þśƓǗ !¯,© ϸ¯CϹ μκμμ Ǟâǒ
R E T I N L R E A D %N E %P OE D -N NIN O ONI I AT T A A Z CSI UAN D A %$G R F2O O Y(G R N T I S T T I S N N E E I T -MR E YPI O BL M DE E EVR HEP S$D I L E B E N ACI T R A S UT E S SOU S I E S !2L F 4 E .NS AD YMN C A NUT E(N G F A !O I L G E NYR R I F T T L S S E I E N S 4I LS A U NSO OA M I T O A NN .WO EOT HNU 4KA About NTA
CK GI E NM I E T ES C O UDT DAS NCT OAN CEE FH TD O U R YO T S T F I L Y OR IST B T 5YN I S TU N#I O NO PSUC SETE I R T E IO H R S T ERPS HEPS V O T O I HN R WC T 5OA I WLD A NS DR I T EN 5 W# T S E UEL R#G S T E E NI N T EHIS S T I L NL AR EA E EV ERD I BO IN SFV S A O5 T RL HS P A E R T LT !E L I 4C N WE .N A 4# YR %E CT H NN5T EE#F GE O !T Y GA N NU A D I T A N S R I E G 4R N LE I O A D S N NNO S O5 I I I S M T ES A D EA HS .T CUET – Common University Entrance Test
S N N T O O N I I S S AS S R II I P MM SD D A A EAR HRO 4OF F N E S I5 DT OE # L -L U S E 4"T I NI "O S #I R T E TAV S I MN E R 4O 5 DF L NA E) R S T A EN "H E T# RO E T TD U E RR PE I FS ME E ORD #YE S AHE NM I T FM D ETOM S T SA E C R UTEG DEMO NHMR OT 0 CRAE R O G EF T A BROU LARD L IEPA E WPT R PAG 'AUE R ODD 5T A E N R 4R G 5 I R %S E E 5ED H #DN T O EO5T HHON 4WT I Mode of Examination
S N O I T C E 3 G N I W O L L O F E H T F O T S I S N O C L L I W n ' 5 4 % 5 # Examination Structure for CUET (UG):
Section II -
Section III
DS! EU4 S AB. A BL LNE T SYOI NS 1SE B #NV E IW -OG
S E T S U H NCC T NCI lE A I A I J C -EME B ROP U O$ 33 F
NRD AOE CFS S T AN D X EEBO T I S T TU 1S U E PE#U NB -1 )
CUET(UG) Domain Subject (Section II) Paper Pattern
S N O D I T E S T E F U PO M E 1B ET T U T OA O T
50
SES I SN H OI CT OA lRH I E ME C EDCOL B PNY$A SUA C S S M I E D L I NE P T E P I I RT A S E A A R MF F D EE I OO V I $ DFHN T G N NAOY5 I B C M E Y EB!UDT R I S MES R A T N IS I R C OX EE E R V TAEI JI D E C B HU EMSN 5 4S 3AA
Six (06)
I-5
45
40
27
Section II Domain
T S E 4 L A R E N E ' Section IB
S T C E J B U 3 C I F I C E P S N I A M O $
S E G A U G N A , Section IA
S E G A U G N A ,
! 8 % ' 5 4 % 5 # 4 5 / " !
I-6
Type of Questions in Domain Subject (Section II) Paper Pattern (analysed from Sample Paper provided by NTA)
N O I T R E S S ! I
S N O I T S E U 1 G N I N O S A E 2
S 1 #
S 1 #
S N O I T S E U 1 E N O L A D N A T 3
S N O I T S E U 1 D E S A B T N E M E T A T 3 I I
S 1 #
S N O I T S E U 1 D E S A B E L B A 4 I
S N O I T S E U 1 G N I W O L L O F E H T H C T A I I
S 1 #
S N O I T S E U 1 D E S A " E S A # I
H C A E S 1 # H T I W S 1
S N O I T S E U 1 D E S A " T X E 4 I I
200 F O T U O D E T P M E T T A E B O T S N O I T S E U 1
50
40 Total
Total Marks Number of MCQs Typology of MCQs
ƴʼnʼnâþƓǖ !¯,© ϸ¯CϹ μκμμ Note:
There will be one Question Paper which will have 50 questions out of which 40 questions need to be attempted.
