+
.
(2D+L)t+2D =r.
(h)
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4
6
(r+rx'-2)G-t
(h )
Find tb
inveE l{pl @
TEn.6@of
s.r"".:f;-r,=i,.'
",{,.-t}.'",1.#j
Fird tn. Lqplae
thnsftlh
of I s.w-r6th
w re nrncrion
oaFriod T, defned
*{i'ro}=}a.rc.
[tsrl-
I{t)
w
ot=i,
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G4918
@aseq:g) n& No........_....._....._...
Nm..........-.........,,....,,...,.....
B.TECH,
DEGIiEE
EAMINATION,
MAY 2019
First
ed 6o@4d
Sdsrd
EN O1O
1o2_ENCINEERING
PIIYSIdS
lNm
SchbF RecllarlbprovpmenrsupplbF.Frr,
Icmon
for an B.dchesl
1m". Thr"c
'rouF
Mafuub : 100
Mqrks
pa.r
A
A-vuer
^1r
qusti.re
bri2llr,
Ed.h
ewrti.n
cdnies
3 na*s.
\
|
\(, d h meantbyplmp.rgdd
I'rai
arcrbrditre.pDl
rp6df
pmpinc.schms?
2. DefineMeissner
efect ?
3
Wr["
s nolcon
lu]er
indiP
4. $4nt i6 Rayligh'd
ettering ? Coapsrs
ii rith
R.lm ddatring.
5. Definev-nunb;r
ofe
optical6be.
?
Rlab in
sane with
4r dd
&-rh
Ffradive indicm
ofthe
co.e
and claddilg.
(5x3=15ndks)
palr
B
A6uer an qu$tiam.
Edch
qusti.^
crties
S uihd
6.
(a)1
Explain p.lulation
invmion.
(b)
Coherenceengrh
offtd cadmtud
ofwsvslengrh
6A4,2m
i 30
@, aLdaie
the nubber
of
_
sa
in
rhis eojh
r. .s'
Expliin
bnefly morre
l
(b)
What is tne
dequdcy
of eldcrrcDagneri.
adiltiors
enftred aron
Josphso.
jucriotr
hq,jng
a vottage
ofa66
w
a.hss
s tEirsts.
3.
(a)
Sid. Bmgs's
av ofdiiiaclioD.
.
(b)
The
Bmgg msle
cor+6ponding
o rhe
6F ordd.eltection
esm
a
(1
1 1)
lde
in a crydrdl s
30"nhadX
Tyso fwa tc ten8 tb
. i6A
Eused . ( .u taF t i "h reGl ld i .speurg l
9.
(er
sbF
Rems eied
(b)
Using
,t35.a
nd liles
of
@u y as tlE
sourcoof .adiarion,
a Rdd rine
was obsend
ar
.s4
7
m. Wha b
RMm
shffi
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2 G49la
r0. A nulti@de step nder iherwiih aeb dimter of6o
Fh
dd *btiv ren6cdvetuld ditreftne
of 1% 3 ope.ltilg
st a wavolength f 0,3
pn
If the Eiactive inrld ol ile .@ i6 1'6,detemine,
(al
the norblri@d frequeacy
or the nbq.
(b)
the ap .dimte
Db. ofnoils ir wiu support
Part C
Atuu* aa na
fua e@stirn fram
&n nodule,
E@h
uU
qwtti.n
eti.t 12nbtu.
MoDULo
11.
(a)
Explain the p.iuipl
oI Eologrlby rnd nention
its appliEtions.
'
'b)
E\Tlsrn
,}eapplicatimolltuer.
t2.
Or
With d neat
diagmb, dplain the
codtruclion ed workinaot a nby lue.
13. D6qibe
tle
proD.die.
ud us6 ofndotukrials.
Or
14.
lE)
Whatis
nmtfluqetizatim?Erpldnthesitical6e}ltEEitiintempeairedpeEist
rr
.un6nt ?
(b)
Writa a noie on squid.
..
_.
MoDnE3
Dednshapenebd.y
edet ? Dsc.ib. ihe varioE p.oprti6
ofshape Mort slloy6.
(9
Earks)
Or
With a neat
sttch, dddib. the
st uctuE of a FCC ar.i@-
(3
Dd l)
The 5 Er
order refl.frion or a..'Elal
for an x-by wrklelgth 2 ]i isobwed
ssr. Cardaie
Wiat us betlli. gla$s t
the intehiomic
disteE.
MoDm 4
1? Drplain aAy st
pDpe.tis
ud 6ir applidti@
ofulf.dmie ?
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13. What is dve.betion ? DiscGs th6 faclors afrecting he $erberalion tine of o
audibnum
and
hov it is @ntrclld or variols typs olhalls ?
MoluE 6
19,
wiih
natbl@kdiasm, dplain a ih. oliic comuicafion systa. LGt
its adv,nbses conpmd
to th copperwie comuni@tion d'tslen ?
Or
20,
(s)
with
a rcat diaraD' d6rib how liclt
prcpa$ts
though
a
single
nod
sraded
ndex
(
na*s)
(b)
Explain
vdio6
tlTes olopricaldbr bundls?
