SAMPLE PAPER - 05 [NEET]

Duration: 3 Hours Max. Marks : 720

INSTRUCTIONS

SECTION - A

1. This paper contains 180 Qs. in all. All questions are compulsory.

2. There is Negative Marking. Guessing of answer is harmful.

3. Write your Name & RollNo. in the space provided on this cover page of question paper.

4. The question paper contains blank space for your rough work. No additional sheet will be provided for

rough work.

5. The answer sheet, machine readable Optical Mark Recognition (OMR) is provided separately.

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1. Use only HB pencil or blue/black pen (avoid gel pen) for darkening the bubble.

2. Indicate the correct answer for each question by filling appropriate bubble in your OMR answer sheet.

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by shading the circles against the question by dark HB pencil or blue/black pen.

4. While filling the bubbles please be careful about SECTIONS [i.e. Section-A (include single correct)]

SAMPLE PAPER - 05 [NEET]

|| +91-7000879945 || Short Tricky Chemistry by: Er. Jitendra Gupta Sir || 1st Floor Saiplaza, Opposite Vandana Furniture, Gudhiyari Road, shrinagar, Raipur, Chhattisgarh, 492008

Each Question has four options, only one option is correct. For each correct response four marks will be

awarded and for each incorrect response one marks will be deducted.

Anjit

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Chemistry By : Er. Jitendra Gupta

Anjit

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+91-7000879945

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[email protected]

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In a Short Period Anjit Students have shown achievements which are Unparallel in the history of any Educational Institution. We Technically mould each & every Student with all new trends with a creative approach to make one a complete up to date aspirant for any Medical/Engineering Entrance Exams.

PART - I [BIOLOGY]

1. Which one of the fol lowing is a correctstatement?(A) Antheridiophores and archegoniophores arepresent in pteridophytes(B) Origin of seed habit can be traced inpteridophytes(C) Pteridophyte gametophyte has aprotonemal and leafy stage(D) In gymnosperms female gametophyte is freeliving

2. Read the following statements (A-E) andanswer the question which follows them

(A) In l iverworts, mosses, and fernsgametophytes are free-living

(B) Gymnosperms and some ferns areheterosporous

(C) Sexual reproduction in Fucus, Volvox andAlbugo is oogamous

(D) The sporophyte in liverworts is moreelaborate than that in mosses

(E) Both, Pinus and Marchantia are dioeciousHow many of the above statements are correct?

(A) One (B) Two

(C) Three (D) Four

3. Which one of the following is wrong aboutChara?(A) Globule and nucule present on the sameplant(B) Upper antheridium and lower oogonium(C) Globule is male reproductive structure(D) Upper oogonium and lower round antheridium

4. Which one is wrong statement ?

(A) Mucor has biflagellate zoospores

(B) Haploid endosperm is typical feature ofgymnosperms

(C) Brown algae have chlorophyll a and c andfucoxanthin

(D)Archegonia are found in Bryophyta,Pteridophyta and Gymnosperms.

1. fuEufyf[ kr esa dkSu&l k , d dFku l gh gS\

(A) Vsfj MksQkbV~l esa i qa/kkuh/kj r Fkk L=kh/kkuh/kj gksr h gSA

(B) cht i zofÙk dk i zkjEHk VSfjMksQkbV~l esa [ kkst k t k l dr k gSA

(C) VSfjMksQkbV~l ds ; qXedksn~fHkn esa , d i zksVksuheh , oa i Ùkhnkj

voLFkk gksr h gSA

(D) vukor cht h dk eknk ; qXedksn~fHkn Lor a=k t hoh gksr k gSA

2. fuEufyf[ kr dFkuksa (A-E) dks i f<+, vkSj ml ds ckn fn; s i z' u

dk mÙkj nhft , A

(A) fyoj oVZ (; Ñr dk; ) ekWl vkSj QuZ esa ; qXedksn~fHkn~

Lor U=k t hoh gksr k gSA

(B) vukoÙkcht h vkSj dqN QuZ fo"kecht k.kqd gksr s gSa

(C) ¶; wdl ] okYokDl vkSj ,Ycwxksa esa fyaxh i zt uu v.M; qXeud

gksr k gSA

(D) fyojoVZ (; Ñr dk; ) dk fct k.kqmn~fHkn~ ekWl ds cht k.kq

mn~fHkn~ l s vf/kd foLr r gksr k gS

(E) i kbul vkSj ekds±f' k; k nksuksa , dfyaxkJ; h gksr s gSa mi j ksDr

esa l s fdr us dFku l gh gS\

(A) , d (B) nks

(C) r hu (D) pkj

3. dkj k ds l anHkZ esa fuEu esa l s D; k , d xyr gS\

(A) XyksC; wy , oa U; wd; wy l eku i kni i j mi fLFkr

(B) Åi j h i qa/kkuh r Fkk fupyh v.M/kkuh

(C) XyksC; wy , d uj t uukax l aj puk gS

(D) Åi j h v.M/kkuh r Fkk fupyh xksy i qa/kkuh

4. fuEufyf[ kr esa l s dkSul k dFku xyr gS\

(A) E; wdj esa f} d' kkfHkd py cht k.kq gksr s gSaA

(B) vxqf.kr Hkzw.ki ks"k vukor cht h i kni ksa dk i zk: fi d y{k.k gSaA

(C) Hkwjs ' kSokyksa esa i .kZgfj r aa , oa c r Fkk ¶; wdkst sUFkhu gksr k gSA

(D) L=h/kkuh] czk; ksQkbVk] Vsfj MksQkbVk vkSj vukoÙkh i kni ksa esa

i k; h t kr h gSA


Anjit

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Anjit Academy Raipur

5. Select the correct statement :(A) Gymnosperm are both homosporous andheterosporous(B) Salvinia, Ginkgo and Pinus all are gymno-sperms(C) Sequoia in one of the tallest trees(D) The leaves of gymnosperms are not welladapted to extremes of climate

6. Life cycle of Ectocarpus and Fucusrespectively are :(A) Diplontic Haplodiplontic(B) Haplodiplontic, Diplontic(C) Haplodiplontic, Haplontic(D) Haplontic, Diplontic

7. Select the mismatch -(A) Cycas - Dioecious(B) Salvinia - Heterosporous(C) Equisetum - Homosporous(D) Pinus - Dioecious

8. Which one of the following is not a correctstatement?(A) Herbarium houses dried, pressed andpreserved plant specimens(B) Botanical gardens have collection of livingplants for reference.(C) A museum has collection of photographsof plants and animals.(D) Key is a taxonomic aid for identification ofspecimens.

9. Fill in the blanks A and B.Kingdom Phylum [A] Order [B](A) A - Genus; B - Species(B) A - Family; B - Class(C) A - Class; B - Family(D) A - Species; B - Division

10. Key is(A) A form of herbaria(B) A type of educational institute(C) A taxonomical aid used for identifyingvarious organisms(D) Taxonomic category

11. Multicel lular with loose tissue body

organisation is a characteristic feature of(A) Monera (B) Protista

(C) Plantae (D) Fungi

5. l gh dFku pqfu, %(A) vukor cht h] l kecht k.kqd vkSj fo"kecht k.kqd i zdkj dsgksr s gS(B) l kfYofu; k] ft axks vkSj i kbul ] ; s l Hkh vukor u gSA(C) fl dksb; k l cl s yEcsa o{kksa esa l s , d gS(D) vukor cht h i kni ksa dh i fÙk; ksa dh i fÙk; ka t yok; q dhpj er fy , vuqdqfyr ugha gksr h gSa

6. , DVksdki Zl vkSj ¶; wdl ds t hou pØ Øe' k% dSl s gSa\(A) f} xqf.kr h; ] vxqf.kr &f} xqf.kr dh(B) vxqf.kr &f} xqf.kr dh] f} xqf.kr h;(C) vxqf.kr &f} xqf.kr dh] vxqf.kr dh(D) vxqf.kr dh] f} xqf.kr h;

7. fuEufyf[ kr esa l s csesy dks pqfu, %(A) l kbdl & , dfyaxkJ; h(B) l kfYofu; k & fo"kecht k.kq(C) bDohl hVe & l echt k.kq(D) i kbul & , dfyaxkJ; h

8. fuEufyf[ kr esas l s dkSu&l k dFku l gh ugha gS\

(A) i kni ky; esa ' kq"dhdr ] i zsl fd; s x; s i fj j f{kr i kni uewus

gksr s gSa

(B) okuLi fr d m| ku] l UnHkZ ds fy, t hfor i kni ksa dk l axzg.k

gS

(C) l axzgky; ] i kni ksa vkSj t Ur qvksa dh r Lohj ksa dk l axzg.k gS

(D) dq¡t h uewuksa dks i gpkuus ds fy, , d oxhZdh l gk; d gSa

9. A r Fkk B fj Dr LFkkuksa dh i wfr Z dhft ; st xr l a?k [A] x.k [B](A) A - oa' k; B - t kfr(B) A - dqy; B - oxZ(C) A - oxZ; B - dqy(D) A - t kfr ; B - i zHkkx

10. dqat h gS(A) gj csfj ; k dk , d : i(B) , d i zdkj dk ' kS{kf.kd l aLFkku(C) fofHkUu t hoksa dh i gpku dj us ds fy, i z; qDr ofxZdh;l gk; d(D) ofxZdh; Js.kh

11. cgqdksf' kdh; t ho ft uesa vl axfBr År d Lr j dk ' kj hj

l axBu gksr k gs] fdl dk vfHkyk{kf.kd xq.k gS\

(A) eksusj k (B) i zksfVLVk

(C) IykUVh (D) dod


Anjit

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12. In members of which kingdom, nuclearmembrane is absent?(A) Monera (B) Protista(C) Fungi (D) Plantae

13. Who was the founder of five kingdom systemof classification?(A) C. Linnaeus (B) R.H. Whittaker(C) Aristotle (D) T.O. Diener

14. Which kingdom was introduced in fourkingdom classification and who proposed it ?(A) Protista and Copeland(B) Plantae and Linnaeus(C) Monera and Whittaker(D) Monera and Copeland

15. Who published the book ‘Species Plantarum’and proved a basis for classification of plants?(A) Charles Darwin(B) Robert Hooke(C) Antony von Leeuwenhoek(D) Carolus Linnaeus

16. Coenocytic mycelium is found in(A) Deuteromycetes (B) Phycomycetes(C) Ascomycetes (D) All of these

17. Viruses that infect the bacteria are termed as(A) Cyanophages (B) Bacteriophages(C) Mycophages (D) Both (A) & (B)

18. Identify A, B, C and D parts in this diagramof bacteriophage.

A

BC

D

(A) A - Head, B - Sheath, C - Collar, D - Tail fibres(B) A - Head, B - Collar, C - Sheath, D - Tail fibres(C) A - Head, B - Collar, C - Tail fibres, D - Sheath(D) A - Head, B - Sheath, C - Tail fibres, D - Collar

12. fdl t xr ds l nL; ksa ds dsUnzd dyk ugha i k; h t kr h gS\(A) eksusj k (B) i zksfVLVk(C) dod (D) IykUVh

13. oxhZdj .k dh i k¡p t xr i ) fr ds l aLFkki d dkSu Fks\

(A) C. yhfu; l (B) R.H. fOgV~Vsdj

(C) vj Lr q (D) T.O. fM; uj

14. pkj t xr oxhZdj .k eas dkSu&l s t xr dks LFkku fn; k x; kr Fkk bl s fdl us i zLr kfor fd; k \(A) i zksfVLVk o dksi yS.M(B) IykaVh o yhfu; l(C) eksusj k o Oghêsdj(D) eksusj k o dksi yS.M

15. Li h' khTk IykUVsje i qLr d fdl us fy[ kh r Fkk i kni ks ds oxhZdj .kds vk/kkj dks fLk) fd; k \(A) pkYl ZMkfoZu(B) j kCkVZ gqd(C) , .Vksuh oku Y; qfougkd(D) dsj ksyl fy fu; l

16. l adksf' kdh; dodt ky i k; k t kr k gS

(A) M~; wVsj ksekbfl Vht esa (B) Qkbdksekbfl Vht esa

(C) , sLdksekbfl Vht esa (D) buesa l s l Hkh

17. t hok.kqvksa dks l aØfer dj us okys fo"kk.kq dgykr s gS(A) l kbuksQst (B) t hok.kqHkkst h(C) dodHkkst h (D) (A) r Fkk (B) nksuksa

18. t hok.kqHkkst h ds bl fp=k esa A, B, C r Fkk D Hkkxksa dh i gpkudhft ; s

A

BC

D

(A) A - ' kh"kZ, B - vkPNn, C - dkWyj , D - i qPN r ar q(B) A - ' kh"kZ, B - dkWyj , C - vkPNn, D - i qPN r ar q(C) A - ' kh"kZ, B - dkWyj , C - i qPN r ar q, D - vkPNn(D) A - ' kh"kZ, B - vkPNn, C - i qPN r ar q, D - dkWyj


Anjit

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19 Lichens show symbiotic relationship between(A) Algae and fungi(B) Algae and bacteria(C) Fungi and bacteriophage(D) Algae and bacteriophage

20. Petiole when becomes green, flat and tendto function as leaf, is called as(A) Phylloclade (B) Cladode(C) Cladophyll (D) Phyllode

21. The hanging structures that support banyantree are called(A) Prop roots (B) Stilt roots(C) Pneumatophores (D) Root hair

22. In Pistia and Eichhornia, stems are modified to form(A) Offsets (B) Tendrils(C) Stolons (D) Suckers

23. Anteriorly placed, equal, 2-8, flagella arecharacteristic to(A) Blue green algae (B) Green algae(C) Brown algae (D) Red algae

24. An algae which is used as food supplementseven by space travellers is(A) Spirogyra (B) Dictyota(C) Spirullina (D) Gracilaria

25. In pteridophytes a spore germinates toproduce(A) sporophyte (B) sporogonium(C) prothallus (D) microsporophyll.

26. Identify the parts labelled A and B in thegiven figure of Equisetum and select thecorrect option.

A B(A) Strobilus Rhizome(B) Sporophylls Tuber(C) Sporangia Rhizome(D) Sporophyte Tuber

19 ykbdsu fdl ds e/; l gt hoh l EcU/k n' kkZr s gSa\(A) ' kSoky r Fkk dod(B) ' kSoky r Fkk t hok.kq(C) dod r Fkk t hok.kqHkkst h(D) ' kSoky r Fkk t hok.kqHkkst h

20. i .kZoUr t c gj k] pi Vk gksdj i .kZ ds : i esa dk; Z dj r k gS]r ks ; g dgykr k gS(A) i .kkZHk oUr (B) i .kkZHk i oZ(C) i .kZHkLr EHk (D) i .kkZHk

21. yVdus okyh l aj puk; sa t ks cj xn ds o{k dks l gkj k i znkudj r h gSa] dgykr h gSa(A) Lr EHk t M+sa (B) voLr EHk t M+sa(C) U; wesVksQksj (D) ewy j kse

