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NORTH ~AHARASHTRA ONIVERSITY,JALGAONI,,--------~--------------------------------------- i\
I'LBo, ( PHYSICS)
Seme",te;"-R~ dl~trlbyt1OD Q.! CQurce9 :::.(a.e,f, June,19R3l
aom.. I
PHY 101
PHY 102PHY 103
PHY 104
PHY 105
B.em... ; ~ II
PHY 201
PHY 202
PHY 203
PHY 2104
\i. PHY 205
.5..e.m.... ;- III
PHY 301
Methods of Mathematical PhysicsQuantum MechanicsClassical Mechanics
Electronics ( Nave-shaping and Circuit design )General Laboratory - I
Statistical ~lecllanic5
Solid State Phy",ic5Electr"dynamic.'l
General Laborutory - II
Jltouic end M"l,~cular Plwsic5
PHY 3102
PHY 303 II
PHY 303 B
PHY 303 C
PHY '04~,PHY 305
!!ok
PJlysic5 of Semiconductol' Devices
Nicrowave Electronics
Lasers and their applications
Special Laboratory - I
Project \
At end of the IIIrd Sem. assessment of PRYfor the first half (out of 20 marks)to the University office.
305must
Project Coursebe submitted
S"ll'~ : - IV
PRY 401 Nuclear PhysicsPHY 402 Microprocessor
A.n..\,:.QlUl. Q.f the. ro] J Qui OFt ( CQUr56 I'llY .tiU )
PRY 41213A
PRY 41213E
PRY 41213C
PRY 41214
PRY 4121~
Radio communication and T.V. systemVacuum technology and thin film physicsSolar energySpecial Laboratory - IIProject,
,
NORTH MARARASHTRA UNIVERSITY,JALGAONM.Se. (PHYSICS) PRY 301
Atom'C and. Molecular Physic"
( W.e.f. from June, 1993)1> A!.Qmmodel ~ :!:Jm valence electrons ,
11 COupling, 53 coupling, LS coupling, Pauli exclusion principle,coupling Bchemes for two electrons, factors for LS coupling, Landeinterval rule, jj coupling branching rule, selection rule, intensityrelations. Magnetic moment of the atom,Zeeman effect,intensity rules,calculation of Zeeman pattern. Paschen back effect LS and jJ
coupling and Paschen baok effect, Breits scheme for derivation ofspectral terms, Faulis exclUsion principle. ( lil Periods. l.a. ~ )Complex spectra
Displacement law, alteration law of multiplicities, vector model forthree more valence electrons, Land~ interval rule, inverted terms,Hund's,rule.
Zeeman effect and magnetic quantum numbers in complex spectramagnetic energy and Lande g factor, Paschen back effect in complexspectrl'l,
3> Hyperfine structure :( a Periods. 1Z mk4 )
.,I~~
Introduction, hyperfine structure and Lande interva! rule, nuclearinteraction with one valence electron, hyperfine atruction of two ormore valence electrons, Zeeman effect in hyperfine structure, Ba.ckGoudsmit effect in hyperfine structure, ( .e.Periods. a mkA.)
4> fw:a Rotation Spectra:
Rotation of a linear system (classical and quantum mechanlcal) ,rigidrotator, rotational energy levels. and tbeir populations, interactionof radiation with rotating molecules, rotational spectra of rigidrotators, selection rule,!!for linear molecules, determination ofmoment of inertia and bond length from rotational spectra, relativeintensities of spectral lines, Stark effect in molecular rotationalspectra, molecular rotation-nuclear spin coupling.
( 1 Periods, 12 mka )
"
\
5> Vibrational Spectra :
Vibrations of a single particle, vibrations of two particles
connected by a spl'ing (classical), Harmonic oscillator, vibrational
energies of diatomic molecules, interaction of radiation with
vibrating molecules, vibrational spectra of diatomic molecules,
anharmonic oscillator, deduction of molecular properties from
vibrational spectra of diatomic molecules.
6> Rotation-Vibration Spectra:( ~ PeriodJ:!,.f!. mG. )
Diatomic vibrating rotator coupling of rotation and vibration,
rotation-vibration spectra, selection rules and transitions for the
vibrating rotator, intensities in rotation and vibration spectrum,
Parallel and perpendicular bands of Linear molecules, Isotope effect-vibration, rotation.
