1 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN M.SC. ( PHYSICS) CBCS Syllabus 2011 Document code : Revision No: Name of Faculty Faculty Code SYLLABUS MSPHY2011 00 SCIENCE SC Programme Name : MASTER OF SCIENCE (PHYSICS) Programme Code : Effective from: MSPHY June 2011 2 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN The proposed New Course in M.Sc. PHYSICS PROGRAMME is based on Choice Based Credit System (CBCS) which is in force from June-2011. CBCS Course Pattern 1. This programme is divided into four Semesters (Two Years). The duration of an academic year consists of two semesters, each of 15 weeks for teaching. The academic session in each semester will provide 90 teaching days. 2. There will be three categories of courses/papers in this programme: A. Three Compulsory-Core theory courses (two disciplinary and one inter disciplinary) with 4 credits each in first three semesters. B. One Choice Based Elective Course (disciplinary/interdisciplinary) with 2 credits in first three semesters. C. One Practical course (PR) with 6 credits in first three semesters. D. In the IV Semester, a student can undertake two core theory courses (8-credits), project/field work (6-credits), practicals (4-credits) and Research methodology (2credits) OR Major Dissertation (18-credits) and Research methodology (2-credits). 3. Detailed Course Pattern for each Semester is given bellow. 3 Sem 1 1 Combination Code Old Paper Code CPH401 CPH402 Paper Code Paper Type Marking scheme Paper Name External The Pra Internal The Credit Total Pra CC Mathematical Physics -I Andquantum Mechanics –I (MPA) 70 30 4 100 MSPHY102CC CC Solid State Physics-I And Electronics-I (SPE) 70 30 4 100 70 30 4 100 MSPHY101CC 1 CPH403 MSPHY103CC CC Computer(COM) 1 PPH401 MSPHY101PR PR Practicals (PCT) 1 EPH401 ES Electronic Communication (ETC) 50 2 50 1 EPH402 MSPHY102ES ES Space Physics (SPH) 50 2 50 1 EPH403 MSPHY103ES ES Application Ofcomputer In Physics (ACP) 50 2 50 MSPHY101ES 150 Remarks 6 Any one from MSPHY 101 ES103ES Any one from MSPHY 101 ES103ES Any one from MSPHY 101 ES103ES 4 Sem Combination Code Old Paper Code Paper Code Paper Type Marking scheme Paper Name External The Pra Internal The Credit Total Pra CC Electrodynemics And Microprocessor (EMP) 70 30 4 100 MSPHY202CC CC Classical Mechanics And Programming In C-I (CMP) 70 30 4 100 2 CPH503 MSPHY203CC CC Nano Technology (NTL) 70 30 4 100 2 PPH501 MSPHY201PR PR Practicals (PCT) 2 EPH501 MSPHY201ES ES Energy Technology And Storage Systems (ETS) 50 2 50 2 EPH502 MSPHY202ES ES Synthesis Of Materials (SYM) 50 2 50 2 EPH503 MSPHY203ES ES Experimental Techniqes (ETQ) 50 2 50 2 2 CPH501 CPH502 MSPHY201CC 150 Remarks 6 Any one from MSPHY 201 ES203ES Any one from MSPHY 201 ES203ES Any one from MSPHY 201 ES203ES 5 Sem 3 3 Combination Code Old Paper Code CPH601 CPH602 Paper Code Paper Type Marking scheme Paper Name External The MSPHY301CC CC MSPHY302CC CC Statistical Mechanics And Nuclear Physics (SAN) Digital Electronics And Programming In C-II (DEP) Internal Pra The Credit Total Pra 70 30 4 100 70 30 4 100 70 30 4 100 3 CPH603 MSPHY303CC CC Biophysics (BIP) 3 PPH601 MSPHY301PR PR Practicals (PCT) 3 EPH601 ES Linear Ics Applications (LAP) 50 2 50 3 EPH602 MSPHY302ES ES Pulse And Microwave Electronics (PME) 50 2 50 3 EPH603 MSPHY303ES ES Research Methodology (RML) 50 2 50 MSPHY301ES 150 Remarks 6 Any one from MSPHY 301 ES303ES Any one from MSPHY 301 ES303ES Any one from MSPHY 301 ES303ES 6 Sem 4 4 Combination Code Old Paper Code CPH701 CPH702 4 Marking scheme Paper Type Paper Name CC Mathematical Physics -II And Quantum Mechanics – II (MPQ) 70 MSPHY402CC CC Solid State Physics-II And Electronics-II (SSE) 70 MSPHY401MP MP Project (PRT) 150 ES English Language Communication (ELC) 50 2 50 50 2 50 4 100 Paper Code External The MSPHY401CC 4 EPH701 4 EPH701 