PHYSICS-322
TS N U I O O U PN I OT WN TO NC E ED WN TA E E BL P EC I CN R I OR F P nN WI O AI T L S SO P B R ME OP L U U S O #S E G N R OA I T H A VC R E L E P S I NT OL CU RM I E N HE T E DW NTN AEO B I SST E U GEB C R I R A R T HOS CFI D CSE I E R GG T R R C A A EH L H % CC UNIT I: ELECTROSTATICS
E L O P I D C I R T C ED L L E E I F S E C I NR I T L C DL E L E E I F M CR I O R T F I C N EU L E A EN GI R E A L HO CP I TD N I A O N PO AE OU T Q R EO UT D E L DO L E P I I F D CA I R O T T C EE L U E D DD L L E E I I F F CC I I R R T T C C EE L L % E
Y OL T M ER UO DF I DN L U E I F D DN NA I F T E OE T H SS NE ON I T A A L CP I L E P T PI AN I SF E T N D I I I S D D T NE U AG O R MAD N EHA C R O E Y EL D HM I T S N SRI O F S D I S L UNE I AUF 'E L L RE FI O WH T S N TL EHA GI C MI R AE ER T TH A S T P S GS N XNI O UL H L T F Y D CLE E I T R G I T R N C I A EF H L NC % I EM L O E T PS I D Y S AA EF GO R Y A G HR CE N TE N I L O A I PT D ANE L EI OT T OF EPI C ULT A DAT LCS I A R O I T T R C T N EC EE L E T L O EE PH N CTA I SN R T E C CI EA S L FL E E R O UP ES CL I NA D IC ET R I NR E ET F F T C I O E D L P E LU I A I D QN T N E A ES T E S O GE PR G LAR A HA I H C T C N F EO T T N O MI PEO TP CS I YO R T S W C DT EN L F % AO
FHN R TA OOI T NW6 C O UI RR DT OT O NATI ONIC CICA A B PP AMA A O C ECCA E DET I N A S H L I NT P I D ELE SC E R E L O GNL A T A R R S T A I A Y HC G CAPR PAE DA NCFN O UDEE ON S CE BA NT AL A DST NRI P AOCE T A I PH C SA T A E PCN GA E R CEE A H HNTW CO T LE IEB ET L L EA A R ZR M F I A R U PI A SL D R O NE OP I T DM A C L N I C U R AI ST R R T NC S O C E I E T L E I A L R DEE E R N I E ADSDN N NTE SAIU G R O OSSH F C R F I T OT R A C T T IA I UC WR C DL EA NE D' P OI E AND #$C A
Y D)T N I V A6I T YES C T I I NS C E OAR T L S L E I A VS C E TR I F R I T LC R A DC E L I RR E OT R T C C EE UL W DEO N P OWD A CL N CS A I Y L L MG A T HR E E M/N E T AN L A NEC R I I R SU R T E C GCE R CL A I E R HT CC R CEA L I E E R N T I H C L T EI L N E WO FNN O OD I WT N OL AA L F ER ERA HRE N I T I E Y L TH T I N T SV EDI C I T R TC N R S UAR IU C D YEN T CT I ICO R L A C I T R B C D A EOH N L MCA %
UNIT II: CURRENT ELECTRICITY
F O S N O I T A N I B M O C L E L L A R A P D N A S E I R E S S R E OC T S N I A S T E S R I S NE OR BF RO A E CC RN OE F ED DN OE CP RE UD E OR L U O T CA R SE R OP T M S I E S T E R S R NO OT BI S RS A E #R
I-7
F O N O I T A N I B M O C L L E C A F O F M E D N A E C N E R E F F I D L A I T N E T O P L L E CL E AL L FA O R EA CP NN AI T D S I N S A E R S LE A I R NE RS E T N N I I S EL L HE 4C E G D I R B E R T E M E G D I R B E N O T S T A E H 7 S N O I T A C I L P P A E L P M I S D N A S W A L S F F O H H C R I +