(6
mrks)
t5
x
12
=
60 narkll
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G4919
R& No..-....-,--...--------
Name,..-......................-......,
B.TECE. DEGREE
EXAMINATIO\ l{AY
2O1S
FiFr ed S..ord
Seneskr
EN 010 toS
ENGIN'DRINO CEEMISmY
AND ENrtrmONMElftA
STUDIES
(New
ScherRegllar/Irnprovddt6upllDentery)
lcolmo.
for all Brd.h*l
Part A
Areuer at\ qwsti.B
bti.fl .
\_
Eo.h
quEti.n
cdniet B
Mrtu,
r. Difierentiat
betwm priDary
dd
se@ndaly etrs.
2. illy
berrl udq
vatrdr@ udelcoss
aceterated
comsioD ?
3. Ltstthe ptulertie olFiber aintoEei ptdsri6.
4.
Cive ,lzr mthods
or coniotling
ldticulate
pdlturion.
5.
14,lat
6 acid
rai ? wly
ds it @tu ?
pa l |B
(5x3=r6oarks) '
Arsuq
.i
questioE.
Each qustion
tuties
6 ndfie
6. wlEt
are lho ditrerent
NyT6 dfeleetrod*
? cive
ona dmple f@
ectr,
7.
wlq.
rscalhooic
roFcriol
? E pbm
ibo,"s)eo
clllfu. m"rhod irhs
dtupte
\--
3. What{eoteroaers
?Mdrio
the advdtages
lnd appli.arioG
ots} hericnbbe.s.
L Dpssrbe
p
nesn
nerall
h,r'c\
ae s waF-
polt
mE trd
splarn lhd bs,Drul
ptred
.
'0.
Wirt
a oohol
sld
wast'
I]Fagpbbl
(5x5=26@ s )
PdC
.
Ar6uer
an on
fu
questitn
fun
e@h tudde.
Eo"h luu q_"shoa corrr, t2 natus
MoDm r
ll.
rsi
Wtrr tr"
sles
eletrcdd 1 Ho& pd
oI a
"oju
rcn
ca b; deie@ned
u6j3
st4s
elemde ?
t9
ndk6)
trrn ovF
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2
c 4sr9
(b)
I1r"
p#nud
oftu brdrogpn .s
dte(rrodpser
D o u
aod sonriol
ot unhnowd u"odn
E
folnd to be
0.24volt
at 25"Cwhen nesurud
aSaiNt
mmat hylmge
etectrcde. ind
dre
E
Or
12. Explain
(a)
Lithium
Mmguse
dioxide
celt.
(b)
Lithim ion cell,
Wlat
de
tbeir advdrag
and rliedymtages
?
MoDr
c 2
13. How
do the
p.$ence
ofwarer
vapou.,
acidic vapolr
md dust partictes
i luence
co@sion
?
S@ad6e
veiou
lrdrective
nd6ne
against
suh cotusior
?
14.
Wlat i6 mrodon
dfaetrls
? Desrib
ile
nechdisn oflcrroch*ical
ondsio ,
talirg
tuting
MoDn;3
$.
Wny
s
wkaniafion
of ndtual
tubbe.
neessary
md hN
is mied
out ? cils ihe prepdarion
ol my twi
sFlhetic
nlbqs
od
&eir appli@riom
?
Or
16.
Whdt
qe
high
pobr*
?
Dxplain rhe
me.tmism
otchain pobmrisarion
?Describe
onderoation
polr@tsatim
with d
qMpte.
MoM 4
17. What
dol,lu
bed
by d66limtioD
? ts.wrse
G4osjs dd
elech.odidiysis
usetul clniques
Or
13.
Wlat ft
ai.
pollutanls
? Wliat
are ft6
sou6 ? IIow
ihey
@ be contro[ed
?
t4mtr 5
19.
Wbai da
tle ditr*
rnewabte
ene.y
so]lfus
availabte?Wtrar
ar inen
mrir6 md
denerftt
?
Or
20.
(s)
E&lair
Slobsl
warnins
ad low ft
sttecis lituric
chmges
(b) D6cribe heozjne aye.deplerior d ils con@quen@s.
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B.MCII.
DEGR"EEEXAMINATION,
MAY
2018
Fbst sd Secold Sd6tr
DN O1O O4 ENGINEERINC
MECIiANTCS
(Ne' SchnFRegdd / lnpro'en&t / Supdebeniary)
tCoEmo
fo. dll branchesl
Tire:ThEHours
Mdimm:
100Marks
P$i A
ALsu.r 6\
qresria6
brieltr,
-
Ea.h
qusti.^
coti'a
s mrk.
l De6o6d
dislinelisb beteeen couplesd no@.|
2. sLsFed
irp."in
P.ppu-CLldilu
'hporcm
3, Wienever a rcpe or a
piF
undef rlnsion is o be held,
it i5 wrapped cund a tree't .k o. a
pole
by
Civi.g
il a nunbr of tutr. Wl\v ?
4.
A
stone
s dtupped nlo a well lt is heard o sinke
the wderrltr 6 *conds, Ctltuldte
ih depth of
lhe
,aler
ldel assuning lhe
velociiy ol6odd in air as 330 m/s.