7> Electronic Spectra QL Diatomic Molecules:( ~ Periods, .f!. mG. )
Electronic energy, potential energy curves, stable and unstable
molecular states, vibrational structure of electronic transitions,
general formula, graphical representation,isotope effect. rotational
structure of electronic spectra, the b~anches of band, band head
formation, shading of bands: Fortrat diagram, isotope effeot,
intensities in electronic bands-vibrational structure-Fanck condon
principle, obsorption and emission, Intensity dilltribution in the
rotational structure, 1. ~_ t~transition.
( 1 Periods, 12 ~ )REFERENCES ,
1. Atomic Spectra - White
2. Introduction to Molecular Spectroscopy - C.M.Barrow
Mc Graw Hill, International Edition
( Em:. topi os 4.. .tQ. .6. )
3. Spectra of diatomic molecules
( Em:. topj Q 1 )
4. Atomic structure and chemical bondMc Graw Hill
- Hersberg
- Manas Chanda
,
NORTH MAHARASTRA UNIVERSITY, JALGAONM,Sc(PHYSrCS) ( W.e.f. from June, 1993)
PHY 3"2
NUMERICAL METHODS A.IiD. COMPOTER PROGRAMMINQ
i,COMPUTER PROGRAMMING:A) FOBTRAN-77: Charactor set Constants,Variables, Expressioms(Arithmatic5, Relational and Logical 1, Assignment statements, Input
5tatement, output statement,c(mtrol st.atements( GOTO, If, DOLoops)
1..12. periods)
B) Subprogramme : -~ONCTION. SUBROuTINE Subprogram, Common statemetequlvalanic statemt.2,NUHRRICAL METHODS IN FORTRAN:
i 'L periods,)
In the following topic on numerical methods, students are expected to beable to write programs, subprogrsms or programs segments as well ••perform numerical calculations using electronics calculators andmathematical tables.
a)Inerative methods for solution of Algebric equations-Derivation of formula for successive Bisection, Newton Rapson methodRegula false and their comparison. 1 .G.periods)b) Integration - Traperoidal, simpson 1/3. Simpson 3/8 Rules DErivationand Applications.
c) Interpolation'-Linear interpolation, Langrages Interpolation.
~Cd) Solution of Simulataneous equation
1..i periods)
Guass Elimination methodpivoting all conditioned equations in Guass-Seidal Iterative method.
L ~ periods)REFERENCE BOOK,
i.Programming with FORTRAN - Lipsehuts (Seaum series,MC Graw Hill pub)2. Computer Programming in FORTRAN-77 .- Devil!,. Computer programming in FORTRAN-77 Ramkumar•• Computer progl"amming in FORTRAN-77 V. RaJaraman5. Computer oriented numerical metllos V. RaJarsmall
•• Introductory metllOds of NumericalAnalysis • S.S. Salltry.*********####11'#####11*************
•
NOTRH MAHARASHTRA UNIVERSITY,JALGAONM.Sc. ( PHYSICS) PHY 3~3 A
Phygicg Q.f Semiconductor Device!'!
(W,e,f. from June, 1993)
1> Intrcductlon :l& Semicondutors :
Types of semiconductors-Elemental compounds, properties of
Silicon,Germanium and Galium arsenide Semiuconductors, Direct indirect
semiconductors, charge carrierS Mobility and Majority carriers, Excess
car1'"ie1'"sand life time, Diff'lsion of carriers' and Eisteins 1'"elation
Int1'"insic somiconductors and position of Fen"i' level, degene1'"ate and
non degemerate semiconducto1'"s carrier concentration in,non degenerate
and degenerate cases,current transport internal fielded to non uniform
2> Measurement ~ Electrical Parameters ~ Semiconductors :
Resistivity (Four Prcbe method ) Mobility, carrier-concentration,-~.doping. ( li1Period:!. Z'! Illb. )
carried types, by Hall effct Hayne-Shockly experiment for measurement
of mobility of minority carries.