22. fi fLV; k r Fkk vkbdkWfuZ; k esa r us : i kUr fj r gksdj cukr s gSa(A) HkwLr kj h (B) i zr ku(C) foj ksgd (D) vUr %HkwLr kjh

23. vxzor hZ LFkkfur ] l eku] 2-8 d' kkfHkdk; sa fdl ds vfHky{k.kgSa\(A) uhys gj s ' kSoky (B) gj s ' kSoky(C) Hkwj s ' kSoky (D) yky ' kSoky

24. og ' kSoky dkSul k gS ft l dk mi ; ksx vUr fj {k ; kf=k; ksa } kj k HkhHkkst u ds : i esa fd; k t kr k gSa\(A) Li kbj ksxkbj k (B) fMfDV; ksVk(C) Li kb: fyuk (D) xzsfl ysfj ; k

25. Vsfj MksQkbV~l eas] cht k.kq vadqfj r gksdj mRi Uu dj r s gSa&

(A) cht k.kqfHkn~ (B) Li ksj ksxksfu; e

(C) i zksFkSyl (D) y?kqcht k.kqi .kZ

26. uhps fn, x, bDohfl Ve ds fp=k eas A o B ukekafdr Hkkxkas

dks i gpkukas r Fkk l gh fodYi pquksA

i oZi oZl af/k

B

A

A B(A) LVªksfcyl j kbt kse(B) cht k.kqi .kZ V~; wcj(C) cht k.kq/kkuh j kbt kse(D) cht k.kqn~fHkn~ V~; wcj


Anjit

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27. Match Column-I with Column-II and selectthe correct option from the codes givenbelow.Column-I Column-IIA. Psilopsida (i) PsilotumB. Lycopsida (ii) EquisetumC. Sphenopsida (iii) SelaginellaO. Pteropsida (iv) Dryopteris(A) A-(i), B-(ii), C-(iii), D-(iv)(B) A-(i), B-(iv), C-(iii), D-(ii)(C) A-(i), B-(iii), C-(ii), D-(iv)(D) A-(i), B-(iii), C -(iv), D-(ii)

28. In double fertilization, one male gamete fuseswith the _(i)_ to form zygote and the othermale gamete fuses with _(ii)_ to form primaryendosperm nucleus.(A) synergids (n), antipodals (n)(B) egg (n), antipodals(C) egg (n), secondary nucleus (2n)(D) egg (n), synergids (n)

29. The technical term used for the androecium ina flower of China rose (Hibiscus rosasinensis)is :(A) Polyadelphous (B) Monadelphous(C) Diadelphous (D) Polyandrous

30. Whorled, simple leaves with reticulate venation

are present in :

(A) Alstonia (B) Calotropis

(C) Mustard (D) China Rose

31. Tricarpellary, syncarpous gynoecium is foundin flowers of :(A) Liliaceae (B) Solanaceae(C) Fabaceae (D) Poaceae

32. Stamens attached to petals are :-(A) Epipetalous (B) Epiphyllous(C) Episepalous (D) All of these

33. A typical flower with superior ovary and otherfloral parts inferior is called :-(A) Polygamous (B) Hypogynous(C) Perigynous (D) Epigynous

34. A plant with both male and female flowersborne over it is(A) Monoecious (B) Dioecious(C) Unisexual (D) Bisexual

27. Lr aHk-I dks Lr aHk-II ds l kFk feyku dj ks r Fkk uhps fn, x,dwVkas l s l gh fodYi dk pquko dj ksaALr aHk-I Lr aHk-IIA. l kbyksfIl Mk (i) l kbyksVeB. ykbdksfIl Mk (ii) bDohfl VeC. LQhuksfIl Mk (iii) fl ysft usykO. VsjksfIl Mk (iv) Mªk; ksIVsfj l(A) A-(i), B-(ii), C-(iii), D-(iv)(B) A-(i), B-(iv), C-(iii), D-(ii)(C) A-(i), B-(iii), C-(ii), D-(iv)(D) A-(i), B-(iii), C -(iv), D-(ii)

28. nksgj s fu"kspu eas] , d uj ; qXed _(i)_ ds l kFk l afy; rgksdj ; qXeut cukr k gS r Fkk nwl j k uj ; qXed _(ii)_ dsl kFk l ayf; r gksdj i zkFkfed Hkzw.ki ks"k dsUnzd cukr k gSA(A) l gk; d dksf' kdk, a (n), i zfr O; kl kar dksf' kdk, a (n)(B) v.M (n), i zfr O; kl kar dksf' kdk, a(C) v.M (n), f} fr ; d dsUnzd (2n)(D) v.M (n), l gk; d dksf' kdk, a (n)

29. xqM+gy (fgfcLdl j kst fl usafl l ) esa i qeax ds fy ; s dkSul ki kfj Hkkf"kd ' kCn bLr seky fd; k t kr k gS\

(A) cgql a?kh (B) , d l a?kh

(C) f} l a?kh (D) cgqi qadsl j h

30. pDdkj nkj ] t kfydk f' kj kfoU; kl okyh l j y i fÙk; k¡ fdl esa

gksr h gS \

(A) , sYl Vksfu; k (B) dSyksVªksfi l

(C) l j l ksa (D) xqM+gy

31. f=kdks"Vdh] ; qDr k.Mi h t k; k¡x fdl ds i q"i esa gksr k gS\

(A) fy fy, l h (B) l ksySusl h

(C) QScsl h (D) i ks, l h

32. ; fn i qadsl j nyksa l s t qM+s gq, gks r ks dgykr s gSa %&

(A) nyyXu (B) i fj nyyXu(C) ckányyXu (D) mi j ksDr l Hkh

33. , d i k: fi d i q"i ft l esa vaMk' k; m/oZor hZ r Fkk vU; i q"i h

Hkkx v/kksor hZ gksr s gS] dgykr k gS %&

(A) cgqt k; kaxh (B) v/kkst k; kaxh

(C) i fj t k; kaxh (D) vf/kt k; kaxh

34. og i kS/kk ft l esa uj vkSj eknk i q"i nksuksa mRi é gksr s gSa

(A) eksuksfl ; l (B) Mk; ksfl ; l

(C) ; wuhl sDl qvy (D) ckbZl sDl qvy


Anjit

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35. Casparian strips are found on radial and innerwalls of(A) Stem endodermis(B) Root endodermis(C) Pericycle(D) Outer cortex

36. Conjoint, collateral, endarch and closedvascular bundles are found in(A) Monocot root (B) Monocot stem(C) Dicot root (D) Dicot stem

37. Dendrochronology deals with the study of(A) Phylogeny(B) Numerical taxonomy(C) Age of trees(D) Grasses

38. Meristem is charaterized by(A) Isodiametric cells with cellulosic thin wall(B) Absence of intercellular space and vacuole(C) Receive food material & plastids(D) All of these

39. Meristematic tissue responsible for increasein girth of tree trunk is(A) Apical meristem (B) Intercalary meristem(C) Lateral meristem (D) Phellogen

40. Which of the following tissue makes phellogenduring the secondary growth in dicot roots?(A) Endodermis (B) Hypodermis(C) Epidermis (D) Pericycle

41. Which of the following statement is correctwith respect to the given figure showingdifferent zones of a typical root ?

(A) Part B mainly helps in absorption of water(B) Quiescent centre is present in part B(C) Part A is most suitable for anatomicalstudies of root(D) Differentiation of cells can be observedin part C.

35. dSLi sjh i fV~V; ka fdl dh vjh; r Fkk vkUr fj d fHkfÙk; ksa i j i k; ht kr h gSa\(A) r us dh vUr LRopk(B) t M+ dh vUr LRopk(C) i fj j EHk(D) cká oYdqV

36. l a; qDr ] cfg%¶yks; eh] vUr %fnn: d r Fkk vo/khZ l aogu i wyi k; s t kr s gSa(A) , dcht i =kh t M+ esa (B) , dcht i =kh r us esa(C) f} cht i =kh t M+ esa (D) f} cht i =kh r us esa

37. MsUMªksØksuksykst h fdl ds v/; ; u l s l EcfU/kr gS\(A) t kfr oÙk(B) l a[ ; kRed ofxZdh(C) o{kksa dh vk; q(D) ?kkl

38. foHkT; ksr d dk vfHky{k.k gs(A) l eO; kl h dksf' kdk; sa ft uesa l sY; qyksl dh i r yh fHkfÙk gksrh gS(B) vUr j dksf' kdh; vodk' k o j l /kkuh dk vHkko(C) l afpr [ kk| i nkFkZ r Fkk yod dh vuqi fLFkfr(D) buesa l s l Hkh

39. o{k ds r us dh eksVkbZ esa of) dj us ds fy , mÙkj nk; hfoHkT; ksr dh År d gS(A) ' kh"kZLFk foHkT; ksr d (B) vUr foZ"V foHkT; ksr d(C) i k' oZ foHkT; ksr d (D) dkxt u

40. f} cht i =kh t M+ksa eas f} r h; d of) ds nkSj ku fuEu esa l s dkSul k År d dkxt u cukr k gS\(A) vUr LRopk (B) v/kLRopk(C) ckáRopk (D) i fj jEHk

41. uhps fn; s fp=k ds fo"k; esa] t ks , d i zk: fi d t M+ ds fofHkUu{ks=kksa dks i znf' kZr dj r k gS] fuEu dFkuksa esa l s dkSu l k dFkul gh gS\

(A) Hkkx B eq[ ; : i l s t y ds vo' kks"k.k esa l gk; r kdj r k gSA(B) Hkkx B esa ' kkUr dsUnz mi fLFkr gSA(C) Hkkx A t M+ dh ' kj hj j puk l EcU/kh v/; ; u ds fy ; sl okZf/kd mi ; qDr gSA(D) Hkkx C esa dksf' kdkvksa dk foHksnu ns[ kk t k l dr k gSA


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42. Identify the types of inflorescence shown infigure and select the correct option for A andB.

A B(A) Cymose Racemose(B) Racemose Cymose(C) Racemose Racemose(D) Cymose Cymose

43. Identify the different types of placentationsshown in figure and select the correct option.

(A)

(C)

Axile Marginal Parietal BasalFree centralMarginal Basal Free central ParietalAxileMarginal Axile Free central BasalParietalMarginal Parietal Basal Free centralAxile

(B)

(D)

(A) (B) (C) (D) (E)

44. Figures X and Y represent the transversesections of ______and _____respectively.

X Y(A) dicot root dicot stem(B) monocot root monocot stem(C) dicot stem monocot stem(D) monocot stem dicot stem

45. The plants belonging to the family Solanaceaeis represented by the floral formula(A) K5 C5 A5 2G

(B) K(5) C(5) A(5) G(2)

(C) K(5) C(5) A5 G(2)

(D) K5 C(5) A(5) G(2)

42. fp=k esa fn[ kk; s x; s i q"i Øe ds i zdkj ksa dh i gpku dj sa vkSj

A o B ds fy; s l gh fodYi dk p; u dj saA

A B(A) l l hek{k vl hek{k(B) vl hek{k l l hek{k(C) vl hek{k vl hek{k(D) l l hek{k l l hek{k

43. fn; s x; s fp=k esa fofHkUu i zdkj ds cht k.MU; kl dks i gpkfu; s

vkSj l gh fodYi dk p; u dfj , A

44. fPk=k X vkSj Y Øe' k% ______, oa _____dh vuqi zLFk dkVdk i zfr fuf/kRo dj r s gSaA

X Y(A) f} cht i =kh t M+ f} cht i =kh r uk(B) , dcht i =kh t M+ , dcht i =kh r uk(C) f} cht i =kh r uk , dcht i =kh r uk(D) , dcht i =kh r uk f} cht i =kh r uk

45. l ksysusl h dqy l s l EcfU/kr i kni ksa dks dkSu l s i q"i l w=k } kj k

fu: fi r fd; k t kr k gS\

(A) K5 C5 A5 2G

(B) K(5) C(5) A(5) G(2)

(C) K(5) C(5) A5 G(2)

(D) K5 C(5) A(5) G(2)


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46. Identify the names of the following figurefrom the given option -

A B C

(A) Euspongilla Sycon Spongilla

(B) Spongilla Sycon Eusporangia

(C) Euspongia Spongilla Sycon

(D) Sycon Euspongia Spongilla

47. Most appropriate term to designate the lifecycle of Obelia is -(A) Neoteny (B) Metagenesis(C) Metamorphosis (D) None of these

48. Which of the following does not belong tophylum Coelenterata -(A) Sea pen (B) Sea anemone(C) Sea cucumber (D) Sea fan

49. Which one of the following groups of animalsis bilaterally symmetrical and triploblastic(A) Coelenterates (Cnidarians)(B) Aschelminthes (round worms)(C) Ctenophores (D) Sponges

50. Four statements (a-d) are given below aboutporiferans :(a) sponges have organ level of organisation.(b) sponges have a water canal system.(c) water enters through ostia in spongocoel.(d) water canal system helps in the co-ordination.Select the option which contain all the correctstatements.(A) (a) and (b) (B) (c) and (d) only(C) (a), (b) and (c) (D) (b), (c) and (d)

51. Which statement is not true about phylumcoelenterata :-(A) Coelenterates exhibit cellular level oforganisation and are diploblastic(B) They have a single opening in theirgastrovascular cavity(C) Coelenterates exhibit two basic body forms(D) Corals have a skeleton composed ofcalcium carbonate

46. fuEufyf[ kr fodYi ksa esa l s fn, x, vkj s[ kksa dk ukekadudhft ,A

A B C

(A) ; wLi k¡ft yk l k; dkWu Li k¡ft yk

(B) Li k¡ft yk l k; dkWu ; wLi k¡j saft ; k

(C) ; wLi k¡ft ; k Li k¡ft yk l k; dkWu

(D) l k; dkWu ; wLi k¡ft ; k Li k¡ft yk

47. vkscsfy; k ds t hou pØ dks l wfpr dj us ds fy , l cl smi ; qDr ' kCn gS &(A) fuvksVsuh (B) esVkt susfl l(C) esVkekWQksZfl l (D) buesa l s dksbZ ugha

48. fuEu esa l s dkSu l hys.VªsVk l a?k esa l fEefyr ugha gS &

(A) l eqnzh i su (B) l eqnzh , uheksu

(C) l eqnzh dqdqEcj (D) l eqnzh i a[ kk

49. fuEufyf[ kr esa l s fdl , d oxZ ds i zk.kh f} i k' oZr % l efer, oa f=kt uLr j h; gksr s gS(A) l hysaVsªV~l (ukbMsfj ; u)(B) , sLdhgsyfeaFkhl (xksy dfe)(C) VhuksQksj k (D) Li at

50. i ksjhQsjk ds l anHkZ esa fuEufyf[ kr pkj (a-d) dFku fn; s x; sgSA(a) Li at ksa esa vax Lr j dk l axBu i k; k t kr k gSA(b) Li at ksa esa t y i fj ogu r a=k i k; k t kr k gSA(c) t y vkfLV; k¡ } kj k Li at ksl hy esa i gqpr k gSA(d) t y i fj ogu r a=k l eUo; cukus esa enn dj r k gSAl gh dFkuksa dks pqfu, A(A) (a) o (b) (B) (c) o (d) dsoy(C) (a), (b) o (c) (D) (b), (c) d (d)