5,
Explain $e impulse-nohontud
Uinciple
s applied
o
Ure
drtunics of a rigid body
?
(5
r
3- l5 n.rks)
Part B
An6u.r ^ll questioB.
Een
qustion
@Ii4
6 nu*.
.
6.
Prov hat s b.dy hudt be n equilihriun iflami's iheorem
s lollowed?
?. F6n ihe fiBt
p.inciples,
derive the
qpression
for tie monent of
In.fia of a sesiciel. ab.ui
honzontdlcenhoidal di..
(Pages
a) Eea.
Nd.......-.... -....-....
Nm.,..-...-,..,,,..-...-..-....-
G
4920
3. With neat sketchs,explain
the
ditfe.ert
rrTes of sulporte d in
plee
trus*s
9. A snaU
noto. dfdas6 10 kg- is synmtrically mounted
on fou e@al sprin83e&h
sith
q
sp.ing
o$tan 0f 25 N/cm, Caicualte he frequncy
md
pe.iod
ofvibration ofthe
noto. ?
10. Dednvork, ene.ly dd poser. Dc.iv. tho worl-ene.cy tonda for h. moiion of a pa.iicle
16
x
6:25 lltrks)
-
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Paft C
A@ ary 6.
flll
qu8titn
lnn
ach m.IuL.
Ed.h
fr.ll
quettion
carnes
72 mfis,
12,
MoDtu 1
A uibm..d
Al, o{weighi
5 kg. md l4rh
tob cD, b sinply
supportdar A dd
B in a hodzoDral
position,
t cmis
a udfornty
di6Libutd load ofso gD. pd
d.
@d a disian@of 10d
iilB A
anda m@niratd l@d of200 gb. ai a disimce of 30 6. fton A. Find rn.@iioB ai A aad B.
O'
a Rctlauld plate
ABCD is suhjated
to 1016 tu 6how
i. Fjs_ 1. Dereruine
rh
aasdrr&,
diictiotrandFiniofqplicatio ofiheEdultsntforc6wthruspatt
A,
300N
;l
I
200N
tD
Fig,
1
FiS,2.
800N
u. Fi ihe
c@trcid oI;e
shaddaFa
i
DC
I
100
i
T
I
I
j
I
E
F ig .2
3c
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3
Compute h
dobmi or heriia of ahe aEa
.adiu.
ofSration aboutr* dis.
sndvn in Fk, 3.
qboui
r t
D
+,100
mm.
6:-*.
x
L
fig- 3
MODULE
a[ tne menbers olthe
t d6 shown r is.
4,
90
LN
20 N
F
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13/27
Tso bodies eishing
300
N dd EoO
N ae
as shorn
in Fig.
6. Wiih
what
a.cete.stion
G.1920
of a tup pasins
ove. d
idd
p tJ
cones
dNn
? wlEi
is the tension
i.
Fig.6
Or
nme,a f.ain
ofsnall
dunpca.s
Fig. 7,
i3
pulled
slong
a leEl
r.sck
ftoD
A io B
as sh@n
in
Fig. ?,
ed xtre.
up ro
a S 96grade
Ai C,
i:l T ::_,i:-Tll,T,*,
*o*_sunq.hdwhneLs dei,"
",
r.^.,r*j*"*.,*n"
,5
joNAN.
hos
L up
th.
Brsdr
&ill
th" car
onrjnu"
betoh
sioppins
ar D ?
How fa.
belb.d
B *i[
rhe car
srop
aft. coasrins
bacLdown
rhe
crade
o E ?
MoDUL.5
19.
A *ogon
ofnass
60,000
.
srarE
from Est,
tus
gO
n.
doh
s 1 %
grade
6d
sidlre
a
pmt.
Ifih
allina.Fsisreeoflhchcl
's
so N
per
rooo
ks. find
h. velocity
.,r,"
**-
"h*
i loi**
.r,"
ms. rh"
mDacr o
b-
rushjoncd
Deansorone
rnp.r
spnnSwhich
ompr6sr
r m
.r
26,000
,
deiemine
by how
nucb
rbisbunpe.
spr.s wnib
c;_;"Ji
--*-_--*,
20. A 0rrd w.iEhngb0.OO0
sd
hsqng
sd,usorBedon
lm. tDses
B spft
tum 400
.p.d.
b
230 p
tu. n 2
ninut6.6n0+e
(a)
The reardarion
ro.que
&iing
on
t.
(b)
Chanse
n iG
l{jnehc
enersy
du;ng
ibe
above
pe.iod.
(c)
Chbs
in its
onerrs
;oneniuh
dulins
th sdne
aod.
wa=
20N
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G 4927
R9.
No.........,........,,..,-.,,,,.....
Namc-----,----,....,,,...,,,....,,.
B.TECH. DEGRDE EXAMTNATION,
MAY 2013
FiEr ed Second SmestB
EN O1O 105 ENGIIiEE]1,]NG GRAPIIICS
N c $ S " h p d r R p p - D , r l d p t u
J t s d d n i ' S u p D l e b p n r a . r
lComnon
o Al, CE, EC, DD, Ei, PE ed lC &ochesl
ABW
o\e
full
.tustia\
liotu
eEn n .lula.