MSPHY402ES ES Personality Development (PDM) 4 PPH701 MSPHY401PR PR Practicals (PCT) MSPHY401ES Pra 100 Credit Total 30 4 100 30 4 100 4 150 Internal The Remarks Pra Any one from MSPHY 401ES402ES Any one from MSPHY 401ES402ES OR 4 EPH701 MSPHY403ES ES English Language Communication (ELC) 4 EPH701 MSPHY404ES ES Personality Development (PDM) 50 MSPHY401DI DI Dissertation (DIN) 450 4 50 2 50 2 50 450 Any one from MSPHY 403ES404ES Any one from MSPHY 403ES404ES 7 Pattern/Scheme of Examination There will be examinations at the end of each semester ordinarily during November / December for odd semesters and during April/May for even semesters. Theory Examinations: Out of the total marks for each course/paper maximum 30% marks shall be earmarked for Internal Exam.(Through continuous internal evaluation process ) and remaining 70% for External Exam. (Through semesterend examinations). There will be one semester-end examination of three hours duration for core theory papers and two hours for elective papers. Each answer script of semester end examination (theory) will be valued by internal as well as external examiner. The passing marks in each paper shall be 40%. There is no separate pass mark for internal assessment. A candidate has to secure a minimum of 40% of marks in the semester-end examination plus internal evaluation put together to pass a paper. Practical Examination: In the case of science faculty, there will be a practical examination at the end of every semester. There will be two Practicals from each groups (75 Marks each for Sem.-I to III and 50 Marks each for Sem.-IV) in the Exam. The passing marks for practicals will be 40%. The practical examinations shall be conducted with one internal and one external examiner. In 4th Semester for project work there will be 50 marks for project report, 50 marks for project presentation and 50marks for viva. For dissertation work there will be 200 marks for dissertation, 150 marks for presentation and100 marks for viva. There will be no internal assessment test for practicals, Elective courses, Dissertation work, and Project work in any semester. Internal Assessment For each paper/course in a semester there will be Continuous internal evaluation process which includes Unit Test / Int.Test MCQ Test / QUITZ Test Seminar/ Poster Presentation/ Assignment work Attendance - Regularity & Study Tour Library work -Book Review 8 Structure of the Paper in Examination For Core Courses (Disciplinary/Interdisciplinary): There will be five questions each of 14 marks. First question will be from Unit - I, Second question from Unit-II, Third question from Unit-III, Forth question from Unit-IV and Fifth question will be from all four Units. All the questions are detailed as under. (Total 70 Marks and 3 Hours time for the Paper) 1 (a) Answer the following (Any one out of two OR two out of three) (Theory questions) (b) Attempt any one of following (out of two) (Application/Problem/Example) 10 Marks 2 (a) Answer the following (Any one out of two OR two out of three) (Theory questions) (b) Attempt any one of following (out of two) (Application/Problem/Example) 10 Marks 3 (a) Answer the following (Any one out of two OR two out of three) (Theory questions) (b) Attempt any one of following (out of two) (Application/Problem/Example) 10 Marks 4 (a) Answer the following (Any one out of two OR two out of three) (Theory questions) (b) Attempt any one of following (out of two) (Application/Problem/Example) 10 Marks 5 Answer the following (Any seven out of ten) (Short answer or objective type questions) 04 Marks 04 Marks 04 Marks 04 Marks 14 Marks 9 For Elective Courses (Disciplinary/Interdisciplinary): There will be three questions first and second questions are of 20 marks each and third question is of 10 marks. First question will be from Unit - I, Second