51. fuEufyf[ kr esa l s dkSul k dFku l hysUVsj Vk Qkbye ds fy,l gh ugha gS %&

(A) l hysUVsj sVl esa dksf' kdh; Lr j dk l axBu vkSj f} t uuLr j i k; k t kr k gSA

(B) budh xsLVªksosLdqyj xqgk esa , dy fNnz i k; k t kr k gSA

(C) l hysUVªsl esa nks i zdkj ds : i i k; s t kr s gSA

(D) dksj y esa dSfY' k; e dkcksZusV dk ckg~; dadky i k; kt kr k gSA


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52. Identify the correct match from Column-I andColumn-II.Column-I Column-II(a) Taenia (i) Filaria worm(b) Ascaris (ii) Tape worm(c) Wuchereria (iii) Round worm(d) Ancyclostoma (iv) Hook worm(A) a-i, b-ii; c-iii; d-iv (B) a-ii, b-iii; c-iv; d-i(C) a-ii, b-iii; c-i; d-iv (D) a-iii, b-ii; c-iv; d-i

53. Which statement is not true about phylumannelida :-(A) Their body is distinctly marked out intosegments(B) They posses longitudinal and circularmuscles which help in locomotion(C) Circulatory system is of open type(D) Nephridia help in osmoregulation andexcretion

54. Identify the phylum on the basis of charactersgiven below :-Metameric segmentation, tube within tubebody plan, first protostomi, eucoelomateanimals, closed circulatory system(A) Nematoda (B) Annelida(C) Arthropoda (D) Echinodermata

55. Identify the correct match from column-I andcolumn-II :-

Column-I Column-II

(a) Honey bee (i) Laccifer

(b) Silk worm (ii) Apis

(c) Lac insect (iii) Limulus

(d) King crab (iv) Bombyx

(A) a-i; b-ii; c-iii; d-iv (B) a-iv; b-ii; c-i; d-iii

(C) a-ii; b-iv; c-i; d-iii (D) a-i; b-ii; c-iv; d-iii

56. Which statement is not true about phylumarthopoda :-(A) Excretion takes place through nephridia(B) Animals of this phylum are mostly dioecious(C) Fertilization is usually internal(D) Development may be direct or indirect

52. dkWye-I vkSj dkWye-II dk l gh feyku dj sa %&

dkWye-I dkWye-II

(a) Vhfu; k (i) Qkbysfj ; k d fe

(b) , Ldsfj l (ii) Qhr k dfe

(c) oqpsj sfj ; k (iii) xksy dfe

(d) , ul kbyksLVksek (iv) gqd d fe

(A) a-i, b-ii; c-iii; d-iv (B) a-ii, b-iii; c-iv; d-i(C) a-ii, b-iii; c-i; d-iv (D) a-iii, b-ii; c-iv; d-i

53. Qkbye , susfyMk ds fy, dkSul k dFku l gh ugha gS %&

(A) budk ' kj hj Li "V : i l s [ k.Mksa esa foHkkft r gksr k gSA

(B) buesa vuqnS/; Z vkSj or kdkj ek¡l i sf' k; k¡ i kbZ t kr h gS t ks

fd xeu eas l gk; r k dj r h gSA

(C) [ kqyk i fj l apj .k r a=k i k; k t kr k gSA

(D) usÝsfM; k mRl t Zu vkSj i j kl j .k fu; eu esa l gk; r k

dj r s gSA

54. fn; s x; s y{k.kksa ds vk/kkj i j Qkbye dks i gpkfu, %&

esVkesfj d [ k.MhHkou] uyh ds Hkhr j uyh] i zFke i zksVksLVkseh]

nsg xqgh; t Ur q] cUn i fj l apj .k r a=k

(A) fuesVksMk (B) , susfyMk

(C) vkFkksZi ksMk (D) , dkbuksMesZVk

55. dkWye-I dk dkWye-II l s l gh feyku fdft , :-

dkWye-I dkWye-II

(a) e/kqeD[ kh (i) ySfl Qj

(b) j s' ke dhV (ii) , sfi l

(c) yk[ k dhV (iii) fyewyl

(d) fdax Øsc (iv) ckWfcDl

(A) a-i; b-ii; c-iii; d-iv(B) a-iv; b-ii; c-i; d-iii

(C) a-ii; b-iv; c-i; d-iii (D) a-i; b-ii; c-iv; d-iii

56. Qkbye vkFkksZi ksMk ds fy, dkSul k dFku l gh ugha gS %&

(A) mRl t Zu usÝsfM; k } kj k gksr k gS

(B) bl Qkbye ds T; knkr j t Ur q f} fyaxh gksr s gSa

(C) l kekU; r % vkUr fj d fu"kspu i k; k t kr k gS

(D) i zR; {k ; k vi zR; {k i zdkj dk i fj o/kZu i k; k t kr k gS


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57. Match Column-I with Column-II and select thecorrect option from the codes given below.Column-I Column-IIA. Hirudin (i) HydraB. Canal system (ii) EchinodermataC. Nematocysts (iii) LeechD. Feather star (iv) SpongesE. Insects (v) Termites(A) A-(iv), B-(iii), C-(ii), D-(i), E-(v)(B) A-(v), B-(iv), C -(i), D-(iii), E-(ii)(C) A-(iii), B-(iv), C-(i), D-(ii), E-(v)(D) A-(ii), B-(i), C -(iv), D-(v), E-(iii)

58. Identify the figures A, B, C and D and select

the correct option.

(A) A-Liver fluke; B-Male roundworm;C -Hirudinaria; D-Nereis(B) A-Liver fluke; B-Female roundworm ;C-Hirudinaria; D-Nereis(C) A-Liver fluke; B-Male roundworm;C-Nereis; D-Hirudinaria(D) A-Liver fluke; B-Female roundworm;C -Nereis; D-Hirudinaria

59. Identify the figures A, B, C and D and select

the correct option.

A B C D(A) Pleurobrachia Cnidoblast Aurelia Adamsia

(B) Aurelia Adamsia Cnidoblast Pleurobrachia

(C) Cnidoblast Pleurobrachia Adamsia Aurelia

(D) Adamsia Aurelia Pleurobrachia Cnidoblast

57. Lr aHk-I dks Lr aHk-II l s l kFk feykb, r Fkk uhps fn, x, dwVksa

l s l gh fodYi pqfu, A

dkWye-I dkWye-II

A. fg: fMu (i) gkbMªk

B. uky r a=k (ii) , dkbZuksMesZVk

C. fuesVksfl LV~l (iii) t ksad

D. QSnj LVkj (iv) Li at

E. dhV (v) nhed(A) A-(iv), B-(iii), C-(ii), D-(i), E-(v)(B) A-(v), B-(iv), C -(i), D-(iii), E-(ii)(C) A-(iii), B-(iv), C-(i), D-(ii), E-(v)(D) A-(ii), B-(i), C -(iv), D-(v), E-(iii)

58. fp=k A, B, C , oa D dks i gpkuks r Fkk l gh fodYi dk pquko

djksA

(A) A-; d r d fe; B-uj xksyd fe; C -fg: fMusfj ; k;D-usjhl(B) A-; d r d fe; B-eknk xksyd fe; C-fg: fMusfj ; k;D-usjhl(C) A-; d r d fe; B-uj xksyd fe; C-usj hl ;D-fg: fMusfj ; k(D) A-; d r d fe; B-eknk xksyd fe; C -usj hl ;D-fg: fMusfj ; k

59. fp=k A, B, C , oa D dks i gpkuks r Fkk l gh fodYi pquksA

A B C D(A) Iywjksczsfd; k fuMksCykLV vkWjsfy; k ,Mefl ; k(B) vkWjsfy; k ,Mefl ; k fuMksCykLV ywjksczsfd; k(C) fuMksCykLV Iywjksczsfd; k ,Mefl ; k vkWjsfy; k(D) ,Mefl ; k vkWjsfy; k Iywj ksczsfd; k fuMksCykLV


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60. Which of the following is gregarious pest(A) Locusta (B) Limulus(C) Laccifer (D) Apis

61. In Torpedo (electric ray), electric organs arepresent as modified musculature between(A) Nostrils and mouth(B) Pectoral and caudal fin(C) Gills and eyes(D) Eyes and nostrils

62. What are not true?a. Dermal scales of fished form theexoskeletonb. Cycloid and ctenoid scales have distinctlines of growth which aid in determining theage of the fishc. Fish scales are never shedd. The skin in elasmobranchs is covered withplacoid scalese. The development of a placoid scale is notlike the development of a tooth(A) a, b, c and e (B) b, c and e(C) c, d and e (D) only e

63. Which of the following are refered as non-vertebrate chordate?(A) Ciona, Ascidia, Amphioxus(B) Lamprey, Myxine, Shark(C) Scoliodon, Torpedo, Trygon(D) Pristis, Branchiostoma, Scyllium

64. Lateral line sense organs are absent in(A) Tadpole larva of frog(B) Fishes(C) Reptiles(D) Cartilaginous fishes

65. Members of which group are not deuterostomes?(A) Chordates(B) Echinoderms(C) Arthropods(D) None of these

66. Amongst the following mammals which of thefollowing is a monotreme?(A) Macropus (Kangaroo)(B) Ornithorhynchus (Platypus)(C) Balaenoptera (Blue whale)(D) Elephas (Elephant)

60. fuEu esa l s dkSu ; wFki hM+d fVM~Mh gS &(A) yksdLVk (B) fyewyl(C) ySfl Qj (D) , sfi l

61. VkWj i hMks esa oS| qr vax : i kUr fj r i s' kh; ds : i esa i k; k t kr k

gS] ; g fdl ds chp gksr k gS\

(A) ukl k fNnz r Fkk eq[ k

(B) val r Fkk i qPN i [ kus

(C) Dykse r Fkk us=k(D) us=k r Fkk ukl kfNnz

62. fuEu esa l s dkSul k ; k dkSul s dFku l gh ugha gS\a. eNfy; ksa dh MeZy ' kYd ckádadky cukr h gSab. l kbDykbM vkSj VhukWbM ' kYd] ft uesa of) dh i Fkdj s[ kk; sa gksr h gSa] t ks EkNfy; ks dh mez@vk; q dk i r k yxkr h gSac. eNyh ds ' kYd dHkh fxj r s ugha gSad. bykl eksczsad eNfy; ksa Ropk IySdkWbM ' kYd l s <dh gksr hgSae. IySdkWbM ' kYd dk fodkl nk¡r ds fodkl dh r j g ughagksr k gSa(A) a, b, c r Fkk e (B) b, c r Fkk e(C) c, d r Fkk e (D) dsoy e

63. fuEu esa l s fdl dks ukWu&oVhZczsV dkWMsZVk ekuk t kr k gSa\

(A) fl ; ksuk] , fl fM; k ,EQhvkWDl l

(B) ySEi zs] feDl kbu] ' kkdZ

(C) LdkWfy; ksMksu] VkWj fi Mks] Vªk; xksu

(D) fi zfLVl ] czSfUd; ksLVksek] l kbfy; e

64. i k' oZ j s[ kh; l osanh vax vuqi fLFkr gksr s gSa(A) esa<+d ds VsMi ksy ykokZ esa(B) eNfy; ksa esa(C) l j hl i esa(D) mi kfLFky eNfy; ksa esa

65. fuEu esa l s fdl oxZ ds l nL; M~; wVsj ksLVkse ugha gksr s gSa\

(A) dkWMsZV~l

(B) , dkbuksMeZl

(C) vkFkzksZi ksM~l

(D) buesa l s dksbZ ugha

66. fuEu Lr fu; ksa esa l s dkSu eksuksfVªe gSa\

(A) esØksi l (daxk: )

(B) vkfuZFkksfj adl (IySfVi l )

(C) csysuksIVsj k (Cyw Ogsy)

(D) , sfyQl (gkFkh)


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67. Teeth are modified _________ scales whichare backwardly directly(A) Ctenoid (B) Cycloid(C) Placoid (D) Ganoid

68. A jawless fish, which lays eggs in fresh waterand whose ammocoetes larvae aftermetamorphosis return to the ocean is :(A) Petromyzon (B) Eptatretus(C) Myxine (D) Neomyxine

69. Which of the following animals is notviviparous?(A) Whale (B) Flying fox (Bat)(C) Elephant (D) Platypus

70. Which of the following categories of animalsis correctly described with no single exception?(A) All mammals are viviparous and possessdiaphragm for breathing(B) all reptilies possess scales, have a threechambered heart and are cold blooded(poikilothermal)(C) All bony fishes have four pairs of gills andan operculum on each side(D) all sponges are marine and have collaredcells

71. What will you look for to identify the sex ofthe following?(A) Male shark – Claspers borne on

pelvic fins(B) Female Ascaris – sharply curved

posterior end(C) Male frog – A copulatory pad on

the first digit of thehind limb

(D) Female cockroach – Anal cerci

72. Which one of the following statements is totallywrong about the occurrence of notochord whilethe other three are correct?(A) It is absent throughout life in humansfrom the very beginning(B) It is present througout life in amphioxus(C) It is present only in larval tail in Ascidians(D) It is replaced by a vertebral column inadult frog

67. nk¡r i fj ofr Zr _________ ' kYd gSa] t ks i hNs ?kqesa gksr s gSa

(A) VhukWbM (B) l kbDykWbM

(C) IySdkWbM (D) xsukWbM

68. t cM+kj fgr eNyh t ks vyo.kh; t y esa v.Ms nsr h gSa vkSj

bl dk , eksl hVl ykokZ dk; kUr j .k ds i ' pkr ~ egkl kxj esa

oki l pyk t kr k gSa

(A) i sVªksekbt ksu (B) , i VsfVªVl

(C) feDl kbu (D) uhvksfeDl kbu

69. t j k; qt t ho ugha gS\

(A) Ogsy (B) mM+u ykseM+h (pexkbM+)(C) gkFkh (D) IysVhi l

70. buesa l s dkSul h t ar q Js.kh dk o.kZu , d Hkh vi okn ds fcuk]l gh&l gh fd; k x; k gSa(A) l Hkh Lr u/kkjh t j k; qt ¼cPps nsus okys½ gksr s gSa vkSj muesal kal ysus ds fy , Mk; Ýke gksr k gSa(B) l Hkh l j hl i ksa i j ' kYd vkSj ' kj hj esa f=kd{kh; ân; gksr kgS r Fkk os ' khr #f/kj /kkj h (vl er ki h) gksr s gSa(C) l Hkh vfLFky eNfy; ksa esa pkj t ksM+s Dykse r Fkk i zR; sdi k' oZ i j , d i zPNn gksr k gS(D) l Hkh Li at l eqnzh gksr s gSa r Fkk muesa dkWyj dksf' kdk, agksr h gSa