Euh
qustian
cdrries 20 marh'.
Retdin dll the conttructih lin6.
Drauin aneer,a
besupplie.L
.
,lodute
I
1. A poini sai a diltancaof 40 m fmm the cen{xe f a.ollinAdisdor d flaf sdface.D.sw rhe ath
haced y tne
point
l Ur adiusof * e di$ is 30nn. Alsdnde tbe cune.
o.
, Consrnct r loearithmic
spinl of onc convolution.Give. the sho.test mdins
ss
13
Dn a.d the
ratio of the lcnsih of ih radius rect
6 enc.loaing n ahBleof 3tp as 93. Dftw a tmsni ud
nornsl al any
pojni
oftbe slinl.
Modxle 2
A line AB d$Eing 70
m has ite VT 10 bm abe. HP. Th
pnd
A
js
40
lm
aboveHP
and
50 nm in frcni of w. The
prcjectors
hrcuih
iis vT and end A are 60 nn ap,ir D.aw rhe
ptujectionmd
ET
oftbe
lin, Also nd ils inclinarions o rferenF
plmes.
Ot
The
top view ofa line PQ trEls
@ argle of30 dereawith rhe horizonral and hds d l6$n
of
100
nn. fte end
Q
is in tho IiP dd P i ir
ihe \? and 65 )m abov he d?. Dra* the
rejetions
of the Ine dd 6nd the
tru lneth dd ttuo inditutionr with tle .efqence
ploes.
Also
sh.y
its
9 .
Moduie 3
5. A lelrandrcn of 60
am eds s kepi on I{P in su.t r val rhar rhe boriom facemok6
45 degrce
uith HP
od ed.ge f the lace b
paElel
id vP @d 20 m in ftort ol it. Draw tbe pDjeli0ns.
Or
6. A
Ddt3g.nal
pisD
is lying on is fa wjil its dis si.10pvith vP. A
@tiing
tlo
perpeNlicular
to VP;
i 20owili HP dd
pdsina
throDgh
a mer larther t0 raPclts the solid. DIas the fronr
view, op viow dd side view
showing ie seiion dd ile tro sltrle ofthe
ection.
-
8/10/2019 S1S2_2013_MAY
15/27
ModDle 4
?. A nrnel tepcs
fron s
orcula.
o 6i.9 of dimeb 70 lm i0 a chctlar op.ing of
tianeter
20 ms overe sial lenCtbof 50 Dn and e*ends .xjally a
turtho. 40 ]rD. Thcra
s
a cyliddrical
poriion
of
herght 15 mn above he iape.ing
poriion.
Develop he fnnnel.
Ol
3
A
.phar.
d smcFr 20 mn i6 r"s :oc 01 tu o'14 spD-'F of60 dm drM.Fr. Drr" rn".sonrn,
projeciioD
nd sonetr-icview.
Module 5
9. A square
pdsm
ofbse edgp30 nm and heighi 60 nm is rlslins on a face
vith
the d:is
il.lined ri
30ouitb PP dd lhe .ent e ofthe nddest bse in lhe tP, SP s 30 hn in ftdnl df lhe PP, 5 nn ld
tle ight ofthe nid-point olthe axis md 50 m abovcOP.
Dralv
the
perspedivevies
ofthc
prism
Or
lO. \
.]ljtpr
or oima"r lo tu
paoarrstsr ve/
ca' cyliqo'-
df dimpr"r 50 md. Trp
ai- or
1
pidcing
cylinder s
pdallel
to both the HP dnd VP. The ais of the ho.izontal cylinde. is o$seted
by a distmce of6 DD from th dis oltbo va|rical cylindr Da* ia inbn*ti.n
16
0
=
r00
narlis)
-
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G 4922
Nlme........................,..-..,..-..:
B.TECII. DEGIiEE EXAMINATION, MAY
2019
Fi$t ed se;onil snestr.
EN O1O
O5 ENGINEERING
CRAPI]ICS
(Ncrv
scheme Rcuaiqnprovenenviupprenenrari
tconnon
o
aN,
AU, cs, lT, ME andPo Branchesl
1 'n, tree lou^ M*.mLm IOO a'k
Aasbo:ore
fu
qesiian
hon
ea,:hmnub.
Eacn qLettiatr or.i.s 20
n4rtr .
Ritain all codtrurion lines.
t. The conjqate diancteE
(o;
conjugateaxs)
ofan elliirse are 100 m and 60 nd The included
ansle s ?0cDrawtha cliFse and its najo. md ruor qes.
Or
2.
Const uci a cycloidhavjng a rclling ci.cle of30 Im diuetei
Also dras a sreoi dd a norhal rl
,int
point
?
oij ihe cuNe. Tne
loinr
is innially
ai?triehroro ird i]iina ihe
grmd.
Modul 2
3. A3e 6{f sei
sqlare oi60 hm.longstside s 60keprsuch
hatihe longst side
s
a ? ndkingan
ansle
ol30Ph m. Sufac. of lhc set sqM.e is indined at
.1,P
o \iP. Draw its
lrojetions-
.t, A line has oneend 30 d inliont ofVP nd 15 nm aboveEP md the other end k 15 m n ]ont
ol\,?. The InE is
60 mm in laheth and rop vies masures
0 tm. Dmv
projectioft
dd find the
ilrina'im o' rhe '1c
mihfiPd.d l?.