3> Semiconductor Diodes
( .6.Peri ods, 1.2..mU. )
Tunnel diode, degenerate semi-conductor, principle of
operations, circuit applications.Varactors diode, capacitance of p- n juncticn, Princple of operation,
equivalent circuit application, rectifierdiodes dependance of cur~ent
and voltage specifications, switching dicdes.Zener diodes- reverse bias breakdcwn Avalenche and Zener breakdown,
device designfor particular breakdown voltage.
4> Bipolar Junction Transisters ,
( 1 Periods, ~ mkA )
Ebers Moll Rxpressions switching characteristics, transient and
A.C.conditions secondary.5> Field Effect TranSJstors
( i PeriodS, S.mk.:l.)
Metal semiconductor, FET metal Insulatol', semiconductor, Ideal MOS
\
capacitor ,surface fieldeffect transistors.
6> ~ Blectronic Devices:
Solar cells photodetectors
( ! Periods. S.~ )
( i Periods. a mk.:l.)
7> POBer SemlcopdOctor Deyices :
General considerations SCR,diac,Triac,power
transistors.
REFERENCES :1. Solid state Electronic devices( Prentice Hall of India) a ci Edition.2. Semiconductor.5 and Electronic devices( Prentice Hall of India) ~ ad Edition,
3. Introduction to,Semiconductor devices4. PhY.5ics of Semiconductor devices
( Wyley Eastern, Ltd.),
( ~ Periods .•. W. mkA )
•
- B.G.Streetman
- div Bar Lov
Lindmyor & WringteyS.M.Sze
**********##########**********
~--,
NORTH MAHARASTRA UNIVERSITY , JALGAON
M,Sc(PHYSICS (W.e.f'. from June, 1993)
MICROWAVE ELECTRONICSL. ELECTROMAGNETIC FILED AIilliiAYE.EQUATIONS;
Intruduction to microwave f'reqencies. Coparison betweeen Radio
and microwave frequency aspects. Electron motion in electric, magnetic
and electromagnet.ic field. Electric and magnetic wave equations,
Uniform plane wave. Plane WaVe propagation in free space poor conductor
good conductor. Boulldry condi tions. Plan wave reflection normal incidenceonly. Pointing theorem. .L W perio~ .za Marks)
~ MICROWAYE TRANSMISSION Ll1Ui AND WAYEGUIDE;
Transmission line equation and their solution-open and terminated
ratio..':')~I
transmission lines. Line
coefficient,transmissioll
impedences. Line
coeficient.5tandingadmittance.wave
reflactionSmi th
chart. Single stub matching double stube matching.
Wave duides;-Rectangular,circular,Rectangular waveguides solutions of
wave equation in rectangular co-ordinates TE and TM modea inrectangular waveguide power transmission. Power losses and e~citation
modes in rectangular waveguid. i W periods, ~ marksl
3 MICROWAVE COMPONENTS,Rectangular cavity resonator circular cavity resonator of cavity
/1',resonator, '\a.i~ magic tee
re-ontract caities, E-flame (Series tee) H-plane (Shunt fee),
(Hubrid tee) wave guide COrnera bends and twists Direectional
conplers, two hole difectional oouplers, Mocrowave circulars isolators,
Hybrid couplers,
4 MICROWAVE GENERATORS,.L a perlods, 12 marks)
Klystrons, Velocity modulation, bumching process, output power and beam
loading efficienty of klysteren.Reflax Klystron Velocity modulation. Power output efficiency eleetonio
admittallCe,Travelling wave Tube,Construction operation.
Microwave tran5istors:P~inciple, operation microwav~ charecteristics,
current gain cutoff frequency, power gain
Varactor diode: Principle, opearation use of varector diode for
frequency multiplication.
microwave Tunnel diode, principle of operation, microwave .field effect
Transistors. FETS,JFSTS,MESFETS principle of operation microwavecharactoristics,drain current out off frequency.
L a Period, 14 markQl
REFBRE;JCE BOKKS:
1. Foundation of microwave engineering
2. Introduction to microwaves3. Introduction to microwave
4. Microwave semiconductor devicesand their circuit application.
5. Microwave circuits and elements
6. Electromagnetic fields and waves7. Microwave
8. Electronic communication
Collin R, E.