R O F D N A E C N EL L R E E C F F I A D F LO A I E T C N N EA T T O S PS I E ER R UL SA A N R EE MT N OI T F SO NT ON I E T A M CE I L R P U PS AA DE NM AS L L EE L C P I O C NW I T R PF O nF RM E E T E G MN I OR I A T N P EM T O O 0C N O I T A C I L P P A S T I D N A W A L T R A V A 3 T O I " T N E M I R E P X E S D E T S R P E O /O L DR L E A I L F U CC I R T I E C NG GN AI MY R ER HA T C FT O N TE P R ER CU NC OO #T
LN A O DR I O T O RL OC T Y D# N AS D TL H E I GF I A C R I R T T S C E EL R E I WD N TA H GC I I A T E R T N S G GA N OM L M YR L E O T F I I N N I U F N N I I OE T G SR NA OH I C T A G CN I I L V P PO AM SA T I N DO NE AC R WO A& L SS D E I R O E N PE L MO !S Y NDT EEI ECI V NT WE I TI S E RN BE E EPS CXT E R N OEE F R U R EQ U HR C 4O S 4T D I n L E E R I R F E E CPT I T ME E M NAO GFN AOA MNV L OA MIG T RI N L OI I F FO I E C N UDG R AnNE I NSVT R O I E O RT M M OC T T UD L C O L UDE V DNI D NOFN C OCI TA CGE NN R GI E NY GT I R AE Y R R MM A R C M A A CTN NIA TE O N ERPT R R N UOO O R UCLS I T LN CE R AL E LEV R NAR N ORU O EACC CPAD O R OWYN &T BA
C ERRI L A A T O BE B P N I EL EG D L CO OA I PPM T I I E NDDD CI I GI CO AT TN MEEE N L EGNO G HAA S 4 T MMN T A E A N L ET ONA V ME OI OU U E Q MDUE Q T S ET YR NN L O I O S 4AE PN S M I S E A D E I T L T X CN E I E A I T N C E DT SG I NL T GEIAE I O AF MN T G CR MI RA TA A SE L T BM I U N D DGI CD N NAD L E A A I N F E D E L L C N P O E I I PORT F E R E I T PN D C C I CE DGE T I L T NAN E E AMG NGS GI NIMA X AV M R A ML O S O F SI AVT H I N EG SR T UR A A PANA% O OFL NS OOA I L TTTE T N N N I EEEEL N N M R D GGL R UOAAI E #MMMF S R O T C A F D N A S T E N G A M O R T C E L % S E L P M A X E H T S I T WE N SG E CA NM AT T N S E BN UA SM CR I T E E 0 N GS AH T MG ON RE R R E T F S DI R NE AH T AG I D N I T C AE R F A F 0A Y D D % W A , S Z N E , T N E R R U C D N A F M E D E C U D N I W A L E SC Y N AA DT AC R U A D &N I N L OA I U TT C UU DM N I D CN I A T E F NL GE A3 MS T ON RE T R C R EU L % C
DE NC AN EA CN NO S AE T C R A ET I R U C E RR GI E AC T SM L E O R VIO R F E S T S N N A E2R R #T R U,D C N GYA L NN R I T O OT A A NTR N RE E E N T ME L A TG A FE O # R ET ! UE L T VN A I VT E AR ST R IU ML RAC DUS S NQE AS L T KN T AO A EI PTW A L S L SI T T I C N U S EO C R R R I U#C , C # GE ! NC I NN T AI A NDR REE E PW T L MO ! IP
S C I T S I R E T C A R A H C R I S E E HV T A DW NC AT I E SN E VG AA WM O CT R I T C E E NL GE AF MO E OR RU T C T EA L N % E S R T N E EV R S R N UA CR 4 T N EL Y MN EO CS AA L E P D SI I D E V RT I OA F T I L DA EU EQ .