Modoto 3
5. A hekg.nal
pri.n
bse
20
nm sidesd *is 60 u lang s
placed
wiih ooeofiis
bse edges n IIP
$ch
thal $e
uis
is
iqclined at 30p o HP and 45d o \,?. Drsv irs prcjedions,
Or
6 . A , , , . osd SO r d .FeE-
r rd 4 rh loomm5ied6v-d i s l
y
h r . 'B osd .n
i lP A ,c . I 'o '
plahepo.pendicule to vP and parallelto oneofth. od gcnc.atorsdfthe conepsses ri d
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a 4s22
M.dut
4
7. A verii.al
penlagondl
prisn
30 m side
of basedd heighr 60 mm
hs oneofts .ctsnmla.
faces
pa.allel
to
VP
md nee.e.
io i . A thnuBh
squar hole
of25 ]m sid6 is nade in
the cenift ofihe
pritu
sucb hat ur dis
of tle hole
bisects he dis of rhe pim
ar righi d8l6,
The edgesofrtre
Irle a.e
equally nclined
to tlP. DEw
the dvl@nelt
otthe
pdsm
stowiDg rhe
shap. of rhe
hole
3. A
frustun ofa core
olbse di@eter
60 m,top
diameie. 34 nn,
and neiShr4S rn
is rsNing
n
ur
bse updnEP,
Draw rtre snerrir
view
ofth; frutun.
Module
5
e. A
pentsso.al
pri@,25
rm side
aDd100 m
tors rsrd
@
me
ot iie re.rdgll5.
facesdn
gmuF
the dis
ofwhich i: inelined
a 46"
rhe
licrnre
pt6e.
The nEr
o.ner ofrte
frcnr trce
li6
, l0 lmro
r leno f lnpsta r ionoorn rano tOambeh indbcprc tu rpp tda .T leeyc:s60 'ms
the
Srdund
3nd 90 D
infrnr
of the
picru.
ptan_
Draw
the
perspecrive
wiew
ofrhe
prism,
Or
t0.
A cylinder of
7.5 cn
dianeter, .esting
on ft6
bse iD the Ilp, is penhared
y amther cylinder
oi
the
sme Eize.
Tbe uis otrlD penetraring
cylinde,
ir
pdanel
t bolh lhe ilp
ad l? ad
is 1cn
qvay
n on the
ai6 of
tie verticat cylinda.
Drae
tne
ptuj*rio.s
showing jrrc
ofintEation.
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G 4923
R9. No....,,,..,,,......,,,,,....,.,,..
B.TECH.
DEGREE
E)(A]I'IIN4TION,
NIAY 2OI5
Firsf
and second
Semesrer
EN
OlO 106_BASIC
CI\,'IL
ENGINDDRINC
(Nerv
Sclen+Resltar,,Inproveoertsupplehentary)
lcormon ior
etl Brsnchesj
Pa.f A
Ansut
^r1
questioE
bri.fl .
Eoch qustioa
caties B nbfis.
)T " : i
-
" "
" " , , o '
d i
Faen '
\ { r
a u ,16ao .s l ks "s
an -n
.o , ,p tu .
d
oo ,o i , a
po-
ado
2. Ei plain
rhe nerh
od ot
Drps.aiion of no.t$.
3. arieflJdos.ibeawellfoundarion ll,here is prelor.ed?
4. Slo*
hos siD you
snrerrhe,Ield
book,,nr
uney
?
5
Wnai
do
Jou
mean
byBODofwaste$aror?
pa r rB
(5x ,=15marks )
AnsDer
ntl gudy.oa.
Eoeh .lueiion
carri.s
E mo.hs
6. wlrei
is fineness
modulus
? Classi&
he
sa.d
based
n fi.en.ss
modulus.
7. whrt
.e ttibre
Rdintbred
potyDer
sbeers
? EiDIain
fts
advsrtases
and apFticarions.S lvhai ld neani
by
senlenent
ot foDdations
? Lisr
iho diferont
cau$s
fof
rhe sane.
L
Describe
heva.ious
rypes
oflcvetinginstrumenrs
seo
sunerrg,
10.
Desc.ibe
iho
cons tuction
of
a soak
pit
wfth
drc herp
oi I
reat dr3g.am.
r , r r
c
r6x5=25nar ts)
Ansber
one
fu
quedian
ton
edchnadrte.
Eactr
LU
que*iot
cati6
t2 ma*L
.
Modute
7
11.
llsL.ny.y
difldhr rrp6 or inbersusedn .ivil consrructidnnrlcaiewhere heyareusualy
Or
12.
Wnat
are rhe
difterenl
irTes
ofbricks
used
? Descnbe
anou
tesrs
perforned
on theq.
-
8/10/2019 S1S2_2013_MAY
19/27
13. A mdm 3.2
x
3.6 n
is
prcvidd
with RCC oofing,Sk .h the seciiondlelsation of ur .oofalong
ihe lmth
ad width. Mdk the app.dpriate hickness
oftie slab,
plasidng
sd als0 he
position
14. Eiplai. wo*abilily
md tuing of cenmt concreie.