AtwaterWheeler
Wataon
M.L.Sisodia
Jorden
K.C.Gupta,Sangeeva Gupta
**************~~~###~###************
'~------~--------------~---.....,, ,- NORTH MAHARASHTRA UNIVERSITY, JALGAON
M,Sc(PHYSICS)
PHY 303 C ( W.e.f. from June, 1993)Laser ,ud Tlleir Apo]j catlon
1. Characteristics of Laser ligllt. Light waves, monochromaticity,Directionality, Brightness, Interference, the laser speekly pattern,Coherence, polari<:atioll.
2... ~ L,u.er En.~ -'-The Active medium. the automaticbasis fpr
laser action LasClr Pllmping, creating a population inversion Optical
Feedback the Laser resonator.3. The Laser output and its modification, Ab'5orption and emissionlineshape,Brocade!loing lssermodes Optical resollance, pump rate, gain
oscillations, power output ,gain saturation. Selection of lal'!er
emission linesintrE.c~nity elements. Q-switclling and mode locking.L Laser expNfitlonCTvpe cl LMer)
Gas la5ers, Doped-In~ulator Lasers, Semiconductor lasers, Dye lasers,
extending the range. Design features and operating charecteristics.5..-- Application cl Laser:-1Brlef review) Holography.
civil engineering, medicine and surgery, High power laser application A
power primer, material processing, laser Fusion.
REFERENCE BOOKS:-
1. An Introduction to lasers and their applications D C 0 shea,
W-Russell and W.T. Rhodes(1977) Addisioo-Wesley Pyble.Col.
2. Laser Application to optic3 and sepectroscopy. Vol. 1, II,S.F.
Jaco Bs. M. Sargent at. a1. (1973).
3. Laser Application- Ed. _Monte Roa3, Vol. III (1977).
By Academic pre33.
NORTH MAHARASHTRA UNIVERSITY, JALGAON
M.Sc. (Physics) PHY 304
List of experiments ( W.e.f from June, 1993)
Special Lab.- I~ ~ Ai least BlX eXperiments ~ ~ groypGrollp Ii:
i) Wave shaping circuits.ii) Inst.rumentation amplifier.iii) PAM, PWM, PPM using Ie _ 555.iv) S M P S of 5 Volt and 1 Amp.v) Inductance Simulation.vi) Phase detection using PLL.vii) Optocoupler Ilsing IC -741,LED and Phototransistor.viii) DC to DC Converter.ix) Programmable UJT Oscillator.x) Study of filters.( band reject and Notch filter)xi) To study the performance of microwave components.xii) To study horn alltenna characteristics.xiii) Susceptibility of HnSO-4 by using Guoy's method.xiv) To study Fraunhoffer diffraction by He-Ne laser.xv) Tc determine the pumping speed of rota.l'ypump.
, xvi) Study of phase diagrams by direct cooling curves.\.? xvii) Study of dielectric behaviour 01'BaTiO-3 sample.GrQUP B:
i) Shift register IC ~ 7495.ii) UPjDOWN counter IC - 74192.iii) Digital multiplexing (,F~l and F-2 generated by timer IC-555.)iv) Conver$ion of temperature to digital signal using temperature
transducer (AD 590) and 8-bit ADC.v) Half and Full substractor.vi) 1 ; 10 line multiplexing.vii) Study of J-K master slave flip-flop.viii) Design, build and test a code converter circuit.ix) To study tlle parity generation (odd and even) and parity
checking using proper circuit.x) To study core-loss in transformer.xi) To study Klystron characteristics.xii) Thin film deposition by evaporation method.xiii) Measurement of thickness of thin film,xiv) study of power distribution within laser beam and determine
the laser beam quality.xv) Study of flat-plate collector_xvi) Measurements of Ultrasonic velocity in liquids.xvii) Study of the dispersion relation for the monoatomic lattice
and diatomic lattice.
mass
NORTH MAHARASHTRA UNIVERSITY, JALGAON
M,Sc, (PHYSICS) PRY 401
Nuclear Physics
( W,e,f, from June, 1993)1> Nuclear Stnlcture :
Nuclear masses and binding energies,Defination of seperation energy,
Basic principles of mass spectroGcoPY, Neir's and Robert's
spectroscopes, Bainbridge'n and Jordon's mass spectroscopes.
Size of the nucleus, det,ermillation of l'adius by electron scatteringmethod and by Coloumb energy difference method.