S Y A R X T E L O I V A R T L U E L B I S I V D E R S A E R S F U N I R I SE E VH AT T WU OO RB C I A MS T SC E A VF AY WR A OT I N D AE R M E ME L UG RN T C I ED PU SC L CN I T I E NS GY AA MR OA RM T C M EA L % G
L N N S A O O NEI I RST S N A R E E T E N L N I P I B S SM LE I A D C T OD O AC T F N TRSA U H SNN GL E O I L I L A T FI CAC O A RFR NEOF OHRE I P T 2 SE C ATWR O R A O PR F E N R 2ONI I OM C T I A T L A A A U R CD I MFF N REI A N ORG S F S N REAE OR-L B RI A R FA I F MLLO U A CMN SI O R TRI OP OA T RO F R N I SI S MN R B E LI OK M A AO CT A I MC R C T I E M L SCS HP A N I PP T R E SA N L P O TSAC A H T L GIU H N I D I G L M U S FNR E O A O O S R N F NH ON E S T O I L N TI T T N C E H I ECL G E H L I N F L T L F I E FO F E H 2R O T
UNIT VI: OPTICS
' 5 4 % 5 # 3 5 " ! , , 9 3
I-8
UNIT III: MAGNETIC EFFECTS OF CURRENT AND MAGNETISM
UNIT IV: ELECTROMAGNETIC INDUCTION AND ALTERNATING CURRENTS
UNIT V: ELECTROMAGNETIC WAVES
' 5 4 % 5 # 3 5 " ! , , 9 3
I-9
E S I R N U S T A N U S E H T F O E C N A R A E P P A H S I D D E R D N A Y K S E H T F O R U O L O C E U L B n T H G I L F O T GE NS I N R U E S T T D A CN 3A
F O N O I T C E R R O C N O I T A D O M M O C C A D NS E AS N NE OL I T G A N MI RS OU F A EI GP AO R MT IE EM YR EE NP AY MH D UN (A A S I T P N O EY MM U RS T S T NC I E LE F A CD I T E P Y /E I N G A M R I E H T D N A G N I T C A R F E R D N A G N I T C E L F E R S E P O C S E L E T L A C I M O N O R T S A D N A S SR E PE OW CO S P OG RN C I I Y -F -
E N A L P F O N O I T C A R F E R D N A N O I T C E L F E R E L P I C N I R S PT N S O NR EF GE YV UA (W G DN NI AS U TE N C OA RF F R E VU AS 7E N L A S C P I T A P T OA EE VV AA 7W
E L P I C N I R P S N E G Y U ( G N I S U N O I T C A R F E R D N A N O I T C E L F E R F O S W A L F O F O O R 0
T N E R E H O C H T D I W E G N I R F R O F N O I S S E R P X E D N A T N T EH MI G IL R F E PO XE EC N EE L O R HF E ER L E B T UN OI DD E SN G I NA T US OU 9S ED C NN EA R S E E F C R R E U T O N S ) M U M I X A M L A R T N E C F O H T D I W T I L S E L G N I S A O T E U D N O I T C A R F F I $
E N A L P N O I T A S S I R D I A L O O R A 0L O S 0 E PD ON CA S E T L H E G T I LL A D CE I S MR I OA NL OO RP T E S A N A DL NP AF SO E S PE OS CU S OW RA C L I S M R FT E O S RW E E WR O" P T EH HG T I L GD NE I S V I L R O SA L E O 2P N O I T A U Q E C I R T C E L E O T O H P S N I E T S N I % S N O I T A V R E S B O S D R A N E , D N A Z T T R H E G (I L TF C O EE F F R E U CA T I R N T C E EL L C E I T OR T A O HP 0n UNIT VII: DUAL NATURE OF MATTER AND RADIATION
ID R E E PN I XA EL RP E X ME E RB E 'D L NU OO SH S S I V N AO I $S U L N C ON I T O A C L E E R H ET I Y L L G N OO R "D E ET DT I SM E O L C E I B T R D A L PU FO O H ES R S L UI T A A T NE D EL VA AT N WE M SI E R VE AP WX E R E T T N T A E -M -