Wnat are tl)e faciors atre.ting sckniliiy
?
D {.db' 'to r"sE
or
delernnng qolkab.l'}.
Mad.uL B
15. E$lain ure dlffe.ent
ttles olpiles ced in foudaiion.
Ds.ibe any orc
proced ft
fdr
pile
diving.
Or
16. What is
Engltuh bmd ? Dmw neat
stetches ol a come. df a brick vall
of 1%bdck thick
nnglish bond.D.av
neat sketch dr two tqyers.
Module L
17,
Tne folokine resdings
ere iahd with
a dumpy tevel.Th
6d Eadnrss.
Calculaie he
redn@d erel6 ofsl
rhe srehons.Assume he RL of th n.si
station as
0.955 2.225
BS
1S
1.165
3 .150
BS
iS
2,750 2.220
BS IS FS
1,350
FS
FS
Ia.
(a)
Describe he
total s .tidn ddits
aDpDcariondintre
presordaysunaying.
(b)
Wlat is
GPS? low i, is
@de useof id slreying
? Explain.
Modub t
19.
(a)
What de xhe
p.@isioDs
a the
(erala
Municipat
y
buitding rul6 1999, or rhe
inbno.
openspa.6 fo.
a domesticbuildilg
?
(b)
E:plah
how the.oads
are dasiied ?
Or
20.
ld)
Wllat
.e rhe fearu.es
ofintsltigeni bnildtng
? Exptain fts dubsystens.
(b)
Eiplair the diflqqt
tradc signs md
nad ndkirys
ue
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G
4924
B.TECH.
DEGREE EXAMINATION,
MAY
2O1B
First rnd Second
Semestr
DN O1O 07
BASIC IECIIANICAL ENGINEERING
N . ( S c o " q 4 + l a " l , p . o \ i m , r . s l p p t e d e d ' d 1
tcodnon
lor sll BE.chesl
Ansa.f sl quastinns
Lrfiell .
Earh
quzsti.n
canies 3 nu t.
1.
Sia c thoLarvs f hernodyn.nics.
2. Dis.uss
hc dassificaiion
ol lC engincsbascdon luel used
a.d coolnB stsrah.
3. $hat is ncant by velocity lio.nd slipn a bel|drive?
4. Bieny
erplain hcworkingofa
ceniritug-at
ump.
5 Lisr the mchinery
op..ation fi3t
are
portbmed
in
a taihe,
Part B
Aasaet
all
qu6tinB.
Etuh
questitr
turries 5 na*s.
6. Explain rviih
neai sk.tches ]re
Canor cyde
?
Erplain the
principle
olrefrisc.ltion Nirh
.eai diaerans.
3. Conpsrelhet.smission otpowerrhrosghbehandchain.
9 Dntinslishbeiween
npuLe a.d reaci ion
urbine.
r0. lrllain
rhe
propcfties
tDoutding$nd
(5x5=25na . lG l
par.
C
h6uo
ont oac
qlertian
frch
ech no.tute.
Each .tu.stian
conies 12 tun5
.
Mo.tute
1
11 Air
at 20 kPr and
20oCs cxpandedsorhe.naly
o t5 tpa. Catcutatche chsnsen iniernal
.
cners/sndworkdone.llit is
cxpandcd diabari.lIy ,
ind he corespondinsvalues.
Or
12. State
per.fecr
as
laN md dllain
univebal
gas
consia.r
in themodrnamics. List rhe linilalions
ofpelfect ds
aw.
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2 G 4921
Modlle 2
13. Discusdhe impo.tmt features
nat distinCuish ou*tole cycle C engines .dd rwo stroke cycle
Or
r'l Dc6bF ircodd iooitrg
1ddFruss rtferenr vstehs rair.ondiriding.
Madule3
16. lind i]re HoGe Powd
t.aNmittad
by
a rope lrive frdm the follqilg
dqta :
Angle ofconract : 13CF,
Pullay
geNe
egle : 60"
Coefficiert offtictio : 0.2, Weight
ofrcpe
pef
u t ldgth : 4 N/b,
P^missrbl"
aosoo s r2OON
no
wloor,
oftF rcm.s
1pF^
ot
16. De.ive r
exp.ssion for lhe le4ur
ofbeli in an opendrive.
Module 4
17,
Give he layout of a themsl
pNer
plant
and dplain its worlins.
(,
13.
Explain the ditr@d
tr"es of eat r tnrbircs,
Modlle 5
lc Dps.r.bF rh lpsre\etch.sad"iUir
o s|hsp.
Or
20. Elplain the leatures
0f ditre.enr rlT6
otwetding
processes,
{5
x
12
=
60 l@}6)
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G
4526
lco@or
fd
all Br@h6l
RA. No.*..-.:"...-....----
N.re-- ----.-----.---
B.TECS.