71. fuEukfdar ds fyax dh i gpkku dj us ds fy , vki D; k

ns[ ksxsa\

(A) uj ' kkdZ – DysLi j Jks.kh fQUl i j

mi fLFkr

(B) eknk , Ldsfj l – r h{.k oØr k okyk i ' p fl j k

(C) uj esa<d – i ' p i kn dh i gyh vaxqyh

i j eSFkqu xíh

(D) eknk fr ypV~Vk – xqnh; ywe

72. i "Bj Tt q ds fo"k; esa dkSul k dFku i w.kZr % xyr gSa t cfd

vU; r hu l gh gS\

(A) euq"; ksa esa ; g fcYdqy vkj aHk l s ysdj t houi ; ZUr

vuqi fLFkr gksr h gSa

(B) ; g , fEQvkWDl l esa t houi ; ZUr mi fLFkr gksr h gS

(C) ; g ,LkhfM; u esa dsoy ykokZ i qPN esa mi fLFkr gksrh gSa

(D) o; Ld esa<d esa bl dk LFkku es#naM ys ysr k gSa


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73. Which one of the following statements aboutall the four of spongilla, Leech, Dolphin andPenguin is correct?(A) All are bilaterally symmetrical(B) Penguin is homoiothermic while theremaining three are poikilothrmic(C) Leech is a fresh water form while all othersare marine(D) Spongilla has special collared cells calledchoanocytes, not found in the remaining three

74. Stereocilia occur in(A) Pseudostratified columnar epithelium oftrachea(B) Columnar epithelium of stomach(C) Stratified columnar epithelium of pharynx(D) Pseudostratified columnar epithelium ofepididymis

75. The cell junctions called tight, adhering andgap junctions are found in(A) Muscular tissue (B) Connective tissue(C) Epithelial tissue (D) Neural tissue

76. The function of villi in the intestine is

(A) Absorption of food

(B) Increase in the absorptive surface of food

(C) Control of intestinal movement

(D) Hinderance in the movement of food

77. Reproductive cells (germinal epithelium) are madeup of which of the following epithelial tissue(A) Cuboidal (B) Columnar(C) Squamous (D) Sensory

78. Desmosomes are the feature of(A) Epithelial tissue (B) Nervous tissue(C) Muscular tissue (D) None of these

79. Pseudostratified epithelium is found in(A) Pharynx (B) Trachea(C) Testis (D) Epidermis

80. In animals, gametes are derived from

(A) Epithelial tissue

(B) Nervous tissue

(C) Occur singly

(D) None of the above

73. buesa l s dkSul k dFku] Li kasft yk] t kasd] MkWfYQu vkSj i asfXou]

bu pkj ksa ds ckj s esa l gh gS\

(A) l Hkh f} i k' oZ l efer gSa

(B) i safXou l er ki h gS] t cfd ' ks"k r huks vl er ki h

(C) t ksad LoPN t y dk t ar q gS t cfd ' ks"k l eqnzh gSa

(D) Li kasft yk esa dks, uksl k; V uked dkWyj dksf' kdk,a gksr h

gSa t ks vU; r hu esa ugha gksr ha

74. LVhfj ; ksl hfy; k i k, t kr s gS

(A) Vªsfd; k ds dwVLr fj r Lr EHkkdkj mi dyk År d esa

(B) vek' k; ds Lr EHkkdkj mi dyk År d esa

(C) QSfj aXl ds Lr fj r Lr EHkkdkj mi dyk År d esa

(D) vf/ko"k.k ds dwVLr fj r Lr EHkkdkj mi dyk År d esa

75. os dksf' kdk l af/k; k¡ ft Ugsa i zxk< l af/k] vkl at h l af/k r Fkk var j ky

l af/k dgr s gSa] fdl , d År d esa i k; h t kr h gSA(A) i s' kh År d (B) l a; kst h År d(C) mi dyk År d (D) r af=kdk År d

76. vk¡r esa foykbZ dk dk; Z gS

(A) Hkkst u dk vo' kks"k.k

(B) Hkkst u dh vo' kks"k.k l r g dks c<+kuk

(C) vkU=kh; xfr ; ksa dk fu; eu

(D) Hkkst u dh xfr esa #dkoV Mkyuk

77. t uu dks' kk i r Z fdl , i hFkhfy; y År d dh cuh gksr h gSA

(A) ?kukdkj (B) Lr EHkkdkj

(C) ' kYdkdkj (D) l aosnh

78. MsLeksl kse fdl dk y{k.k gS&

(A) , i hFkhfy; y År d (B) r fU=kdk År d

(C) i s' kh År d (D) buesa l s dksbZ ugha

79. dwV Lr fj r ?kukdkj mi dyk År d feyr k gSA

(A) xzl uh esa (B) VªSfd; k esa

(C) o"k.k esa (D) vf/kpeZ eas

80. t Ur qvksa esa xSehV~l mRi Uu gksr s gSA

(A) mi dyk År d l s

(B) r af=akdh; År d l s

(C) , dy i k; s t kr s gS

(D) mi j ksDr esa l s dksbZ ugha


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81. Which type of epithelium is found inoesophagus, buccal cavity, cornea, vaginaand cervix.(A) Transitional epithelium(B) Columnar epithelium(C) Non-keratinized stratified epithelium(D) Keratinized stratified epithelium

82. Match the following simple epithelial tissuesin column I with their occurrence in columnII and choose the correct combination fromthe options given

Column I Column II

A. Squamous 1. Intestinal glands

B. Cuboidal 2. Trachea

C. Columnar 3. Ovary

D. Ciliated 4. Blood vessels

E. Pseudo stratified 5. Bronchioles

(A) A -1, B -2, C-4, D-3, E-5

(B) A -5, B -4, C -2, D-1, E -3

(C) A -4, B -5, C -1, D -2, E -3

(D) A -4, B-3, C -1, D -5, E -2

83. Brush bordered epithelium is found in

(A) Fallopian tube (B) Small intestine

(C) Stomach (D) Trachea

84. The haemocoel of cockroach is divided bytwo membranous diaphragms into-(A) A small ventral part or ventral sinus(B) A central part or perivisceral haemocoel

between the two membranes(C) A small dorsal part or pericardial sinus(D) All of the above

85. The phallic or conglobate gland present inthe male cockroach helps in-(A) Producing some volatile secretions

which are offensive in smell and thuskeep the enemies away

(B) Forming the outer most layer of thespermatophore

(C) The formation of exoskeleton(D) Excretion of some metabolic wastes

81. xzfl dk] eq[ kxqgk] dkWfuZ; k] ; ksfu r Fkk l foZDl esa fdl i zdkj

dh mi dyk i kbZ t kr h gSA

(A) var j or hZ mi dyk

(B) Lr EHkkdkj mi dyk

(C) ukWu&fdj sfVukbTM Lr fj r mi dyk

(D) dSfj fVukbTM Lr fj r mi dyk

82. dkWye-I esa fn, x, l j y mi dyk År dksa dks dkWye-II esa

fn, x, mudh mRi fÙk ds LFkku l s l qesfyr dhft , vkSj l gh

; qXeu pqusa

dkWye I dkWye II

A. ' kYdh 1. vk¡=kh; xzfUFk; ka

B. ?kukdkj 2. Vªsfd; k

C. Lr aHkkdkj 3. v.Mk' k;

D. i {ekfHkdh; 4. j ä okfgfu; k¡

E. dwVLr jh; Lr aHkkdkj 5. czksafd; ksy~l

(A) A -1, B -2, C-4, D-3, E-5

(B) A -5, B -4, C -2, D-1, E -3

(C) A -4, B -5, C -1, D -2, E -3

(D) A -4, B-3, C -1, D -5, E -2

83. czq' k&ckWMZj , i hFkhfy; e fdl esa i k; h t kr h gS

(A) QSyksfi ; u V~; wc (B) NksVh vk¡r(C) vkek' k; (D) VªSfd; k

84. dkWdjksp dh gheksl hy dks nks f>Yyhnkj Mk; Ýke } kj k fdl esafoHkkft r fd; k t kr k gS -(A) , d NksVs v/kj h; Hkkx ; k osUVªy l kbul(B) , d dsUnzh; Hkkx ; k nks f>fYy; ksa ds chp i sj hfol j y

gheksl hy(C) , d NksVk Mkl Zy Hkkx ; k i sj hdkfMZ; y l kbul(D) mi j ksDr l Hkh

85. uj dkWdj ksp esa QSfyd ; k dkasXykscsV xzafFk mi fLFkr gksr h gS]

t ks l gk; r k dj r h gS -

(A) ; s dqN volatile L=kko.k L=kkfor dj r h gSA t ks fd

xa/k esa offensive gksr s gSaA r Fkk ' k=kqvksa dks nwj j [ kr s gSa

(B) ; s Li esZVksQksj dk l cl s ckgj h Lr j cukr s gSa

(C) ckádadky cukr h gS

(D) dqN eSVkckWfyd vi f' k"V i nkFkZ mRl ft Zr dj r h gS


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86. The function of stomodaeal valves incockroach is-(A) To prevent the re-entering of food

from mesenteron into the gizzard(B) To prevent the entry of food from

gizzard into mesenteron(C) To prevent the entry of hepatic

secretion(D) To allow only fine particles of food to

enter in the mesenteron

87. Each compound eye of cockroach is madeof-(A) About 500 ommatidia(B) Over 2,000 ommatidia(C) Over 5,000 ommatidia(D) About 1,000 ommatidia

88. In cockroach the testes are present in-(A) 3,4,5 abdominal segments(B) 4,5,6 abdominal segments(C) 5,6,7 abdominal segments(D) 6,7,8 abdominal segments

89. Collagen fibres are secreted by -(A) Fibroblast(B) Mast cells(C) Histiocyte(D) Macrophages

90. Collagen fibres of connective tissue are -(A) Red in colour(B) Yellow in colour(C) White in colour(D) Transparent in colour

86. dkWdj ksp esa LVkseksfM; y di kV dk dk; Z gS -

(A) ; g Hkksst u dks e/; ka=k l s fxt kMZ esa oki l vkus l s j ksdr k

gS

(B) ; g fxt kMZ l s e/; ka=k esa Hkksst u ds i zos' k dks j ksdr k gS

(C) fgi sfVd L=kko.k ds i zos' k dks j ksdr k gS

(D) dsoy Hkkst u ds l w{e d.kksa dks gh e/; ka=k esa i zos' k djus

nsr k gS

87. dkWdj ksp dk i zR; sd l a; qDr us=k cuk gksr k gS -(A) yxHkx 500 vksesVhfM; k dk

(B) 2,000 l s vf/kd vksesVhfM; k dk

(C) 5,000 l s vf/kd vksesVhfM; k dk

(D) yxHkx 1,000 vksesVhfM; k dk

88. dkWdj ksp esa o"k.k mi fLFkr gksr s gSa -(A) 3,4,5 mnj h; [ kaM esa(B) 4,5,6 mnj h; [ kaM esa(C) 5,6,7 mnj h; [ kaM esa(D) 6,7,8 mnj h; [ kaM esa

89. dksyst u r ar q fdl ds } kj k L=kkfor gksr s gS&(A) QkbczksCykLV ¼r ar q dksj d dksf' kdk½(B) ekLV dksf' kdk(C) fgLVksl kbV(D) esØksQst l ¼Hk{k.k dksf' kdk½

90. l a; kst h mr d ds dksyst u r ar q gksr s gS &(A) yky j ax ds(B) i hys j ax ds(C) l Qsn j ax ds(D) i kj n' khZ j ax ds


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PART - II [PHYSICS]91. Along the positive direction of x-axis there

exists a constant electric field E0. If electricpotential at x = 0 is zero then its value atx = +x will be(A) V(x) = + x E0 (B) V(x)=–xE0(C) V(x) = x2 E0 (D) V(x) = –x2 E0

92. A particle of mass m and charge q is releasedfrom rest in an electric field E. Then the K. E.after time t will be:

(A) 2 22E t

mq (B) 2 2 2E q t2m

(C) 2

2

Eq m2t

(D) Eqm2t

93. An electric dipole is made up of two equaland opposite charges of 2c at a distanceof 3 cm. This is kept in an electric field of2 x 10+5 N/C, then the maximum torque actingon the dipole is :(A) 12 x 10–1 Nm (B) 12 x 10–3 Nm(C) 24 x 10–3 Nm (D) 24 x 10–1 Nm

94. The electric intensity due to a dipole of length10 cm and having a charge of 500 C, at apoint on the axis distance 20 cm from one ofthe charge in air will be :(A) 20.5 × 107 N/C (B) 13.1 × 1011 N/C(C) 9.28 × 107 N/C (D) 6.25 × 107 N/C

95. How many protons is contained in 500 cc ofwater(A) 6 x 1027 (B) 1.67 x 1026

(C) 6 x 1023 (D) 1.67 x 1023

96. Surface A and B are at same potential 'V'. Workdone in moving a charge 'q' from A to B is(A) zero(B) qv

A B(C) –qV

(D) qV2

97. A conducting sphere of radius 10 cm ischarged with 10 C. another unchargedsphere of radius 20 cm is allowed to touch itfor some time after two spheres areseparated, then surface density of the chargeon the sphere will be in the ratio of :(A) 2 : 1 (B) 1 : 1(C) 3 : 1 (D) 4 : 1

91. x-v{k dh /kukRed fn' kk ds vuqfn' k ; gk¡ , d fu; r fo| qr

{ks=k E0 fo| eku gSA ; fn x = 0 i j fo| qr foHko ' kwU; gS] r c

x = +x i j bl dk eku gksxk &(A) V(x) = + x E0 (B) V(x)=–xE0(C) V(x) = x2 E0 (D) V(x) = –x2 E0

92. m nzO; eku vkSj q vkos' k dk , d d.k , d fo| qr {ks=k E esa

foj ke l s NksM+k t kr k gSA r c t l e; ds ckn K. E. gksxh&

(A) 2 22E t

mq (B) 2 2 2E q t2m

(C) 2

2

Eq m2t

(D) Eqm2t

93. , d fo| qr f} /kqzo 3 cm dh nwjh i j 2c ds nks l eku vkSj

foi j hr vkos' kks l s cuk gSA ; g 2 x 10+5 N/C ds , d fo| qr

{ks=k esa j [ kk t kr k gS] r c f} /kqzo i j dk; Zj r vf/kdr e cyk?kw.kZ

gS &(A) 12 x 10–1 Nm (B) 12 x 10–3 Nm(C) 24 x 10–3 Nm (D) 24 x 10–1 Nm

94. 500 C vkos' k r Fkk 10 cm yEckbZ ds , d f} /kqzo ds dkj .k

gok esa , d vkos' k l s 20 cm nwj v{k i j , d fcUnq i j fo| qr

r hozr k gksxh &(A) 20.5 × 107 N/C (B) 13.1 × 1011 N/C(C) 9.28 × 107 N/C (D) 6.25 × 107 N/C