Nucleaur angular momentum and magnetic dipole moments, Electric
quadrupole moment [classical derivation only),Quadrupole interactionenergy , (a Periods, .2-'l lII&l)
")\,. 2> ~ Nuclear IRQ -Body Problem
The Deuteron, ground state of the deuteron (Simple theory).
Nucleon-Nucleon Scattering: Phase shift analysis, scattering length,
effective range, Coherent scattering by hydrogen molecule (Ortho and
para hydrogen) Born approximation.
3> Nuclear ReaqtQr~ :
( .w Peri ods, ail l1G. )
'ioo-' {; 4>
Brief revision of fission chain reation, General reactor design,
Nuclear reactor types ,research reactor (Heterogeneous) Power reactor
( Fast breeder reactor ), reactors in India ( Apsara,Cirus,Purnima )
( a Periods, ~ [ka )
ID,clear Particle AqqelorotQrs :The Principle of phase stability, synchro~cyclotron, Microtron,
,
electron-synchrotron or Bevatron. ( 5. Periods, N Mk.a.)
..••'
5> Element.ery Particals ;Classification on the basis of type of interaction, quantum numbers,isospin,strangeness,parity,Decay of elementry particles. Conservationlaws and symmentry properties of elementry particles, Quark model.
( ~ Periods, .w. m:u )
Origin of co~mic Rays, primary and secondary radiations ,cosmic rayshowers, Geomagnetic effects ,absorption of cosmic rays.
( .i Periods . .aMn )
RE;l?gRBNCES
1) Atomic Nucleus R.D.Evans.2) Nuclear Physics D.G. Tayal.J) An Intraduction to Nuclear Physics4) Concepts of Nuclear PhY5ics5) .Ba5ic Nuclear Physic5
Bhide, Joshi.B.L.Cohen.B.N.Sriva5tava.
M.L.Pandya and Yadav.
Herald Enge.David Halliday.
6) Introduction to Nuclear Physics7) Introduction to Nuclea1' Physics8) Elements of Nuclear Physics9) Nuclear Physics Irving Kaplan.
10) Nuclear Physics Alex E.S.Green.
NORTH MAHARASHTRA UNIVERSITY,JALGAONM,Sc. ( PHYSICS) PHY 4Q12
MJ CToproces:mr( Ii.e.f. from June, 1993)
1> Introduction 1& Microcomputor :Memories, MicroprOCeSSOr (C,P.U.), I/O devices,2> Memory deyices :
( .a I,ectures)
( .2.Lecturell)
A) Biportar, Unipolar merneries, Random access memory ( RAM) Readmemory ( ROM ,PROM, EPROM. )
B) Study ofmemory chips: 2174,2716
only
3> Architecture !:l.f.ll.J?l.B..5. :
Detail block diagram ~ith pin configuration4> Instruction =.t.. Q.f. .lU18..5.A) i) Instruction typesii} Classification of instruction
iii} Addressing modesiv} Instruction set of 8085.B) Programming- simple programs use of subroutine5> IpterfBci ng memory. and. IL!l deyi ces :Introduct1oDi) Address space partitioning, address decedingii) Momory Interfaoingiii) Lata transfer schemes".,_, ..
( J. I.ectyres)
( 1.2.I,ectyrell)
a) Programmed date transfer,Synchronous transfer, Asynchronoces transfer, Interrupt
driven data transfer, Intrurrupts in 8085.~) Direct memory access data transfer: DMA transfer in an 8085
bassed system6> Study !:l.f.interfacing dey ices :i) Programmatice peripheral interface ( Ie 8255)
( ~ Lectures)
,
ii) Programmable interval timer ( IC 8253) vith programming.iii) Keyboard ontroller and display controller ( IC 8279)
( 1 Lectures)
-
---~-----~--~------------
•
7) Intqro'Pts ;
Need of Inturruptll; study of haJ'dware and software Inturruptll, study
OI Int\lrrUpS controller (Ie 8259)
8> Introduction to 8086, 6"386 and 80286 in brief
REFERENCES ;
1) Microprocessor Fundamenta15 ( Schaum's series)
( 2. Lecture;,)
( 2..=.I,ectu~es)
- Roger L. Kokhein ( M.G.H.)