question from Unit-II, Third question will be from all three Units. All the questions are detailed as under. (Total 50 Marks and 2 Hours time for the Paper) 1 (a) Answer the following (Any one out of two OR two out of three) (Theory questions) 10 Marks (b) Answer the following (Any one out of two) (Theory questions) 06 Marks (c) Attempt any one of following (out of two) (Application/Problem/Example) 04 Marks 2 (a) Answer the following (Any one out of two OR two out of three) (Theory questions) 10 Marks (b) Answer the following (Any one out of two) (Theory questions) 06 Marks (c) Attempt any one of following (out of two) (Application/Problem/Example) 04 Marks 3 Answer the following (Any five out of seven) (Short answer or objective type questions) 10 Marks 10 HEMCHANDRACHARYANORTH GUJARAT UNIVERSITY, PATAN CHOICE BASED CREDIT SYSTEM (CBCS) in MASTER OF SCIENCE Committee Members for Grading System to be implemented from June 2011 Dr. B L Punjani, Dean, Science Faculty, HNGU Dr. J J Vora, Prof. & Head, Deptt. of Chemistry, HNGU Dr. M B Prajapati, Prof. & Head, Deptt. of Mathematics, HNGU History of grading: Developed by: A tutor named William Farish 1st implemented by: University of Cambridge in 1792, for the closure scrutinize of the students' work more quantitatively. The Syndicate of the university has approved the Choice Based Credit System course for the Master programme in which the passing standard minimum of 40% for each course of the programme. Grades: These are standardized measurements of varying levels of comprehension within a subject area. Grades can be assigned in letters (for example, A, B, C, D, E or F), as a range (for example 1.0–7.0), as descriptors (excellent, great, satisfactory, needs improvement), in percentages, as a Grade Point Average (GPA). A Cumulative Grade Point Average (CGPA) is a calculation of the average of all of a student's grades for all semesters and courses completed up to a given academic term, whereas the GPA may only refer to one term. Procedure of awarding the grades Marks and Award of Grades: The following TABLE-I gives the marks, numerically grades, letter grades and classification to indicate the performance of the candidate. 11 Table 1 Conversion of Marks to Numerical Grade and Letter Grade (Course Performance) Sr. No. % marks obtained Numerical grade earned Letter grade earned Performance of the student 1 90-100 6.0 – 7.0 A+ Outstanding 2 80-89 5.0 – 5.9 A Excellent 3 70-79 4.0 – 4.9 B+ Distinction 4 60-69 3.0 – 3.9 B Very good 5 50-59 2.0 – 2.9 C+ Good 6 40-49 1.0 – 1.9 C Satisfactory 7 00-39 0.0 F Re-appear/fail 8 Absent 0.0 AAA Absent It is clear from the Table 1 that, if any student obtains 67% in semester end examination in some course sayCourse-M, then the Numerical Grade earned is 3.7 and Letter grade earned is B (Very Good) in that course. The result of successful candidates at the end of each semester shall be declared in terms of GRADE POINT AVERAGE (GPA) and letter grade. The result at the end of fourth semester shall be classified on the basis of the Cumulative Grade Point Average (CGPA) obtained in all the four semester and the corresponding overall letter sign grade. The SEVEN point grading system with the Numerical as well as the letter grade as described as above and shall be recommended to be adopted. The Grade Point Average (GPA) and the Cumulative Grade Point Average(CGPA) at the end of fourth semester shall be computed as follows. Computation of Grade Point Average(GPA): Grade Point Average (GPA) is a measure of how well one is doing in academic studies. A student’s Grade Point Average, or GPA, is a mathematical calculation that indicates where an average of the grades falls on the given scale. The academic grading scale goes from “A+” to “C”, with corresponding numerical grade points ranging from the highest “7.00” to the lowest “1.00”. 