95. i kuh ds 500 cc esa fdr us i zksVksu /kkj .k fd; s t kr s gSA(A) 6 x 1027 (B) 1.67 x 1026

(C) 6 x 1023 (D) 1.67 x 1023

96. l r g A vkSj B l eku foHko 'V' i j gSA , d vkos' k 'q' dks Al s B r d pykus esa fd; k x; k dk; Z gS &

(A) ' kwU;(B) qv

A B(C) –qV

(D) qV2

97. 10 cm f=kT; k dk , d pkydh; xksyk 10 C l s vkosf' kr

fd; k t kr k gSA 20 cm f=kT; k dk nwl j k vukosf' kr xksyk

dqN l e; ds fy , bl l s l Ei dZ ds fy, Lohd r fd; k t kr k

gS] ckn esa nksuks xksyks dks i Fkd fd; k t kr k gS] r c xksys i j

vkos' k dk i "B ?kuRo fuEu vuqi kr esa gksxk &(A) 2 : 1 (B) 1 : 1(C) 3 : 1 (D) 4 : 1


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98. Two charges + q and + q are r distant apart.The force between them is F. If one is fixedand other rotates in circle of radius r, thenwork done will be(A) F × r (B) F × 2r

(C) F

2 r (D) zero

99. A nonconducting solid sphere of radius R isuniformly charged. The magnitude of theelectric field due to the sphere at a distancer from its centre -(a) increases as r increases, for r < R(b) decreases as r increases, for 0 < r < (c) decreases as r increases, for R < r < (d) is discontinuous at r = R(A) a, c (B) c, d(C) a, b (D) b, d

100. Which statement is true :(i) A ring of radius R carries a uniformlydistributed charge +Q. A point charge –q isplaced on the axis of the ring at a distance2R from the centre of the ring and releasedfrom rest. The particle executes a simpleharmonic motion along the axis of the ring.(ii) Electrons move from a region of higherpotential to that of lower potential(A) only (i) (B) only (ii)(C) (i), (ii) (D) none of them

101. A non - conducting ring of radius 0.5 m,1.11 x 10–10

coulomb charge is non - uniformly distributed overthe circumference of ring, produces electric fieldE around itself. If = 0 is the centre fring, then

the value of 0

E.d

is :–

(A) 2 V (B) – 2 V(C) – 1 V (D) zero

102. A current of 2.34 ampere flows in a resistanceof 11.111111 . The potential differenceacross the given resistance with due regardfor significant figures is -(A) 26.000 V (B) 26.00 V(C) 26.0 V (D) 26 V

98. nks vkos' k + q vkSj + q, r nwj h i j gSA muds chp cy F

gSA ; fn , d fLFkj gS r Fkk nwl j k r f=kT; k ds oRr esa ?kwer k

gS] r c fd; k x; k dk; Z gksxk &

(A) F × r (B) F × 2r

(C) F

2 r (D) ' kwU;

99. R f=kT; k dk , d vpkydh; Bksl xksyk , d l eku : i l s

vkosf' kr fd; k t kr k gSA xksys ds dkj .k bl ds dsUnz l s r nwjh

i j fo| qr {ks=k dk i fj ek.k &

(a) c<r k gS t c r c<+r k gS] r < R ds fy,

(b) ?kVr k gS t c r c<r k gS] 0 < r < ds fy,

(c) ?kVr k gS t c r c<+r k gS] R < r < ds fy,

(d) r = R i j vl r r gS(A) a, c (B) c, d(C) a, b (D) b, d

100. dkSul k dFku l R; gS \

(i) R f=kT; k dh , d oy; , dl eku : i l s for fj r vkos' k

+Q dks ogu dj r h gSA , d fcUnq vkos' k –q oy; ds dsUnz

l s 2R nwj h i j oy; ds v{k i j j [ kk t kr k gS vkSj foj ke l s

NksM+k t kr k gSaAd.k oy; ds v{k ds vuqfn' k l j y vkoRr

xfr fØ; kfUor dj r k gSA

(ii) bysDVªkWu mPp foHko ds {ks=k l s fuEu foHko ds {ks=k esa xfr

dj r s gSA

(A) dsoy (i) (B) dsoy (ii)

(C) (i), (ii) (D) buesa l s dksbZ ugha

101. 0.5 m f=kT; k dh , d vpkydh; oy; gS] oy; dh i fj f/k ds

mi j 1.11 x 10–10 dwykWe vkos' k vl eku : i l s for fj r gS]

t ks bl ds pkj ks vksj E fo| qr {ks=k mRi Uu dj r k gSa ; fn = 0

oy; dk dsUnz gS] r c 0

E.d

dk eku gS &

(A) 2 V (B) – 2 V(C) – 1 V (D) ' kwU;

102. 2.34 , fEi ; j dh , d /kkj k 11.111111 ds i zfr j ks/k esa

cgr h gSA vFkZi w.kZ vadks ds fy, mfpr l aca/k ds l kFk fn; s x; s

i zfr j ks/kks ds fl j ks i j foHkokUr j gS &

(A) 26.000 V (B) 26.00 V(C) 26.0 V (D) 26 V


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103. The length, breadth and thickness of a metalblock is given by l = 9 cm, b = 8 cm, t = 2.45 cm.The volume of the block is -(A) 2 × 102 cm3 (B) 1.8 × 102 cm3

(C) 1.77 × 102 cm3 (D) 1.764 × 102 cm3

104. The surface tension of liquid is 70 dyne cm–1.In MKS system of units, its value is ?(A) 70 Nm–1 (B) 7 × 102 Nm–1

(C) 7 × 103 Nm–1 (D) 7 × 10–2 Nm–1

105. Suppose the kinetic energy of a bodyoscillating with amplitude A and at a distance

x is given by K = 22 AxBx

. The dimensions of

B are the same as that of -(A) work/time (B) work × distance(C) work/distance (D) work × time

106. If C and R denote capacity and resistancethe dimensions of CR are -(A) M0L0T1 (B) M1L0T(C) M0L0T (D) None of these

107. Mark the correct statement :(A) Many physical quantities may have thesame dimensions(B) Numerical constants can not be deducedby dimensional analysis.(C) All theoretical formulas cannot be derivedfrom dimensional analysis(D) All of the above

108. The density of wood is 0.5 g cm–3 in cgssystem of units. The corresponding value inSI units is -(A) 5000 (B) 500(C) 5 (D) 0.5

109. The adjacent sides of a parallelogram are

represented by co-initial vectors j3i2 and

j4i . The area of the parallelogram is–

(A) 5 units along z-axis(B) 5 units in x-y plane(C) 3 units in x-z plane(D) 3 units in y-z plane

103. , d /kkr q ds CykWd dh yEckbZ] pkSM+kbZ vkSj eksVkbZ = 9 cm,

b = 8 cm, t = 2.45 cm. } kj k nh t kr h gSA CykWd dk

vk; r u gksxkA(A) 2 × 102 cm3 (B) 1.8 × 102 cm3

(C) 1.77 × 102 cm3 (D) 1.764 × 102 cm3

104. nzo dk i "B r uko 70 dyne cm–1 gSA bZdkbZ; ks dh MKS

i ) fr esa bl dk eku gksxkA(A) 70 Nm–1 (B) 7 × 102 Nm–1

(C) 7 × 103 Nm–1 (D) 7 × 10–2 Nm–1

105. ekuk A v; ke l s nksfyr , d oLr q dh xfr t mt kZ x nwj h i j

K = 22 AxBx

} kj k nh t kr h gSA B dh foHkk fuEu dh foek

ds l eku gSA

(A) dk; Z@l e; (B) dk; Z × nwj h

(C) dk; Z/nwjh (D) dk; Z × l e;

106. ; fn C r Fkk R /kfj r k vkSj i zfr j ks/k dks cr kr h gS] r c CR dh

foek gSA(A) M0L0T1 (B) M1L0T(C) M0L0T (D) buesa l s dksbZ ugh

107. l gh dFku fpfUgr dhft ; s :

(A) cgqr l h HkkSfr d j kf' k; ka l eku foek j [ k l dr h gSA

(B) l a[ ; kRed fu; r kad fofe; fo' ys"k.k } kj k vuqekfur

(deduced) ugh fd; s t k l dr s gSA

(C) l Hkh l S) kfUr d l w=k fofe; fo' ys"k.k l s O; qqRi Uu ugh

fd; s t k l dr s gSA

(D) mi j ksDr l Hkh

108. bdkbZ; k¡ dh cgs i ) fr esa ydMh dk ?kuRo 0.5 g cm–3

gSA SI bdkbZ esa l axr eku gksxkA(A) 5000 (B) 500(C) 5 (D) 0.5

109. , d l ekUr j pr qHkqZt dh l yaXu Hkqt k; s l g&i zkj fEHkd

(co-initial)l fn' k j3i2 r Fkk j4i } kj k fu: fi r dh

t kr h gSA l ekUr j pr qHkqZt dk {ks=kQy gS

(A) z-v{k dss vuqfn' k 5 bdkbZ

(B) x-y r y esa 5 bdkbZ

(C) x-z r y esa 3 bdkbZ

(D) y-z r y 3 bdkbZ


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110. The sum, difference and cross product of two

vectors A and B are mutually perpendicular

if -

(A) A and B are perpendicular to each other

and | A | = |

B |

(B) A and B are perpendicular to each other

(C) A and B are perpendicular but their

magnitude are arbitrary

(D) | A | = |

B | and their directions are

arbitrary

111. A boat moving upstream with velocity 3 m/sw.r.t. ground. An observer standing on boatobserves that swimmer ‘S’ is crossing the riverperpendicular to the direction of motion of boat.If river velocity is 4m/s & swimmer crosses theriver width 100 m in 50 sec then -

0

V0

Y B

VS X

(A) Velocity of swimmer w.r.t. ground is 13 m/s

(B) Velocity of swimmer w.r.t. ground is 2 m/s(C) Drift of swimmer along river is zero(D) Drift of swimmer along river will be 50 m

112. A particle initially at rest is acted upon by

force F = – F0 cos t i – F0 sin t j + F0 k .

The trajectory of particle will be -(A) Helix with uniform pitch(B) Helix with non-uniform pitch(C) Circle with changing radius (spiral)(D) Cycloid

113. If kj3i2A

and k4j3iB

,

then projection of A on B

will be -

(A) 133

(B) 263

(C) 263

(D) 133

110. nks l fn' kks A r Fkk B dk ; ksx] vUr j vkSj l fn' k xq.kuQy

i j Li j : i l s yEcor ~ gksr k gS ; fn

(A) A r Fkk

B , d nwl j s ds yEcor ~ gS r Fkk |A | =

|B | gSA

(B) A r Fkk

B , d nwl j s ds yEcor gSA

(C) A r Fkk B yEcor ~ gS ysfdu muds i fj ek.k LosPN

(arbitrary) gSA

(D) | A | = |

B | gS r Fkk mudh fn' kk; s LosPN gSA

111. , d uko t ehu ds l ki s{k 3 m/s osx l s i zokg ds foi j hr

xfr eku gSA uko i j [ kMk , d i zs{kd i zf{kr dj r k gS] fd

r Sj kd ‘S’ uko dh xfr dh fn' kk ds yEcor unh i kj dj j gk

gS ; fn unh dk osx 4m/s gS r Fkk r Sj kd 50 sec esa 100 mpkSMh unh i kj dj r k gS] r c

0

V0

Y B

VS X

(A) t ehu ds l ki s{k r Sj kd dk osx 13 m/s gSA

(B) t ehu ds l ki s{k r Sj kd dk osx 2 m/s gSA

(C) unh ds vuqfn' k r Sj kd dk vi okg ' kwU; gSA

(D) unh ds vuqfn' k r Sj kd dk vi okg 50 m gSA

112. , d d.k i zkj EHk esa foj ke i j gS t ks cy F = – F0 cos t

i – F0 sin t j + F0 k } kj k dk; Zj r gSA d.k dk i z{ksi

i Fk gksxk

(A) , d l eku fi p ds l kFk dq.Mfyfu

(B) vl eku fi p ds l kFk dq.Mfyfu

(C) i fj ofr Zr f=kT; k (dqaMfyr ) ds l kFk oÙkkdkj

(D) pØt

113. ; fn kj3i2A

r Fkk k4j3iB

gS] r c B i j A

dk i z{ksi .k gksxk &

(A) 133

(B) 263

(C) 263

(D) 133


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114. When a man moves down the inclined planewith a constant speed 5 m/s which makesan angle of 37° with the horizontal. He findsthat the rain is falling vertically downward.When he moves up the same inclined planewith the same speed, he finds that the rain

makes an angle = tan–1

87

with the

horizontal . The speed of rain is-

(A) 116 m/s (B) 32 m/s

(C) 5 m/s (D) 73 m/s

115. (cot2x – 1) dx is -(A) cosec2x + C(B) – cosec2x + x + C(C) – cosec2x – 2x + C(D) cosec2x – cotx + C

116. (x + 2) (x – 2) dx is -

(A) 3

x3

+ 4x + C (B) 3

x3

– 4x + C

(C) 3

x–3

– 4x + C (D) 3

x–3

+ 4x + C

117. An aeroplane is moving in a circular path witha speed 250 km/hr. What is the change invelocity in half revolution ?(A) 500 km/hr (B) 250 km/hr(C) 125 km/hr (D) zero

118. A body is started from rest with acceleration2 m/s2 till it attains the maximum velocitythen retards to rest with 3 m/s2. If totaltime taken is 10 second then maximum speedattained is(A) 12 m/s (B) 8 m/s(C) 6 m/s (D) 4 m/s

119. The displacement-time graph of amoving particle with constant acceleration(For 0 t < 1 and 1 < t 2 sec.) is shown inthe figure. The velocity-time graph is bestgiven by

114. t c , d vkneh 5 m/s dh fu; r pky l s vkur r y t ks

{kSfr t l s 37° dk dks.k cukr k gS] l s uhps xfr dj r k gSA og

i kr k gS fd o"kkZ m/okZ/kj uhpsa dh vksj fxj j gh gSA t c og

l eku pky ds l kFk l eku vkur r y i j mi j xfr dj r k

gS] og i kr k gS o"kkZ {kSfr t l s = tan–1

87

dk dks.k

cukr h gSA o"kkZ dh pky gS&

(A) 116 m/s (B) 32 m/s

(C) 5 m/s (D) 73 m/s

115. (cot2x – 1) dx gS &

(A) cosec2x + C(B) – cosec2x + x + C(C) – cosec2x – 2x + C(D) cosec2x – cotx + C

116. (x + 2) (x – 2) dx gS &

(A) 3

x3

+ 4x + C (B) 3

x3

– 4x + C

(C) 3

x–3

– 4x + C (D) 3

x–3

+ 4x + C

117. , d gokbZt gkt 250 km/hr dh pky l s oÙkh; i Fk es xfr

dj j gk gSA v} Z pØ.k es osx es i fj or Zu fdr uk gksxk\(A) 500 km/hr (B) 250 km/hr(C) 125 km/hr (D) ' kwU;

118. , d fi .M foj ke l s 2 m/s2 Roj .k ds l kFk i zkjaHk gksr k gS t c

r d ; g vf/kdr e osx i zkIr ugh dj r k gS] fQj 3 m/s2 l s

foj ke r d efUnr gksr k gSA ; fn dqy fy; k x; k l e; 10l Sd.M gS r c i zkIr vf/kdr e pky gSA(A) 12 m/s (B) 8 m/s(C) 6 m/s (D) 4 m/s

119. fu; r Roj .k l s xfr eku , d d.k dk foLFkki u&l e; xzkQ

(0 t < 1 r Fkk 1 < t 2 ds fy, ) fp=k esa n' kkZ; k x; k

gSA l cl s vPNk osx&l e; fuEu xzkQ } kj k fn; k t kr k gS&


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(A) (B)

(C) (D)

120. A particle is projected vertically upward withinitial velocity 25 m/s. For its motion duringthird second, which of the following statementis correct?(A) Displacement of the particle is 30 m(B) Distance covered by the particle is 30 m.(C) Distance covered by the particle is 2.5 m(D) None of these

121. A ball is thrown from a point on ground atsome angle of projection. At the same time abird starts from a point directly above thispoint of projection at a height h horizontallywith speed u. Given that in its flight ball justtouches the bird at one point. Find thedistance on ground where ball strikes

(A) 2uhg (B) u

2hg

(C) 2u 2hg (D) u

hg

122. A ball is hit by a batsman at an angle of 37°as shown in figure. The man standing at Pshould run at what minimum velocity so thathe catches the ball before it strikes theground. Assume that height of man isnegligible in comparison to maximum heightof projectile.