YS GE R P E O NT EO S LI E DS E OS MS RA HM OC "I M MO T OA T A S FU O E LL E C DU ON MF SO D E RI Z OS F R D E N HA T U N 2O I T T I N S EO MP IM R E O P# X EM GU NR I T R C E E T T P A CSS S NE EEN L G C O OT I T R O R DS A I PY H S R A S A L HE B PV O L EI S ! L UNIT VIII: ATOMS AND NUCLEI
S CT AI OD I N D AA R N O S E E L I C T U R E PN OR RE PP Y RG I E R HE T N DE NG AN I N SDO N Y I I AB S R U F T S C D E EN L F C A I E T DN R A O SI PS S S AAI MMF R MNA OL E AI GA TC U DL NEN R AY R E GB AR T E E BNM EU ASN HS S S PAA L A M WH YA T T I I LW V Y I T A N C C O AE I T OD A I I D ER AV A IV 2T -
R NERFO O E ODN T S CO E I A C I D L :I L T M I S C I ESE S A R S DE O I OT DBI D C NED AN ASRR A R E A SEN H N V R OEECOH : I R T C T A N T A DDO L I R U N NI UW T S GS NAACI A D I L FA L RE RNS SA CO OA R OWRTCR S R T A I O R C L O S T E O UFS N S T I T D AI N S R NI ET N MA OSD C CI ORER TION4 D S T O YI OS R L I M2 T S E N O T N OC M/ HA APR O. SR TCD A EA$N N DH RA % O I C E ,II T E F $ FCI V L N O I . P T UM S* ! A C T E I I A. L DT R A S N 4 UOIOA I R T / QD E A S. L T RC A U SO A G DT R ER$ O I C L A R T . U O S SDHES I ! G NCA NO N I TA2 L R SC / DI OT R V NME R S E I AS E O A F T T B I S SI A T SC A G YR S E GO NC E R R T I AG DR E A C OT NUSI O %DA DA,
UNIT IX: ELECTRONIC DEVICES
I-V
-
I-V
H N CGO I EAT EMA POL ST RU D SC L EO A L M NE GFR I SOO FNF O D OE I HT E T A. D G I WAN DPO I NOT ARA E B0G V A A YMPW L U O N I RD ODP E T MEEA VU L AMA R N D G OWO AS I I EM D SC KIAE CMPD OSSU L N DT B AN I L R MTAP EFYM O T KA S HS Y N T S A E D NI R F E OWH O I D T N A NPO S CA I I OT B N C ME U T T AAE MT MAED ODHD CLTN AANA I T FISN G O E I O VI SD T T DAC N ENWU CD MAI O TR E6E L % 4N0
UNIT X: COMMUNICATION SYSTEMS
-
!śŒƌĊŒƌǖ
% ' ! 0
About CUET (UG) 2022 Exam
I-5 Syllabus CUET (UG) 2022
I-7
1.1 D L E I & S E G R A H # C I R T C E L % Chapter 1
Chapter 3
Y T I C I R T C E L % T N E R R U #
3.1
Chapter 4
M S I T E N G A D N A S E G R A H # G N I V O -
4.1
Chapter 5
R E T T A D N A M S I T E N G A -
5.1
Chapter 6
N O I T C U D N ) C I T E N G A M O R T C E L %
6.1
Chapter 7
T N E R R U # G N I T A N R E T L !
7.1
Chapter 8
S E V A 7 C I T E N G A M O R T C E L %
8.1
Chapter 9
S C I T P / Y A 2
9.1
Chapter 10
S C I T P / E V A 7
10.1
Chapter 11
R E T T A D N A N O I T A I D A 2 F O E R U T A . L A U $
I-11
11.1
2.1 E C N A T I C A P A # L A I T N E T O 0 S C I T A T S O R T C E L % Chapter 2
3 4 . % 4 . / #
I-12
% ' ! 0
Chapter 13
I E L C U .
Chapter 14
S T I U C R I # E L P M I 3 D N A S E C I V E $ S L A I R E T A S C I N O R T C E L % R O T C U D N O C I M E 3
14.1
13.1
12.1 M O T ! Chapter 12
Mock Test-1
M.1 Mock Test-2
M.7
DUAL NATURE OF RADIATION AND MATTER
O R E Z S I N O T O H P F O S S A M T E .