2) Introduction to Microprocesser 50ftW81', hardware, programming by
- L.A.Leventhal ( H.G.H. )
3) 8080/8085 Assembly language programming
- L.A.Levellthal ( M.G.H.)
4) Microprocessor Architecture .Programming and application
Earnesh Goankar ( WEL Bombay.)5) MC5 85 Users manual Inter Corp. USA.6) Introduction to microprocesser
( J. cl .lUl...)
7) Introduction to micorprocessor- A.PMathur (THG)
Adam 05born (MGff)8) Data manual for Microprocessor family Intel Corpusa9) Introduction to micorproce5sorIe) Microprocessor and its applications
KhambateB.Ram
• NOTRH MAHARASHTRA UNIVERSITY,JALGAONH_Sc. ( PHYSICS) PRY 40'3 CA)Radio cOIDwJuication ~ ~
( W.e.f. from June, 1993)
1> Modulatioun And transmilters
Theory of amplitude, frequency and phase modulation, AM and FMmodulation system, vestigial side baud filters and modulation pulse
modulation, block diagram of transmitter and its function, T.V.scanningsynchronization of pulses, vision signal mixing composite video
signal,T.V.camera tubes, vidiocon image orthiCon,m plubicon, use of
frequency multipliers and duplixer, nesative polavity
transmission, information content capacity
2> Deteqtion and Reception
in T. V.
Demodulation of FM,Block diagram of T.Y. recevier, tuner and mixer
stage, IF amplifier, detection and video amplifier, sunc
seperation deflection-circuits.
3> PrQpagatlon :
pulse
Nomenclature of upper atomsphere, ionorpbere grounds and space wave
propagation, trOpQspJleric and ionospheric propagation, effect of
ertth's curvature, fading, duct propagatiolls, reflection in ionosphere,
MUP, critical frequencies of differell layers.
4> Antenna:Characteristics of antenna system, wire aerials, arrays, Yagi with
design,Rhobatic aerial, loop aerials pattern multiplication.
5> T y,Comnmnication System:Micowave links,satellite communication.
REFERENCES:1. Electronics{ fundamentals and applications)
* 4 th Edition *2. Antenna Engineering
3. Basic Television
4. Basic Television
5. Antennas6. Electronics and Badia Engineering
- Ryder
Krais5Anil maini
Grob
Prasad
Terman
---~~-------~-~---,
NORTH ~AHARASTRA UNIVERSITY, JALGAONM.Sc(PHYSICS) (W.e.f. from Jun"" 1993)
PRY 4.eJ3B
Yaccum Te~hDolQgy and Ih1a Eilm Physics
1. Various ranges of vaCQum, conductance,impodance,speed,pump-down timeand thin relations. L. 2. periods)
2. Pumps and Gauges for H.V. and U.H,V, Rotary DiffisuioD, Getterpumps, Evapouration, sputtenation Molecular drug,Cryogonic and orgitronpump. L Ii perjQds)
3. Method of producing thin films: Different methods chemicals CVD,
Vaccum evaporation and sputtering, Parameters governing thin filmsdifferent types of sources, Working of Hig-vaccume systems, Theory of
.......•.•Cosine la •• of omission.
~4. Thickness measurenments' Optical interferences techniques, Multiple
beam interforometry, Tolcksky technique,Gravimatric method.1..oS. periods)
5, Monitoring of film thickness' Quarts crystal monitor, optiical
thickness monitor. L .3.periods)
6. Nucleation: Thermal accomodation coefficients, capilarity model,
sperical cap and disc. Atimatic model and Comparison, varios states of
growth.7, Mechanical properties:Adhesion and its me8suremets ~ith
methods, stl'ess measurement5 ~itllval'iou5 methods. ii periods)
various
8, Electrical properties:- Boltzman equation, Fuch-Sondhemir theory,
TCR and its variation, Resustance variation of verY thin films, Hall
effect. L oS. periods)
9. Optical properties, Reflaction,Refraction,Fresnels coefficients,
Complex refractive index, Ellipsometry Reflecting and antireflecting
films.
REFERENCE BOOK:-
1. Rand Book of Thin film technology
2. Vaccum Deposition of Thin Film5
L oS. peri ods)
Malasel and GIang.