(A) 3 ms–1 (B) 5 ms–1

(C) 9 ms–1 (D) 12 ms–1

(A) (B)

(C) (D)

120. , d d.k 25 m/s ds i zkj fEHkd osx ds l kFk m/okZ/kj mi j dh

vksj i z{ksfi r fd; k t kr k gSA r hl j s l Sd.M ds nkSj ku bl dh

xfr ds fy , fuEu esa l s dkSul k dFku l R; gSA

(A) d.k dk foLFkki u 30 m gSA

(B) d.k } kj k r ; nwj h 30 m gSA

(C) d.k } kj k r ; nwj h 2.5 m

(D) buesa l s dksbZ ughA

121. , d xsan fdl h i z{ksi .k dks.k i j /kj kr y i j , d fcanq l s QSadh

t kr h gSA bl h l e; i j , d i {kh u pky l s {ksfr t : i l s

h Å¡pkbZ i j i z{ksi .k ds bl fcUnq ds l h/ks Åi j , d fcUnq l s

i zkj EHk gksr k gSA fn; k gS fd bl ds mMku esa xsan i {kh dks Bhd

, d fcUnq i j Li ' kZ dj r h gSA t ehu i j og nwj h Kkr dj s

t gk xsan Vdj kr h gS &

(A) 2uhg (B) u

2hg

(C) 2u 2hg (D) u

hg

122. , d xsan fp=kkuql kj 37° dks.k i j , d f[ kykMh } kj k ekj h

t kr h gSA P i j [ kMs O; fDr dks fdl U; wur e osx l s nkSMuk

pkfg, r kfd og xsan ds /kj kr y l s Vdj kus l s i woZ gh ml s

i dM ysA eku yhft , vkneh dh Å¡pkbZ i z{ksI; dh vf/kdr e

Å¡pkbZ dh r qyuk esa ux.; gSA

(A) 3 ms–1 (B) 5 ms–1

(C) 9 ms–1 (D) 12 ms–1


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123. A particle is projected with velocity 30°above on an inclined plane which inclinationfrom horizontal is 37°. Choose appropriatepath (air resistance is negligible)

(A) 37°30°

u

(B) 37°30°

u

(C) 37°30°

u

(D) 37°30°

u

124. On an inclined plane inclined at an angle of30° to the horizontal, a ball is thrown upwardswith a velocity of 10 m/s, at an angle of 60°to the inclined plane. Its range on the inclinedplane is :

(A) 10 m (B) 35 m

(C) 0 m (D) 310 m

125. An observer standing near the shore notesthat Ram is swimming upstream at 0.9 m/sand Shyam is swimming downstream at 1.5 m/s. If velocity of both in still water is the same,what is velocity of river?(A) 0.1 m/s (B) 0.2 m/s(C) 0.3 m/s (D) 0.4 m/s

126. A swimmer crosses a flowing stream ofbreadth b to and fro in time T1. The timetaken to cover the same distance up anddown the stream is T2. If T3 is the time theswimmer would take to swim a distance 2b instill water, then(A) T3=T1+T2 (B) T1

2 = T2T3(C) T2

2 =T1T3 (D) T32=T1T2

127. A storage battery is connected to a chargerfor charging with a voltage of 12.5Volts. Theinternal resistance of the storage battery is1. When the charging current is 0.5 A, theemf of the storage battery is:(A) 13 Volts (B) 12.5 Volts(C) 12 Volts (D) 11.5 Volts

123. , d d.k vkur r y ft l dk {kSfr t l s vkur dks.k 37°gS] ds

mi j 30° ds osx l s i z{ksfi r fd; k t kr k gSA mfpr i Fk pqfu,

¼ok; q i zfr j ks/k ux.; gS½

(A) 37°30°

u

(B) 37°30°

u

(C) 37°30°

u

(D) 37°30°

u

124. {kSfr t l s 30° ds vkur dks.k okys vkur r y i j , d

xsan vkur r y l s 60° ds dks.k i j 10 m/s ds osx ds

l kFk mi j dh vksj QSdh t kr h gSA vkur r y i j bl dh

i j kl gS&

(A) 10 m (B) 35 m

(C) 0 m (D) 310 m

125. , d i zs{kd t ks l eqnz r V ds i kl [ kMk gS] i zsf{kr dj r k gS fd

j ke 0.9 m/s i j i zokg ds foi j hr r Sj j gk gS r Fkk ' ; ke

1.5 m/s i j i zokg dh fn' kk es r Sj j gk gSA ; fn fLFkj i kuh

eas nksuks dk osx l eku gS] r c unh dk osx fdr uk gSA(A) 0.1 m/s (B) 0.2 m/s(C) 0.3 m/s (D) 0.4 m/s

126. , d r Sj kd T1 l e; esa b pkSMkbZ ds i zokfgr /kkj k i zokg dks

b/kj &m/kj i kj dj r k gSA i zokg ds foi j hr r Fkk i zokg dh

fn' kk esa l eku nwj h r ; dj us esa fy; k x; k l e; T2gSA ; fn

fLFkj i kuh esa r Sj kd } kj k 2b nwj h r d r Sj us esa fy; k x; k

l e; T3 gks] r c&(A) T3=T1+T2 (B) T1

2 = T2T3(C) T2

2 =T1T3 (D) T32=T1T2

127. , d l afpr cSVj h dks vkosf' kr (charging) dj us ds fy ,

12.5 oksYV dh oksYVr k ds pkt Zd (charger) l s t ksMk

t kr k gSA l afpr cSVj h dk vkUr fj d i zfr j ks/k 1gSA t c

vkosf' kr /kkj k 0.5 A gS] r c l afpr cSVj h dk fo-ok-cy gSA

(A) 13 oksYV (B) 12.5 oksYV

(C) 12 oksYV (D) 11.5 oksYV


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128. Under what condition current passing throughthe resistance R can be increased by shortcircuiting the battery of emf E2. The internalresistances of the two batteries are r1 and r2respectively.

(A) E2r1 > E1 (R + r2)(B) E1r2 > E2 (R + r1)(C) E2r2 > E1 (R + r2)(D) E1r1 > E2 (R + r1)

129. Two batteries one of the emf 3V, internalresistance 1 ohm and the other of emf 15 V,internal resistance 2 ohm are connected inseries with a resistance R as shown. If thepotential difference between a and b is zerothe resistance of R in ohm is

(A) 5 (B) 7(C) 3 (D) 1

130. The area of cross-section, length and densityof a piece of a metal of atomic weight 60gm are10–6 m2 , 1.0 m and 5 × 103 kg/m3 respectively,every atom contributes one free electron. (GivenAvogadro number = 6× 1023 / mol). Find thedrift velocity of electrons in the metal when thecurrent of 16 A passes through it.(A) 2 mm/s (B) 2 cm/s(C) 20 cm/s (D) None of these

131. In the circuit shown in figure reading ofvoltmeter is V1 when only S1 is closed,reading of voltmeter is V2 when only S2 isclosed. The reading of voltmeter is V3 whenboth S1 and S2 are closed then

(A) V2 > V1 > V3 (B) V3 > V2 > V1(C) V3 > V1 > V2 (D) V1 > V2 > V3

128. fdl ' kr Z ds v/khu i zfr j ks/k R l s xqt j us okyh /kkj k E2

fo-okgd cy dh cSVj h dks y?kq i fj i Fk } kj k c<k; h t k l dr hgSA nksuks cSVfj ; ks dk vkUr fj d i zfr j ks/k Øe' k% r1 r Fkk r2 gSA

(A) E2r1 > E1 (R + r2)(B) E1r2 > E2 (R + r1)(C) E2r2 > E1 (R + r2)(D) E1r1 > E2 (R + r1)

129. nks cSVfj ; k ft l esa , d dk fo-ok cy 3V, vkUr fj d

i zfr j ks/k 1 vkse r Fkk nwl j h dk fo-ok-cy 15 V, vkUr fj d

i zfr j ks/k 2 vkse gS] dks fp=kkuql kj R i zfr j ks/k ds l kFk Js.khØe

esa t ksMk t kr k gSA ; fn a r Fkk b ds e/; foHkokUr j ' kwU; gS

r ks R dk i zfr j ks/k vkse esa gSA

(A) 5 (B) 7(C) 3 (D) 1

130. 60gm i j ef.od Hkkj okys , d /kkr q ds VqdMs dk vuqi zLFk

dkV {ks=kQy] yEckbZ r Fkk ?kuRo Øe' k% 10–6 m2 , 1.0m r Fkk 5 × 103 kg/m3 gS] i zR; sd i j ek.kq , d eqDr

bysDVªkWu i znku dj r k gSA (fn; k x; k gS vkoksxknzks l a[ ; k =6× 1023 / mol), /kkr q esa bysDVªk¡uks dk vi ogu osx Kkr

dj ks t c bl esa l s gksdj 16A dh /kkj k xqt j r h gS&(A) 2 mm/s (B) 2 cm/s(C) 20 cm/s (D) bueas l s dksbZ ugh

131. fp=k esa n' kkZ; s i fj i Fk eas t c dsoy S1 can gS oksYVehVj

i kB~; kad V1 gS] t c dsoy S2 can gS oksYVehVj dk i kB~; kad

V2 gSA t c S1 r Fkk S2 nksuks can gS oksYVehVj dk i kB~; kadV3 gS r c&

(A) V2 > V1 > V3 (B) V3 > V2 > V1(C) V3 > V1 > V2 (D) V1 > V2 > V3


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132. One end of a Nichrome wire of length 2L andcross-sectional area A is attatched to an endof another Nichrome wire of length L and cross-sectional area 2A. If the free end of the longerwire is at an electric potential of 8.0 volts, andthe free end of the shorter wire is at an electricpotential of 1.0 volt, the potential at thejunction of the two wires is equal to(A) 2.4 V (B) 3.2 V(C) 4.5 V (D) 5.6 V

133. When electric bulbs of same power, but differentmarked voltage are connected in series acrossthe power line, their brightness will be :(A) proportional to their marked voltage(B) inversely proportional to their markedvoltage(C) proportional to the square of their markedvoltage(D) inversely proportional to the square oftheir marked voltage

134. Two bulbs rated (25 W – 220V) and (100W –220V) are connected in series to a 440 Vline. Which one is likely to fuse?(A) 25 W bulb (B) 100 W bulb(C) both bulbs (D) none

135. Rate of dissipation of Joule’s heat inresistance per unit volume is (symbols haveusual meaning)(A) E (B) J(C) J E (D) None

132. 2L yckabZ r Fkk A vuqi zLFk {ks=kQy okys , d ukbØkse r kj ds

,d fl j s dks L yckabZ r Fkk 2A vuqi zLFk dkV {ks=kQy okys , dnwl j s ukbØkse r kj ds , d fl j s l s t ksMk t kr k gSA ; fn yacs

r kj dk eqDr fl j k 8.0 oksYV ds fo| qr foHko i j gS r Fkk NksVs

r kj dk eqDr fl j k 1.0 oksYV ds fo| qr foHko i j gSA nksuks

r kj ks dh l af/k i j foHko fuEu ds cj kcj gS&(A) 2.4 V (B) 3.2 V(C) 4.5 V (D) 5.6 V

133. t c l eku ' kfDr fdUr q fHkUu&fHkUu fpfUgr oksYVr k okys

fo/kqr cYcks dks Js.khØe eas , d ' kfDr j s[ kk (Power line)ds fl j ks i j t ksMk t kr k gS] r c mudh nhIr r k gksxh&

(A) mudh fpfUgr oksYVr k ds l ekuqi kr h

(B) mudh fpfUgr oksYVr k ds O; qRØekuqi kr h

(C) mudh fpfUgr oksYVr k ds oxZ ds l ekuqi kr h

(D) mudh fpfUgr oksYVr k ds oxZ ds O; qRØekuqi kr h

134. fu/kkZfj r (25 W – 220V) r Fkk (100W – 220V) okysnks cYcks dks 440 V ykbZu l s Js.khØe eas t ksMk t kr k gSAfuEu esa l s fdl ds ¶; wt gksus dh l Hkkaouk gSA(A) 25 W cYc (B) 100 W cYc(C) nksuks cYc (D) dksbZ ugh

135. i zfr bdkbZ vk; r u okys i zfr j ks/k esa t wy dh m"ek dh vi O; ;

dh nj gS (l adsr ks ds l kekU; vFkZ gS)(A) E (B) J(C) J E (D) dksbZ ugh


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PART - III [CHEMISTRY]136. Match the column

Column-I Column-II

(A)

||

CH3

OH

C – O – CH – CH3

O

|

(p) Methylcyclopentylethanoate

(B) CH2 – COOCH3

(q) 1-Methyl ethyl-3-hydroxycyclohexane

-carboxylate

(C)

||

OHC

COOH

O

(r) 3-Carbamoylcyclo

- butanecarboxylic acid

(D)

||

HOOC

NH2

O

(s) 4-Formyl-2-oxocyclohexanecarbo

-xylic acid

(A) A q, B p, C s, D r

(B) A p, B q, C s, D r

(C) A s, B r, C p, D q

(D) None of these

137. IUPAC name of the compound

CH3

CH2 – CH3

is

(A) 4-Ethyl-3-methylcyclopent-1-ene

(B) 3-Ethyl-4-methylcyclopent-1-ene

(C) 1-Ethyl-2-methylcyclopent-4-ene

(D) 2-Ethyl-1-methylcyclopent-3-ene

136. Lr EHk l qesfyr dhft , &

Lr EHk-I Lr EHk-II

(A)

||

CH3

OH

C – O – CH – CH3

O

|

(p) esfFky

l kbDyksi sfUVy , Fksuks, V

(B)

CH2 – COOCH3

(q) 1-esfFky, sfFky-3-

gkbMªksDl hl kbDyksgsDl su-

dkcksZfDl ysV

(C)

||

OHC

COOH

O

(r) 3-dkcsZeks; yl kbDyks

-C; wVsu dkcksZfDl fyd vEy

(D)

||

HOOC

NH2

O

(s) 4-QksfeZy-2-

vkWDl ksl kbDyksgsDl su

dkcksZfDl fyd vEy

(A) A q, B p, C s, D r(B) A p, B q, C s, D r(C) A s, B r, C p, D q

(D) buesa l s dksbZ ugha

137.