12 The letter grade is assigned a numerical grade value according to the Grading Systems- as shown in the Table 1. Each letter grade has a numeric grade point value assigned which is used to calculate Grade Point Average (GPA) and cumulative grade point average (CGPA). The numerical grade in a course shall be assigned on the basis of actual marks scored at the semester end examination including Internal Assessment in that course as per the above Table 1 provided he/she secures a minimum of 40% marks in the semester examination. The candidate securing less than 40% of marks in the end of semester examination(including Internal marks) in any course ( may be a theory / practical / project_work /dissertation,etc.) shall be declared to have failed OR to be re-appear in the next exam in that course. The Grade Point (GP) for each course shall then be calculated as the product of the Numerical Grade earned in that course and the credits for that course. The Grade Point Average (GPA) for each semester is obtained by adding the GP of all the courses of the semester dividing by total Credits of the semester (in science faculty it is 20 credits for each semester). Procedure for GPA calculation: Let, Ci = Credits of the ith course in the semester, Gi= the numerical Grade obtained for the ith course in the semester and N= the number of courses (credited) offered in the semester, then Calculation of the Grade Point (GP) ith course of the semester is calculate as: GRADE POINT (GPi) = Gi x Ci GRADE POINT AVERAGE [GPA] = (GP1 + GP2 +…+ GPn) / (C1 + C2 +…+ Cn) = (GP1+GP2+…+GPn) / 20 (since total credit for each semester=20) = (C1 x G1 + C2 x G2 +… + Cn x Gn) / (C1 + C2 + …+ Cn) That is, GPA= Sum of the multiplication of numerical grade by the credits of the courses Sum of the credits of the courses in a semester 13 Table 2 Calculation of GP and GPA for Semester I Course offered 1 Marks obtained Course Total/ Credit Internal External out of 2 CBO-101 CBO-102 CBO-103 PBO-101, PBO-102, PBO-103 EBO-102 Total 3 4 4 4 4 24 21 19 5 37 61/100 56 77/100 44 63/100 % age Numerical of grade marks 6 7 61% 77% 63% 3.1 4.7 3.3 Letter grade Grade point (GP=7 * 2) GPA Final grade and performance 8 9 10 11 B B+ B 12.4 18.8 13.2 3.92 6- 108 108/150 72% 4.2 B+ 25.2 220 37 37/50 74% 4.4 B+ 8.8 78.4 B Very Good Table 3 Calculation of GP and GPA for Semester II Course offered 1 CBO-201 CBO-202 CBO-203 PBO-201, PBO-202, PBO-203 EBO-201 Total Marks obtained Course Credit Internal External Total/ out of 2 3 4 4 4 4 19 23 25 5 % age Numerical of grade marks 6 7 Letter grade 8 Grade point (GP=7 * 2) 9 58 77/100 49 72/100 61 86/100 77% 72% 86% 4.7 4.2 5.6 B+ B+ A 18.8 16.8 22.4 6- 110 110/150 73% 4.3 B+ 25.8 220 35 35/50 70% 4 B+ 8 91.8 GPA Final grade and performance 10 11 4.6 & 76% B+ Distinction 14 Table 4 Calculation of GP and GPA for Semester III Course offered Marks obtained Course Credit Internal External Total/ out of 1 2 CBO-301 CBO-302 CBO-303 PBO-301, PBO-302, PBO-303 EBO-302 Total 3 4 4 4 4 18 25 22 5 % age Numerical of grade marks 6 7 Letter grade 8 Grade point (GP=7 * 2) 9 53 71/100 59 84/100 51 73/100 71% 84% 73% 4.1 5.4 4.3 B+ A B+ 16.4 21.6 17.2 6- 112 112/150 75% 4.5 B+ 27 220 38 38/50 76% 4.6 B+ 9.2 91.4 GPA Final grade and performance 10 11 4.6 & 76% B+ Distinction Table 5 Calculation of GP and GPA for Semester IV Course offered Marks obtained Course Credit Internal External Total/ out of 1 CBO-401 CBO-402 PBO-401, PBO-402, Soft Skill Project worK Total 2 3 4 4 4 24 26 5 % age Numerical of grade marks 6 7 8 Grade point (GP=7 * 2) 9 Letter grade 60 84/100 58 84/100 84% 84% 5.4 5.4 A A 21.6 21.6 4- 115 115/150 77% 4.7 B+ 18.8 2620 35 35/50 120 120/150 70% 80% 4 5 B+ A 8 30 100 GPA Final grade and performance 10 11 5.0 & 80% A Excellent Note: The candidates who pass the subject at first appearance and within the prescribed semester of the PG Programme ( Core, Elective, Non-major Electives and Extra-Disciplinary courses alone) only shall be eligible for the evaluation process of the Grade point of that subject. Those students who clear the examination at second or subsequent attempt or having skipped the first attempt in the subject shall be granted the numerical grade of only 1.0 (as the lowest one) instead of the higher numerical grade obtained by the candidate. 