DEGRTE
ETAMINATTON,
MAY
2Q1'
Fnd sd
S,ootrd
S. ..t4
EN O1O
08_BASIC
ELiCTRICAL
ENGtr\'EERD{G
(Nes Scleb+R?sd6}4nprdDell/Suppls6nlerv)
P&l A
'
ABuer
arr
qucna6 b.itllt'
Een
q@don
coni6
A
turka
L Dedne
dn.t, a;npde
tuEs ud
relucta.
oI s &lsretio
cimit
Z
State sd
explain Fdadays
lass ofel4i@leneh'
bducti@'.
3. Definemechsidl eficienct and .lct icir ftcid'v of a d c euentd Stlte th @diiioD Io'
the
dimum e6.idcY.
4. wnat i.
nant ty.rip
in s i[dnclion
rutd
? WnEi
. its
}nctiEl
'tpi6.a@
?
5.
Wlit tn
typs e&h
olthe co;dtiolal
dd aoDdrvtrf,dal
eer6'
.ol:t@
(6x3=16nrk3)
P .
B
.
ANuer
r'lt
q@tu)N
'
aui
iiatoo
i*"
s **'
6. Usirs
deltastei
otrv.Bi@,
tud the
inpu, Eest
M oftho
'itTuit
(in
FG l)
b'twd
th'
loilte
-
8/10/2019 S1S2_2013_MAY
23/27
3,
2
c 1e25
7 Denv" rte
xpmsion for
lhe aueBse
rclEgF 3h.m
to. tlE
p.riodic
wow6m
i Fis
2.
,
Fis.
Ddive
th e.m.t
equtim ofa
wNs eoed
gnemt
r,
A J-phdsr,16 pol
alr@abr
hs a [email protected]
yildilgwjlh
taa
sb| srrt lO
or{tu@B
por
-
slol. The
tlu
pd pole
s 30 mwb sinusoid6ly
dbtibuted sd rn
spdb 3?6
r.pd Calcorale
he
[iquab.], h phds.
rnd
|ll iin
e.o,t
Itirh
a ncal
dioeE@
qplajr
rhekorkhg ot a 0uoMt Imp.
(6x5=26jfu15)
_
p6rt
C
AtuDe.;Mfi'
queai.n
A@
ai.n nnd"t
.
Edch
itt
q@sti,n
Mrtu, L2
turh4
Modut.
I
{a)
Stat dd
*plain l
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8/10/2019 S1S2_2013_MAY
24/27
3
c40
10()
Fic.3
13_
(a)
Modnb
2
Dofne
ed
give
he significe@
of he
fom lhcro.
ud
ati
fato.
df d altqratiDg q@rtjry.
A @ilhu
a Fsi.rqnce
r5;
and induta.ce
rsr.s
nr. cal*r"r"
*"
"*,J:JXT]
he
coil .nd ihe pokr
flctor wher
conn.cied
o 220v,
60 Ez suplly.
ra n@,ildudiv;
ruirtoe
or10c
s conn4ted
sdies
wfth rhe
@it,elculare
rherw iar@
of drcnr
snd ii
Slar
&d dplai
LsDz,s aw.
Modul
3
15-
(a)
Dedneefficiency
of
the mndftion
fo. the tuialb
afrBiency,
(3
lukj)
Tun ove.
An ituD. d,
2
@ in dianera
ed 20
ch loDg s b@t
into a c1@il
dng 6d i
vouftt witl
gO00
r@s
Dfwir,
lt i6 Jound
har
snsr
6 turu
of 0.6A
E
pa$ed
hFugh
rhis
oit, lhe,1q
dmsity
in th. co
E 0.5 WMb3.
AsMirg
ilE
all lho nu,s
linl.d wiur
aery ium
of h.
@i l . {h6 is
( i )
be B
l ra r ioh r rh iM: , i i r lhe inductsc .o f rhe@i i .? { i l i r sh l l vo t r rae
wooli
be d*loped
addss
tne coil fthe
el@r
ihough rne
@i1is ntdnlrd
sd rhe
u in
(he
iDn falls
o I04 o. '15
ol.lF value
n O,Oot
sbD
?
i1
r , :
.
r
1506
-
8/10/2019 S1S2_2013_MAY
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C,t925
(b)
A 10 h-vA, 1-phse translolmer has 200 urne on he
p.iqary rnd 20 on the seondry. lic
p.inary
is connctedo a 1500V. 50 Hz supply.
Calculate
i)
tle dcondary olts on
opcn-cifdi
;
(iii)
the approxinale
values
ofcurents in ihe i*o
windinss on tuIload
;
and
(inJ
he mdinun valueof flux.
(9
na.ks)
Or
16.
(a)
Explainhes*ni6@ce ofback ,m.t n theopeEiion
fs dr. bdto. dder load.d ondilion.
(5
narks)
lb)
A 4-poled.c.
generator
unning $ 1600..p.m.hs m atualu.e rvilh 90 6lob and 6{onductors
per
slot, The nu
por pole
s 3 mwl). Calcllat the inducede.n.t iltie amature is lap
winding,
(7
narkd
Module t
1?.
(d)
With a neai diagl@, explain ih
iwo
wath.eter
method of
powd
medsuftdni in d d-c.