CH3

CH2 – CH3; kSfxd dk IUPAC uke gS&

(A) 4-, fFky-3-esfFkyl kbDyksi sUV-1-bZu

(B) 3-, fFky-4-esfFkyl kbDyksi sUV-1-bZu

(C) 1-, fFky-2-esfFkyl kbDyksi sUV-4-bZu

(D) 2-, fFky-1-esfFkyl kbDyksi sUV-3-bZu


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138. Which is the incorrect IUPAC name of thecorresponding structures :

(A) H2N SO3H;

4-Aminobenzenesulphonic acid

(B)

COCH3

1-Phenylethanone

(C)

CCH

1-Ethylbenzene

(D)

NH2

NO2

NO2

2, 4-Dinitroaniline

139. The IUPAC name of which of the followingcompounds is not correct ?

Compound IUPAC name

(A) COOH cyclohexanoic acid

(B)

COOH

HOOC COOH 1,2,4-benzene

tricarboxylic acid

(C) 4-methylcyclohexane

carboxylic acid

(D) Br COOH 4-bromobenzene

carboxylic acid

138. l EcfU/kr l aj puk esa fdl dk IUPAC uke xyr gS:

(A) H2N SO3H;

4-, feukscsat hul YQksfud vEy

(B)

COCH3

1-QsfuybFksukWu

(C)

CCH

1-, fFkycsat hu

(D)

NH2

NO2

NO2

2, 4-MkbZukbVªks,uhfyu

139. dkSul k IUPAC uke l gh ugha gS ?

; kSfxd IUPAC uke

(A) COOH l kbDyksgsDl suksbZd vEy

(B)

COOH

HOOC COOH 1,2,4-csUt hu

VªkbZdkcksZfDl fyd vEy

(C) 4-esfFky l kbDyks gsDl su

dkcksZfDl fyd vEy

(D) Br COOH 4-czkseks csUt hu

dkcksZfDl fydvEy


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140. The IUPAC name of

Br

OH

CN is :

(A) 4-Bromo-3-cyanophenol(B) 2-Bromo-5-hydroxybenzonitrile(C) 2-Cyano-4-hydroxybromobenzene(D) 6-Bromo-3-hydroxy benzene carbonitrile

141. Write the correct IUPAC name of the followingbicyclic compound :

O

(A) 7,7-Dimethyl bicyclo [3.1.1] hept-3-en-2-one(B) 6,6-Di-methyl bicyclo [3.1.1] hept-3-en-2-one(C) 2,2-Dimethyl bicyclo [3.1.1] hept-5-ene-4-one(D) 5,5-Dimethyl bicyclo [3.1.1] hept-2-ene-1-one

142. The compound

C2H5

O

O O

has been named

in IUPAC as -(A) ethyl-2-oxocyclopentanecarboxylate(B) 1-oxo-2-carbethoxy cyclopentane(C) Carbethoxy cyclo pentanone(D) none of these

143. The IUPAC name of is -

(A) 2-formyl-3-hydroxy-4-methylenepentane(B) 4-formyl-2-methyl-1-penten-3-ol(C)3-hydroxy-2-methyl-4-methylenepentanal(D) 3-hydroxy-2, 4-dimethyl-4-pentenal

140.

Br

OH

CN dk IUPAC uke gS :

(A) 4-czkseks-3-l k; uksfQukWy

(B) 2-czkseks-5-gkbMªksDl hcsUt ksukbVªkby

(C) 2-l k; uks-4-gkbMªksDl hczksekscsUt hu

(D) 6-czkseks-3-gkbMªksDl h csUt hudkcksZukbVªkby

141. fuEu ckbl kbfDyd ; kSfxd dk l gh IUPAC uke fyf[ k, :

O

(A) 7,7-MkbZesfFky ckbl kbDyks [3.1.1] gsIV-3-bZu-

2-vksu

(B) 6,6-MkbZesfFky ckbl kbDyks [3.1.1] gsIV-3-bZu-2-

vksu

(C) 2,2-MkbZesfFky ckbl kbDyks [3.1.1] gsIV-5-bZu-4-

vksu

(D) 5,5-MkbZesfFky ckbl kbDyks [3.1.1] gsIV-2-bZu-1-

vksu

142. ; kSfxd

C2H5

O

O O

dk IUPAC uke gS -

(A) , sfFky-2-vkWDl ksl kbDyksi sUVsu dkcksZfDl ysV

(B) 1-vkWDl ks-2-dkcZ,FkkWDl h l kbDyksi sUVsu

(C) dkcZ, FkkWDl h l kbDyks i sUVsuksu

(D) bueas l s dksbZ ugha

143. dk IUPAC uke gS -

(A) 2-QkWfeZy-3-gkMªkWDl h-4-esfFkyhu i sUVsu

(B) 4-QkWfeZy-2-esfFky-1-i sUVhu-3-vkWy

(C) 3-gkbMªkWDl h-2-esfFky-4-esfFkyhu i sUVsuSy

(D) 3-gkbMªkWDl h-2, 4-MkbZesfFky-4-i sUVsuSy


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144. Write the correct IUPAC name of the followingspiro compound :

(A) Spiro [4.5] deca-1,7-di-ene(B) Spiro [4.5] deca-2,7-di-ene(C) Spiro [4.5] deca-1,6-di-ene(D) Spiro [4.5] nona-1,6-di-ene

145. The correct IUPAC name of the compoundis-

(A) 5,6-diethyl-8-methyl dec-6-ene(B) 5,6-diethyl -3-methyl dec -4-ene(C) 6-butyl-5-ethyl-3-methyl-oct-4-ene(D) 2,4,5-triethyl-3-ene

146. IUPAC name of the compound is

CH3 N C CH CH2 3

CH3

CH3 CH CH2 3

(A) 3-dimethyl amino-3-methyl pentane(B) 3-(N,N-trimethyl) 3 - amino pentane(C) 3, N, N -trimethyl pentane(D) 3–(N, N-dimethyl amino)-3-methylpentane

147. The IUPAC name of compound

CH –C–OH|C|CH – COOH

2

2

O||

OHCOOH

(A) 1,2,3-tricarboxy-2-propanol(B) 2-hydroxy propane-1,2,3 tricarboxylicacid(C) 3-hydroxy-3-Carboxy, 1,5-pentane dioicacid(D) None

144. fuEu Li kbj ks ; kSfxd dk l gh IUPAC uke fyf[ k, :

(A) Li kbj ks [4.5] Msdk-1,7-MkbZ-bZu

(B) Li kbj ks [4.5] Msdk-2,7-MkbZ-bZu

(C) Li kbj ks [4.5] Msdk-1,6-MkbZ-bZu

(D) Li kbj ks [4.5] uksuk-1,6-MkbZ-bZu

145. ; kSfxd dk l gh IUPAC uke gS&

(A) 5,6-Mkb, fFky-8-esfFky Msd-6-bZu

(B) 5,6-Mkb, fFky-3-esfFky Msd-4-bZu

(C) 6-C; wfVy-5-, fFky-3-esfFky-vkWDV-4-bZu

(D) 2,4,5-Vªkb, fFky-3-bZu

146. ; kSfxd dk IUPAC uke gS&

323

323

3

CHCHCH||

CHCHCNCH|CH

(A) 3-MkbesfFky , ehuks-3-esfFky i sUVsu

(B) 3(N,N-VªkbesfFky) 3 - , feuks i sUVsu

(C) 3, N, N -VªkbesfFky i sUVsu

(D) 3-¼N,N- MkbesfFky , ehuksa½&3-esfFky i sUVsu

147. ; kSfxd dk IUPAC uke

CH –C–OH|C|CH – COOH

2

2

O||

OHCOOH

gS

(A) 1,2,3-VªkbZdkcksZDl h-2-i zksi sukWy

(B) 2-gkbMªksDl h i zksi su-1,2,3 VªkbZdkcksZDl ksfyd vEy

(C) 3-gkbMªksDl h-3-dkcksZDl h, 1,5-i sUVsu MkbZvkWbZd vEy

(D) dksbZ ugh


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148. CH3 – O – C

O

– CH2 – COOH

The correct systematic name of the abovecompound is :(A) 2-acetoxy ethanoic acid(B) 2-methoxy carbonyl ethanoic acid(C) 3-methoxy formyl ethanoic acid(D) 2-methoxy formyl acetic acid

149. Which of the following is not correctlymatched:(A) Acetonitrile CH2 = CHCN(B) Allyl chloride CH2 = CH – CH2Cl(C) s-Butyl group CH3–CH–C2H5

(D) Ethylene chloride CH2Cl –CH2Cl

150. Choose the correctly matched pair from thecodes given below :(1) 2-Octanone (A) CH3(CH2)5COCH3

(2) Trimethyl amine (B) (CH3)3C–NH2

(3) Acrolein (C) CH2 = CH – CN(4) Vinyl acetylene (D) CH2 = CH – C CHCode is :(A) 1 and 4 (B) 2 and 3(C) 2 and 4 (D) 1 and 3

151. To which of the following species octet ruleis not applicable ?

(A) 5BrF (B) 6SF

(C) 7F (D) All of these

152. The possible structure of monothiocarbonateion is :

(A)

C

OS

O(B)

C

OS

O

(C)

S

OC

O(D)

148. CH3 – O – C

O

– CH2 – COOH

mi j ksDr ; kSfxd dk O; ofLFkr uke gS

(A) 2-, l hVksDl h , sFksuksbd vEy

(B) 2-feFkksDl h dkcksZfuy , Fkksuksbd vEy

(C) 3-feFkksDl h QkfeZy , Fksuksbd vEy

(D) 2-feFkksDl h QkfeZy , l hfVd vEy

149. fuEu esa l s dkSul k l qesfyr ugh gS :

(A) , l hVksukbVªkbZy CH2 = CHCN

(B) , fyy Dyksj kbM CH2 = CH – CH2Cl

(C) s-C; qfVy l ewg CH3–CH–C2H5

(D) , fFkyhu Dyksj kbM CH2Cl –CH2Cl

150. uhps fn; s x; s dwV l s l gh l qesfyr ; qXe dk p; u dj ks :

(1) 2-vkWDVsukWu (A) CH3(CH2)5COCH3

(2) VªkbZesfFky , ehu (B) (CH3)3C–NH2

(3) , Øksyhu (C) CH2 = CH – CN

(4) okbfuy , fl Vhyhu (D) CH2 = CH – C CH

dwV gS :

(A) 1 r Fkk 4 (B) 2 r Fkk 3

(C) 2 r Fkk 4 (D) 1 r Fkk 3

151. fuEu esa l s fdl i zt kfr esa v"Vd fu; e ykxw ugha gksr k gSa \

(A) 5BrF (B) 6SF

(C) 7F (D) mi j ksDr l Hkh

152. eksuksFkk; ksdkcksZusV vk; u dh l aHkkfor l aj puk fuEu gS %

(A)

C

OS

O(B)

C

OS

O

(C)

S

OC

O(D)


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153. The number of geometrical isomers foroctahedral [Co(NH3)2Cl4]–, square planarAuCl2Br2

– are :

(A) 4, 2 (B) 2, 2

(C) 3, 2 (D) 2, 3

154. Of the following complex ions, one exhibitsisomerism. That is :

(A) [Ag(NH3)2]+ (B) [Co(NH3)5NO2]2+

(C) [Pt(en)Cl2] (D) [Co(NH3)5Cl]2+

155. When H2O2 is added to an acidified solutionof K2Cr2O7 :

(A) solution turns green due to formation ofCr2O3

(B) solution turns yellow due to formation ofK2CrO4

(C) a blue coloured compound CrO(O2)2 isformed

(D) solution gives green ppt of Cr(OH)3

156. Ammonium dichromate is used in some fireworks. The green coloured powder blown inthe air is

(A) CrO3 (B) Cr2O3

(C) Cr (D) CrO (O2)

157. In the purification of aluminium by Hoope’sprocess, impurities of silicon and copper areadded to molten aluminium in order to :

(A) make the melt conducting(B) lower the melting point of the melt

(C) smooth deposit of aluminium(D) make the melt heavier

158. In Van Arkel method, if I2 is introduced at1800 K over impure zirconium metal, theproduct will be :

(A) iodide of the metal

(B) pure metal

(C) impurities react with iodine

(D) none of these

153. v"VQydh; [Co(NH3)2Cl4]– l er y oxkZdkj AuCl2Br2–

ds fy, T; kfefr ; l eko; oh; ksa dh l a[ ; k Øe' k% gSa %

(A) 4, 2 (B) 2, 2

(C) 3, 2 (D) 2, 3

154. fuEu l adqy vk; uksa esa l s , d l eko; or k n' kkZr k gSA og gS %

(A) [Ag(NH3)2]+ (B) [Co(NH3)5NO2]2+

(C) [Pt(en)Cl2] (D) [Co(NH3)5Cl]2+

155. t c K2Cr2O7 ds vEyhdr foy; u esa H2O2 dks Mkyk t kr k

gS] r ks

(A) Cr2O3 ds fuekZ.k ds dkj .k foy; u gj k gks t kr k gSA

(B) K2CrO4 ds fuekZ.k ds dkj .k foy; u i hyk gks t kr k gSA

(C) , d uhyss j ax dk ; kSfxd CrO(O2)2 cur k gSA

(D) foy; u Cr(OH)3 dk gj k vo{ksi nsr k gSA

156. veksfu; e MkbØksesV dk mi ; ksx dqN vkfr ' kckt h; ksa esa gksr k

gSA gj s j ax dk pw.kZ t ks gok esa mM+r k gS] og gS %

(A) CrO3 (B) Cr2O3

(C) Cr (D) CrO (O2)

157. gwi çØe } kj k , syqfefu; e ds ' kqf) dj .k esa] fl fydkWu vkSj

dkWi j dh v' kqf) ; ksa dks xfyr , syqfefu; e esa feyk; k t kr k gS%

(A) xfyr dks pkyd cukus ds fy ,

(B) xfyr dk xyukad de dj us ds fy ,

(C) , yqfefu; e dks vkl kuh l s fu{ksfi r dj us ds fy ,

(D) xfyr dks Hkkj h cukus ds fy ,

158. oku vkj dsy fof/k esa 1800 K i j v' kq} t +dkZsfu; e /kkr q i j

I2 feykus i j mRi kn gksxk %

(A) /kkr q dk vk; ksMkbM

(B) ' kq) /kkr q

(C) v' kqf) ; ka vk; ksMhu l s fØ; k dj sxha

(D) buesa l s dksbZ ugh


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159. Which does not react with water ?