T H G I L F O Y T I S N E T N )
G N I T C E L F E R Y L T C E F R E P S I E N C O A I T F A I R D A U 3 &R
G N I B R O S B A Y L T C E F R E P S I E N C O A I T F A I R D A U 3 &R 2Ι C
Ι C
EE R C I A U F QR L EUA R S T LE NA M OT T EF O HMO P N O FMI O O T RC YF N GNU R O F E RK NT R EC EO MLW E UTS C A ME IJ N N EW I MTO S UN EJ K HO S 4T I
iP
C NEI OLR RBC T A T T C E I EU L L E S E FO FO O T O NNH OP OT I T OS C EHA P J E N F FO W O O NNN OOK I T NP ER S I MO OS NBY C EAN HOE T PT UC QE EEE F HUR F 4DF E
Vac
− V0
GS NA I N D NW OO PN SK E R S R I OL CA NT OE M T O HFY POC N FNE O OU I YT Q CC E NNR EUF UFD QKO L ER R H OS F E EWR HOH 4T T
11.1
i3 (Saturation current)
H T G N E L E V A W R O
N O T O H P F O S S A M E V I T C E F F %
Energy E Power = = Area ( time ) A ( t ) A =
E hν h = = C C λ
!
0 N O T O H P F O M U T N E M O -
Note o
6 E
V H %
Radiation force
Q
E h = C2 Cλ
m=
hc 12400 = λ λ
O
Y C N E U Q E R F F O N O T O H P F O Y G R E N %
A QUICK REVIEW
11 CHAPTER
F F O T U C
L A I T N E T O P G EN I HP T P O T S
F )
)
Ι2
Photoelectric current
Stopping potential (V0)
N W O N K SN I O TT N O EH R P R UN T CE OD T I O C HN PI F FO O H WT OG L N F E EE L HV T PA OW T R S TO S Y UC J N OE T U LQ A I E T R N F EN T O O PD N ME UP ME ID N T I ) ML A FI O T N EE DT UO T P I N F GF AO T MU EC HS 4A i.e.
E M I T E TS I N A E UR NC I N I AL EI L R A W TT I N N E UR R NU OC GO NT I O L L H A F P NE OC T N O E HH PD FN O A O E S .A E R C N NI OL L T I O HW PN O FR O T C YE T I L S E ND EE T T N C I E EJ S E A F EO R C O N. I EN WE H FT ) K.E. = hν − φ
F O Y G R E N E E H 4E S N A OE T R O C HN PI L FI L O W HN T O G R NT EC L E E L VE AD WE T EC HJ E T E EF S O A EY R G C R EE DN RE OE YC CN NE EH UD QN EA R E F S EA E HR T C EN S I A L EI L R W C NN I O ET WO H FP )
Ι1
Stopping potential
Ι1
Q Frequency (v)
v0
− V01 − V02 − V01 0 Collector plate potential Retarding potential
N O I T C N U F K R O W
EINSTEIN PHOTOELECTRIC RELATION N O T O H P F O Y G R E N % N O R T C E L E D E T C E J E F O Y G R E N E C I T E N I +
V1
S A N W O N K S I L A T E M N O R T C E L E E N O Y L N O H T I W T C A R E T N I N O T O H P E N O T C E F F E C I R T C E L E O T O H P N )
V3 > V2 > V1
Ι 3 > Ι 2 > Ι1
Photcurrent
F O N O I T C N U F K R O W O T G N I D N O P S E R R O C N O T O H H PT FG O N E HE L T G V NA EW L E VD AL O D L WH O H S S E E ER R H HH T 4T
Photelectric current
Intensity of light
0 Collector plate potential Retarding potential
− V0
Saturation current V2
V3
intensity of photon saturation current will increase but will remain same
we increase potential
hC work function
O
D L O H S E R H T
work function h
Q
3 # ) 3 9 ( 0
11.2
2 % 4 4 ! $ . ! . / ) 4 ! ) $ ! 2 & / % 2 5 4 ! . , ! 5 $
6 Q % E L C I T R A P D E G R A H # R O &
0 N O I T O M C I T S I V I T A L E R N O N R O &
O 3
E R E H 7
T N A T S N O C K N A L P H
E L C I T R A P F O S S A M M
E L C I T R A P F O Y G R E N E C I T E N I + %
E L C I T R A P N O E G R A H C Q
D E V O M S I E L C I T R A P D E G R A H C H C I H W S S O R C A E C N E R E F F I D L A I T N E T O P 6 D
L A I T N E T O P T L O V 6 S S O R C A D E V O M N O R T C E L E R O &
Y T I L A U D E L C I T R A P E V A W W O H S T N E M I R E P X E R E M R E ' N O S S I V A $
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#
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[CPMT 1996]
3.