(6
narkr)
(b)
A s-phde delta
comected
dad
consunes a
pore.
of 100 kW tlking a lsging c @nt ol
200 A .t line
voltsge
of.l00 V, 50 Hz. Iind the
palme E
of a.ch
phase.
13.
(a)
Comp.F slip-ringdd Bqliftl.ag indncrionnot E.
(3nek
)
(b)
A 3-phe indu.tion noto. lEving a
star-mnnected
mb. nes
ar
indMed
.n-t
o{ 30 vdlb
beiw@o
slip .i.es at standstill on open ciedt. The mlor bd a rest td@ dd reactan e
pr
pnse
of 1r} sd,lO respclively. Caldla ibe c ren
por p1)a8e
sd
pdor
factor when
(i)
slip-rin8s are bhort .iruited
;
(ii)
slip.nngs s. connctd to a ste'muectd 3lhsht of
Module 6
19. Mih a neat bl@k s.leddtic, de*rit the layotrt ola thenDl
p.ser
staiion-
.Or
20
(a)
Conpuefhe overhead
and undergmunil ststeb fo.electric
powe distrtbution.
(bJ l-rplain th wo.iins pnneiple of CFL ?
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8/10/2019 S1S2_2013_MAY
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R& No------,----------
NMe.........-.....,....-..............
B.IECII,
DEGR,EE EXAMINATTON, MAY 2OI3
FiEi ed Scotrd Semster
EN O1OTOg_BASIC ELECTRONICS ENGINEERING AND INFORI,IATION
TECENOLOGY
(New
SdhnFResulsatolroveEnt/SlppleueDtaiy)
.lcomon
fdr
all
Bldchesl
Tire:lhEBouB
Nlenub rOO,lak
Pdt A
A^un zu qu*tin6
brizfi .
Each
Austi'n
erias 3 whg
1 Deffne atr-out md
give
t6 vslue fo.I'IL family.
2, wly nodulatidn is r*6sary in
e Electmnic Cornnnidtion ?
3, Eiplain bliefly rhepinciple
of a srEin
gauge.
Define
FrAe
factor.
4- Li3t dy ihree hpui
sd thre ourllt uits
used n a digital onpurr,
5. Distincuiish
betweenonpnd dd interlrtr,
. -
(5x3=rsnarks )
Pa.lB
Aneuq
alt
qu*tiorc.
Each
qwsti.a
ati.s 5 Mht.
6. Derive le
relation betseen d dd
0
ofa rEnsist
f; Cai la lhe colecror {jlr@t
olatasjslo.
having
P
=
120vhm the
bse cunen ll6uE 15r'A ,
7. Desqibe
how a call id estilished
betwed two mobile
plone
sbsnbeE.
.-
3. Witha nea cdtroctio.al
disgrar explain ]le
prindiple
ofanovinggoilmimphone.
I Erclain hc
principleo
worhngofakeybodd.
10,
Drplain briefly dre high level,
low level and dsembly level
languages and .ompa.e rhei.
erirdmes
(6x6=25narke)
Psrr
c
-
A'1tud ant ne
frtl
questiaa
ion
ea.h nodule.
Euh futt qLertia\ cnies 12 ndrhr,
Modu le
11. With a neai single circuit
diaErqa ad wavefom, d?laiD the workhg
of a csnlre rapled tull
save .ectifid vith a
@pacitor ilts., De.ive tne
exp.esion lor iir lilple facrdr.
Tuu
over
G 4926
-
8/10/2019 S1S2_2013_MAY
27/27
Mo.lute
2
13. Wiflr,aneai"blockdia8rm,
esoib hworking
dd nturiors
ofech bt@k fa
supe.her.mdrne
O.
14.
(r)
lxplain
the varioLE
standdd dequency
ihen
langeofwlues
d alplidrioE.
(b)
Cdnpsre
AM and IM, enphasjzins
their
nerii3 dd denerirs.
Module
3
16.
With a nodt
constructoml diagran,
c4tair
the sdlins ofLlDT_
Describe
qw
Or
16.
(a)
hplain
the
prin
iple oflAl,
colou TV.
G)
With a neat
bloc diacran,
desdihe rhe
DTH receiprion.
Module 4
t?. Witi
a neat block di.gmn,
;rplojn
the tundional
btocls in a disital
codpurd. cive
exanples
6r
,.
4s rne ob.ktugED
s
non-dve.ring
opelational
@plifid .:i@it
md deriE
c 492A
uits
in d oletional
anllifid- Draw
a
the exp.ssjon
for its voltase gair.
bands rsd in nicrcwave 6nnuhicalio , si'ing
(6
barls)
Or
(a)
Desribe
clar]J how
an
nsr.ucrio
is execured
a dienal conluel
(b)
Wl,i
is a Cachenenorr
? Wbsr
are if
pinciples
and apllicarioN
?
Module 5
DLrucueb
bet"pD
po@durej
ndob
F.,
orielEd pld8fullr]ug,
Dosnb" rb"soivins prblrm usings
Dro.soualoned "o msTodnjg
mabod.
Or
Dlstincuilh
betwaen AN
andWAN,
rarhs ilen
performnce
ecro.s,
Wta ' E
ou tdg u i n r " rne t .
Hw i '
Ecda ' .d ?