L. Roland.
• NORTH MAHARASHTRA UNIVERSITY, JALGAON
M.Sc. (Physics) ( W.e.f. froro June, 1993)
PHY 403 C Solar Energy
L•
1> Importance of solar energy, World"s production and reserves of
commercial energy sources, India-s production and reserves,energy alternatives.
2~ Nature of solar radiation, sun a5 a fusion reactor, spectraldistribution of solar radIation, seasonal variation in the solar
radiation, mea$urement of global and diffuse 501ar !"adiation,
various routes for converting solar energy into different forms.3> Solar thermal devj~e5 ~
Basic principles, different types of solar collectors, energy
balance equation, heat-losses and efficiency of the solarcollector. Solar cooker, domestic hot water systems, Industrial
hot water system, solar dryers solar pond, solar distillation
solar furnace, solar refrigeration, solar power generation.
4> ~ plate collectors ~
Theory of flat plate collectors, energy balance equation,
evaluation of heat losses and efficiency of solar collectors.
5> Selective coating ~ solar tbermal devices
Ideal characteristics of selective coating, different types ofselective coating, material and techniques for making selective
absorbers. effect of selective coating on the efficiency of
solar thermal collectors .
6> Soalr collectors;Point focus, line focus, soalr concentrators, cylindrical,
paraboloid, compound paraboloid type solar concentrator5,
Fresnel lens. Theory of solar concentrators and their
efficiency. Applications of solar concentrators.
7, Storage QL solar energy ;Thermal storage, Electrical storage, Chemical storage, Hydro
storage.
REFERENCES .;...1~ Solar energy thermal processes - J.A.Duffie and W.A.Beckroan
OHley Intel'science Publication, 1974)
2> Solar Energy Conversion.(An Introductory oourse)
Editor,,'~A.E. Dixon and J.D. Leslie
(Pergaroan press)
3> SOlal" energy ( Principle::! of thermal collection and ~torage)
S.P. Sukh~tme
( T M H , New Delhi )
4> Sun power
J .C. Mveigh
( Pergaman pre1'l3, 1983 )
5> Solar energy engineeringA.A.M. 5ay1gh
( Academic press, 1977 )
6> Principles of solar engineering
F. Kreith and J.F. Kreider( NcGraw Hill, 1978 )
---_.~,~---
•
/,•,
NORTH 11AHARASHTRA UNIVERSITY, JALGAON
M.Sc. (I'hyslcs) pny 4134
List of ~xpe_~'imeJlts( W.e.f .. from June, 1993)
Specjal Lab
Group A -'- MicrpprQ<'efglQr
countingcounter. The
i> Read tllO digit hexadeGimal number tllrough keyboard and convert itinto binary form.Read string through keyboard which is tel'minated by any specifiedcharacte~' and reverse the st.ring.WI"1te a Program for fOUl' digi t hexadecimalSllould stop and resume by pressing any key,Temperature measurement by using ADe.Read data througJl thumbwheel Slli tehes and display it on monltel'and 7-segment display.Write a program for cantl'oIling relay switches, pnwide delay ofone second.Average the given set or data and display the result in decimalform.Microprocessor controlling f,mction generator ( SqElare.TraingEllal'and Ramp )Steeper motor speed control using microproces30r.Interfacing of eigllt bi t ADC with microprocessor.
iii>
vill>
Grollp B. i.. Computer programming L FORTRAN IT 1
Simpson
calculate sine/cosinecompare with Library
Trapezoidal or
i> To solve a third order equation Elsing one of following method.a> Successive apPreximationb> Newton Raphson methodc> Falsi position method
ii> To integrate tlle given fUllction by usingrule,
iii> Interpolation using Lagrange3 interpolation fOl'mula.(Fitting fOUl.th order fornmla)To find the solutioll of "imultaneous linear equations by usingGauss elimination method or Gauss seidal method.To solve second order differential eqElatiollby using one of thefollowing method.
a> Euler's methodb> Eulel" 5 modi fide lIletllodc> Runge-Kutta method
vi> Draw a flow chart and write a programme tofunction by using Tayler's series andfunction.
vii> Find the inverse ~,f matrix using Jacobi method .
(;.iV>.>
••----~..~--•
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