E V A W R E T T A M F O H T G N E L E V A 7
PHOTOELECTRIC EFFECT
V
A. 12.27
λ=
F F O T U C
E H T E S T A U EB R C E ES DA E R C N I L L I W
D E T A I C O S S A E B O S L A N A C E R U T A N E V A W T A H T S E T A T S E V A W R E T T A M E FL O C I T SR I S A E P HC T I O P PO YC HS O ER I L C G OI RM "H T EI $W
H Z C (I H 7 E S T CC IA LF E A R RR T UO E MSC S S T AI I S R T ONN O F SE YL M CL E NAT EFA U±T Q S E G R N F I D W L O O L H O L SFF E O R E TH HH 4G T IF , O
O
1.
h h h = = p 2mE 2mqV λ=
2mE
f
2.
E W F )
h p
O
wavelength of photon potential saturation current will remain same
increase the frequency stopping potential
11.3
= 6.62 × 10 −34 J-s
MULTIPLE CHOICE QUESTIONS (MCQs)
6 E "
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17.
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[CPMT 1997; CPMT 1999]
[BHU 2005]
18.
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E C A F S R I UT SI ER VO R K I C H I F T I O W Y S " D C N EN L A I S E E H OU . # T Q OE HR " $ PF FD O L O NH N OS O I E T S C R M N N H UT O A F E H K KH 4 I L R 4 L I O * 6 W * EE ! # H 4 S I
-
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14.
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u
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5.
[BHU 1997]
12.
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! N O T O H P R O F E U R T S I G N I W O L L O F E H T F O H C I H 7
[BHU 1995] 7.
hc E= λ
E= E 2v p=
1 E = mu2 2
1 eV 1840 4.
3 # ) 3 9 ( 0
11.4
2 % 4 4 ! $ . ! . / ) 4 ! ) $ ! 2 & / % 2 5 4 ! . , ! 5 $
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SEE I HP 64A C E S ME NE H * * N O T P I T O HT C N T S G O UNT F E KLD E RV E OA R " $ W I WU FFQ O E O S R I ETL S CHA G N AI I T O * FL N R R UHET T C T SI L E WOL A P E * D T G E EN O M T T I A O D I H ! # !DRP A A T R F E R O R I S T I 6 E S I 6 6 L E E A T E M E AB L FI L " $ O W NH OT I T G C N NE L UE FV 6 6 KA E E R OW W D L EO HH S ! # 4E R H T O R E Z G N I V A H ± ± R O F L A I T " $ N E T T O N PR E R GU NC I D N RO ± ± AR T E T C R E L E H E O T ! # 4O H P 32.
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[BHU 2003]
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ENE DOH AT R4 MC E6 L SE I Dn 6E ET F TO I L A YMI E GETB N R E E E L HT L NT I O W ENP L FEGA O HNT T IE NLP APM OT T OF ET O HMSO P AN AYO AN I BC T NODN ETE U HN PF EPK 7D OR I T C S O NI SW I E V A W F O T H G ± ± I L F O N O T " $ O H P A F O S YI GM ± R N ± E N E E HH T ! # 4G N E L
[CPMT 1973] 25.
u
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KG RN I OP WP O DT NS AF 6O EE U L A SV I NE OT H T O N HE PH FT O Y6E GEB R E L L N I ESW I E A L N HO I T T I N T FC ) E NT UO FP
34.