(A) B2S3 (B) B4C(C) Al4C3 (D) Al2S3

160. KClO3 + H2SO4 KHSO4 + HClO4 + (X) +H2O

In above unbalanced chemical equation, theproduct (X) may be :

(A) O2 (B) Cl2(C) ClO2 (D) HCl

161. Select incorrect statement :

(A) ClO2 and Cl2O are used as bleachingagents for paper pulp and textiles.

(B) OCl– (hypohalites) salts are used asdetergent.

(C) OCl– disproportionates in alkaline medium.

(D) BrO3– is oxidised to Br2 by Br– in acidic

medium.

162. Which of the following statement is wrong ?

(A) Vander Waal’s radius of iodine is morethan its covalent radius.

(B) All isoelectronic ions belong to sameperiod of the periodic table.

(C) I.E(I) of N is higher than that of O whileI.E(II) of O is higher than that of N.

(D) The electron affinity of N is less thanthat of P.

163. Which one of the following statements iscorrect ?

(A) The elements like F, Cl, Br, O etc havinghigh values of electron affinity act as strongoxidising agent.

(B) The elements having low values ofionisation energies act as strong reducingagent.

(C) The formation of S2–(g) is an endothermicprocess.

(D) All of these.

159. fuEu esa l s dkSu t y ds l kFk fØ; k ugha dj r k gS \

(A) B2S3 (B) B4C(C) Al4C3 (D) Al2S3

160. KClO3 + H2SO4 KHSO4 + HClO4 + (X) +H2O

mi j ksDr vl ar qfyr j kl k; fud l ehdj .k esa] mRi kn (X) gks

l dr k gS %

(A) O2 (B) Cl2(C) ClO2 (D) HCl

161. vl R; dFku dk p; u dhft , %

(A) ClO2 r Fkk Cl2O dk mi ; ksx dkxt dh yqxnh vkSj

di M+k m| ksx esa foj t ad vfHkdeZd ds : i esa fd; k t kr k gSaA

(B) OCl– ¼gkbi ksgSykbV~l ½ yo.k fMVt sZUV ds : i esa mi ; ksx

gksr s gSA

(C) OCl– dk {kkjh; ek/; e esa fo"kekuqi kr hdj .k gks t kr k gSA

(D) vEyh; ek/; e esa BrO3–, Br– } kj k Br2 esa vkWDl hd r

gks t kr k gSA

162. fuEu esa l s dkSul k dFku vl R; gSa\

(A) vk; ksfMu dh okUMjokWYl f=kT; k bl dh l gl a; kst h f=kT; k

l s vf/kd gksr h gSaA

(B) l Hkh l ebysDVªkWfud vk; u vkor Z l kj .kh ds , d gh

vkor Z l s l acaf/kr gksr s gSaA

(C) N dk I.E(I), O l s vf/kd gksr k gSa t cfd O dk

I.E(II), N l s vf/kd gksr k gSaA

(D) N dh bysDVªkWu ca/kqr k P l s de gksr h gSaA

163. fuEu esa l s dkSul k dFku l gh gSA

(A) F, Cl, Br, O vkfn r Roksa dh bysDVªkWu ca/kqr k dk eku

mPp gksr k gS vkSj ; s i zcy vkWDl hdkj d vfHkdeZd dh Hkkafr

O; ogkj i znf' kZr dj r s gSaA

(B) os r Ro ft uesa vk; uu Åt kZ dk eku de gksr k gS] os

i zcy vi pk; d vfHkdeZd dh Hkkafr O; ogkj i znf' kZr dj r s gSaA

(C) S2–(g) dk fuekZ.k Å"ek' kks"kh i zØe gSA

(D) mi j ksDr l Hkh


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164. Sodium carbonate on heating gives :

(A) CO2

(B) water vapours

(C) carbon dioxide + water vapour

(D) none of these

165. BeF2 is soluble in water, whereas, the fluoridesof other alkaline earth metals are insolublebecause of :

(A) ionic nature of BeF2

(B) greater hydration energy of Be2+ ion ascompared to lattice energy

(C) covalent nature of BeF2

(D) none of these

166. If uncertainty in position and momentum areequal, then uncertainty in velocity is ?

(A)hπ

(B) 1 h

2m π

(C) h2π

(D) 1 hm π

167. The measurement of the electron position isassociated with an uncertainty in momentum,which is equal to 1× 10–18 g cm s–1 . theuncertainty in electron velocity is : (mass ofelectron = 9×10–28g)

(A) 1 × 1011 cm s–1

(B) 1 × 109 cm s–1

(C) 1 × 106 cm s–1

(D) 1 × 105 cm s–1

168. The dissociation equilibrium of a gas AB2 can

be represented as : 2AB2(g) 2AB(g) +

B2 (g). The degree of dissociation is 'x' and issmall compared to 1. The expression relatingthe degree of dissociation (x) with equilibriumconstant KP and total pressure P is :

(A) (2KP/P)1/3 (B) (2KP/P)1/2

(C) (KP/P) (D) (2KP/P)

164. l ksfM; e dkcksZusV xeZ dj us i j nsr k gS %

(A) CO2

(B) t yok"i

(C) dkcZuMkbvkWDl kbM + t yok"i

(D) dksbZ ugha

165. BeF2 t y esa foys; gS] t cfd vU; {kkj h; enk /kkr qvksa ds

¶yksj kbM v?kqyu' khy gSa \ D; ksafd %

(A) BeF2 vk; fud i zd fr dk gSA

(B) Be2+ dh t kyd Åt kZ dh r qyuk esa t y; kst u Åt kZ

vf/kd gksr h gSA

(C) BeF2 l gl a; kst d i zd fr dk gSA

(D) buessa l s dksbZ ughaA

166. ; fn fLFkfr r Fkk l aosx esa vfuf' pr r k l eku gS r ks osx esa

vfuf' pr r k gskxh ?

(A)hπ

(B) 1 h

2m π

(C) h2π

(D) 1 hm π

167. bysDVªkWu dh fLFkfr dk eki u l aosx esa vfuf' pr r k ds l kFk

t qM+k gksr k gS t ks 1× 10–18 g cm s–1 ds l eku gS r ks

bysDVªkWu ds osx esa vfuf' pr r k gksxh &

(bysDVªkWu dk nzO; eku = 9×10–28g)

(A) 1 × 1011 cm s–1

(B) 1 × 109 cm s–1

(C) 1 × 106 cm s–1

(D) 1 × 105 cm s–1

168. xSl AB2 dk fo; kst u l kE; fuEu i zdkj n' kkZ; k t k l dr k gS

2AB2(g) 2AB(g) + B2 (g)

fo; kst u dh ek=kk 'x' gS r Fkk 1 dh r qyuk esa de gSA fo; kst u

dh ek=kk (x) dk l kE; fLFkj kad KP r Fkk dqy nkc P ds l kFk

l EcU/k fuEu gS :

(A) (2KP/P)1/3 (B) (2KP/P)1/2

(C) (KP/P) (D) (2KP/P)


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169. The value of equilibrium constant of the

reaction. HI (g) ½ H2(g) + ½ I2 is 8.0

The equilibrium constant of the reaction

H2(g) + I2(g) 2HI (g) will be :

(A) 164

(B) 16

(C) 18

(D) 1

16

170. How much amount of CuSO4.5H2O requiredfor liberation of 2.54 g I2 when titrated withKI(A) 2.5 gm (B) 4.99 gm(C) 2.4 gm (D) 1.2 gm

171. When Cl2 gas reacts with hot andconcentrated sodium hydroxide solution, theoxidation number of chlorine changes from :(A) Zero to –1 and zero to +3(B) Zero to +1 and zero to –3(C) Zero to +1 and zero to –5(D) Zero to –1 and zero to +5

172. For a spontaneous process the correctstatement is –(A) Entropy of the system always increase(B) Free energy of the system alwaysincreases(C) Total entropy change is always negative(D) Total entropy change is always positive

173. The enthalpy change (H) for the reaction,N2(g) + 3H2(g) 2NH2(g) is –92.38 kJ at298 K,. The internal energy change U at298 K is(A) –92.38 kJ (B) –87.42 kJ(C) –97.34 kJ (D) –89.9 kJ

174. What is the [OH–] in the final solution preparedby mixing 20.0 mL of 0.050 M HCl With 30.0mL of 0.10 M Ba(OH)2 ?(A) 0.12 M (B) 0.10 M(C) 0.40 M (D) 0.0050 M

169. vfHkfØ; k HI(g) ½ H2(g) + ½ I2 ds l kE;

voLFkk fLFkj kad dk eku 8.0 gSA

vfHkfØ; k H2(g) + I2(g) 2HI (g) dk l kE;

voLFkk fLFkj kad gksxk :

(A) 164

(B) 16

(C) 18

(D) 1

16

170. CuSO4.5H2O dh fdr uh ek=kk dks KI ds l kFk vuqekfi r

dj us i j 2.54 g I2 eqDr gksxh %&

(A) 2.5 gm (B) 4.99 gm(C) 2.4 gm (D) 1.2 gm

171. t c Cl2 xSl xeZ r Fkk l kUnz l ksfM+; e gkbMªksDl kbM+ foy; u

ds l kFk fØ; k dj r h gS r ks Dyksj hu dk vkWDl hdj .k vad

i fj ofr Zr gksr k gS

(A) ' kwU; l s –1 esa r Fkk ' kwU; l s +3 esa

(B) ' kwU; l s +1 esa r Fkk ' kwU; l s –3 esa

(C) ' kwU; l s +1 esa r Fkk ' kwU; l s –5 esa

(D) ' kwU; l s –1 esa r Fkk ' kwU; l s +5 esa

172. , d Lor % i zØe ds fy, l gha dFku gS –

(A) fudk; dh , UVªksi h ges' kk c<+r h gS

(B) fudk; dh eqDr Åt kZ ges' kk c<+r h gS

(C) dqy , UVªksi h i fj or Zu ges' kk _ .kkRed gksr k gS

(D) dqy , UVªksi h i fj or Zu ges' kk /kukRed gksr k gS

173. vfHkfØ; k N2(g) + 3H2(g) 2NH2(g) ds fy,

,UFkSYi h i fj or Zu (H) dk eku 298 K i j –92.38 kJ gSA

vkUr fj d Åt kZ i fj or Zu U dk eku 298 K i j gksxk %&

(A) –92.38 kJ (B) –87.42 kJ(C) –97.34 kJ (D) –89.9 kJ

174. foy; u dh [OH–] dk eku D; k gksxk ft l s 20.0 mL,

0.050 M HCl r Fkk 30.0 mL, 0.10 M Ba(OH)2 dks

feykdj cuk; k t kr k gS ?

(A) 0.12 M (B) 0.10 M(C) 0.40 M (D) 0.0050 M


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175. If pH of a saturated solution of Ba(OH)2 is12, the value of its K(sp) is : –

(A) 5.00 × 10–7 M3 (B) 4.00 × 10–6 M3

(C) 4.00 × 10–7 M3 (D) 5.00 × 10–6 M3

176. 1.0 g of magnesium is burnt with 0.56 g O2 ina closed vessel. Which reactant is left inexcess and how much ?

(At. wt. Mg = 24 ; O = 16)

(A) Mg, 0.16 g (B) O2, 0.16 g

(C) mg, 0.44 g (D) O2, 0.28 g

177. For an endothermic reaction, energy ofactivation is Ea and enthalpy of reaction isH (both of these in kJ/mol). Minimum valueof Ea will be : –

(A) Equal to zero (B) Less than H

(C) Equal to H (D) More than H

178. The freezing point depression constant forwater is –1.86°C m–1. If 5.00 g Na2SO4 isdissolved in 45.0 H2O, the freezing point ischanged by –3.82°C. Calculate the van't Hofffactor for Na2SO4

(A) 2.05 (B) 2.63

(C) 3.11 (D) 0.381

179. The number of octahedral void(s) per atompresent in a cubic-close-packed structure is :

(A) 2 (B) 4

(C) 1 (D) 3

180. Limiting molar conductance of H+ and CH3COO–

ions are 344 and 40 respectively. Molarconductance of 0.008 M CH3COOH is 48. Whatwill be the value of Ka for CH3COOH : –

(A) 1.4 × 10–5 (B) 1.2 × 10–5

(C) 1.4 × 10–4 (D) 1 × 10–5

175. ; fn Ba(OH)2 ds l kUr fj r foy; u dh pH dk eku 12 gS

r ks bl dh K(sp) dk eku gksxk &

(A) 5.00 × 10–7 M3 (B) 4.00 × 10–6 M3

(C) 4.00 × 10–7 M3 (D) 5.00 × 10–6 M3

176. 1.0 g, esfXuf' k; e dks , d can i k=k esa 0.56 g O2 ds l kFk

t yk; k t kr k gSA dkSul k vfHkdkj d vkf/kD; esa cpsxk vkSj

fdr uk \

(i j ek.kq Hkkj Mg = 24 ; O = 16)

(A) Mg, 0.16 g (B) O2, 0.16 g

(C) mg, 0.44 g (D) O2, 0.28 g

177. , d Å"ek' kks"kh vfHkfØ; k ds fy , l fØ; .k Åt kZ Ea r Fkk

vfHkfØ; k dh ,UFksYi h H (bu nksuksa ds fy, kJ/mol esa) gSA

Ea dk U; wur e eku gksxk %&

(A) ' kwU; ds cj kcj (B) H l s de

(C) H ds cj kcj (D) H l s vf/kd

178. t y dk fgekad voueu fLFkj kad –1.86°C m–1 gSA ; fn

5.00 g Na2SO4 dks 45.0 H2O esa ?kksyk t kr k gS] r ks

fgekad –3.82°C l s i fj ofr Zr gks t kr k gSA Na2SO4 ds

fy; s okWUV gkWQ xq.kkad dh x.kuk dhft ; sA

(A) 2.05 (B) 2.63

(C) 3.11 (D) 0.381

179. ?kuh; fufcM+ l adqfyr l aj puk (ccp structure) esa mi fLFkr

i zfr i j ek.kq v"VQydh; fj Dr LFkkuksa dh l a[ ; k gS %&

(A) 2 (B) 4

(C) 1 (D) 3

180. H+ r Fkk CH3COO– vk; uks dh l hekUr eksyj pkydr k

Øe' k% 344 r Fkk 40 gSA 0.008 M CH3COOH dh eksyj

pkydr k 48 gSA r ks Ka dk eku CH3COOH ds fy, D; k

gksxk –

(A) 1.4 × 10–5 (B) 1.2 × 10–5

(C) 1.4 × 10–4 (D) 1 × 10–5


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