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[BHU 1997]
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23
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O
! # N O T O H P A F O H T G N H C E C H L E V " $ A W E T S A I M6 IE X O R C P H PY AG H ER HE N ! # 4E F O O
S I H T G N E L E V A W F O N O T O H P A F O Y G R E N EY EB HN 4E V I G 21.
28.
O [CPMT 1974; CPMT 1992; BHU 2000] O
20.
11.5
[AIIMS 1998]
T N E R R U C C I R T C E L E O T O H P F O T N U O M !
T N T H G E I D L I T C N N E I D F I O C N Y I T F I S O N E E 6 L T G N N I L A A E I E H T H T N T E N N T O O O P P P U U G S S N D D I P N N P E ET O P PH T E EG S I E $ $L H 4 ! "
$
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#
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$
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-
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C E L E O T O H P F O Y G R E N E C I T E N I K M U M S IN X AO R -T "
D
1 λ D
D DO
D N A
D E C U D E R E B L L I W L A I T N E T O P G N I P P O T 3 !
[BHU 1998]
[BHU 2000]
41.
1 λ D D
D D
S I S L I A T F T H I E G N L M I L A O TT C R A I N R C F E L T E O A C D L C E I E N I C L O R O N E T T I I T C O O C EH E T L N H L U P E T A F O C F FO I O T K N L A R YN A C O O C H W I NS I C T EI S E P / - E UM H Q T EE R F F O # $ ) EN HS T I
E C A F R U S E H T F O N O I T C N U F K R O 7
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36.
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50.
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[BHU 2003]
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6. 5. 4. 3. 2. 1.
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ANSWERS
89. Assertion :
85. Assertion :
Reason :
86. Assertion :
[AIIMS 2001] Reason :
E L C I T R A P A E K I L S E V A H E B N O T O H P E H 4 N O M E D T C E F F E T CH I G R I T L C F EO L E E OR T U O T HA 0N E V A W E H T S E T A R T S [AIIMS 2004]
Reason :
Reason :
88. Assertion :
-
84. Assertion : :
[AIIMS 1997] [AIIMS 2005]
S I L A T E M A F O L L YA T I M V I S T I S S I NN EO S I OT T C O N HU 0F K R O W S T I F I H G I H M U T N E M C O M% D N AP %Y B D YE GT R A E L NE ER EE HR 4A N O T O H P A F O P
87. Assertion :
RR E O PF E: YL GH I R G E N NWI S E:A G E NGR N I C I D S N NA I I EH B R T I ICW N E I L C S H E UT S NI A YWE VSR AEC ESE HAD E T RR I OC I E &I NL C NU ON ET L C H UG I NL
Reason :
[AIIMS 2001]
Reason :
83. Assertion :
Reason :
Reason :
3 # ) 3 9 ( 0
11.10
Tan Print's Physics for NTA CUET (UG) 2022 AUTHOR
: Ashvini Shukla
DATE OF PUBLICATION : MAY 2022 EDITION ISBN NO NO. OF PAGES BINDING TYPE
: : : :
2022 9789394186682 290 PAPERBACK
Rs. : 395
| USD : 36
Description This book intends to cater to the principal needs of all the students preparing for the Common University Entrance Test (CUET) at the Undergraduate Level in the Physics Domain. This book contains the practice material in a highly student-friendly and thorough manner. The Present Publication is the Latest 2022 Edition, authored by Ashvini Shukla, with the following noteworthy features:
·
[As per the Latest Syllabus] released by the National Testing Agency (NTA)
· ·
[Chapter-wise/Topic-wise MCQs] with hints and answers [Chapter-wise Video Solutions via QR Codes] for conceptual understanding
·
[Chapter-wise' Mind Maps/Quick Review'] for complete revision of concepts
·
[Mock Tests based on Official Mock Test Pattern] are provided in the book to gauge the students' knowledge & understanding. It also enables the students to get acquainted with the pattern of examination before appearing for the final exam
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