15 Calculation of CGPA for the entire programme Cumulative GPA is a calculation of the average of all grades for all semesters and courses completed at the PG programme. CUMULATIVE GRADE POINT AVERAGE [CGPA] = CGPA= Sum of the multiplication of GPA of the semester by the total credits of that semester Sum of the credits of the courses of the entire programme Table 6 Calculation of CGPA for entire programme Semester Credits GPA Obtained 1 I II III IV Total 2 3 20 20 20 20 80 3.9 3.6 4.6 5 Letter grade obtained % age obtained 4 B B+ B+ A 5 69 76 76 80 Total grade point average (3 x 2) 6 78 72 92 100 342 CGPA Grade/Class/ Equivalent % age 7 8 4.3 B+/ Distinction/ 73% Descriptions of each component described as follow: Letter Numerical Grade Grade Grade Points Performace Letter Grade Description A+ 90 - 100 6.0 to 7.0 Out standing A 80 – 89 5.0 to 5.9 Excellent First Class Standing. Superior Performance showing comprehensive, in-depth understanding of subject matter. Demonstrates initiative and fluency of expression. B+ 70 - 79 4.0 to 4.9 Distinction Clearly above average performance with knowledge of principles and facts generally complete and with no serious deficiencies. B 60 - 69 3.0 to 3.9 Very Good Basic understanding with knowledge of principles and facts at least adequate to communicate intelligently in the discipline. 16 C+ 50 – 59 2.0 to 2.9 Good Some understanding of principles and facts but with definite deficiencies. C 40-49 1.0 to 1.9 Satisfactory A passing grade indicating marginal performance. Student not likely to succeed in subsequent courses in the subject. F 0 – 39 0.00 Unsatisfactory / Knowledge of principles and facts is fragmentary; or Fail student has failed to complete substantive course requirements. AAA -- 0.00 Absent Did not complete the course or less than 40% of course work completed. Chairman, B.O.S. - Physics, 17 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : MSPHY Programme Name : M.Sc.PHYSICS MSPHY101CC Course Code Semester : 1 MATHEMATICAL PHYSICS -I AND QUANTUM MECHANICS – I (MPA) Course type : Core Compulsory Total Credit : 04 Teaching time Examination Marking scheme (hours) Theory (hrs) 4X 15=60 Unit Topic 1 1.1 2 2.1 3 3.1 3.2 4 4.1 Practical (hrs) Internal (Marks) 30 External (Marks) 70 ( 3 hrs) Content Function of a Complex Variable Introduction, Analytic functions, Contour Integrals, Laurent series, Residue Theorem, Methods of Finding Residues, Evaluation of Definite Integrals by use of the Residue theorem, The point of Infinity, residue of infinity, Mapping, Some Applications of conformal mapping. Integral Transforms: Introduction, Laplace Transforms, Solution of Differential Equation by Laplace Transforms, Fourier Transforms, Convolution: Parseval's Theorem, Inverse Laplace Transform (Bromwich Integral), the Dirac delta function, Green functions, Integral transform solutions of partial differential equations. Some exactly soluble Three-dimensional problem in quantum mechanics : Anisotropic oscillator, The isotropic oscillator, Normal modes of a coupled system of particles. Approximation methods for stationary states: Perturbation theory for Discrete level, Equation in various orders of perturbation, theory, Non degenerate case, The degenerate case - removal of degeneracy, The effect of electric field on energy level of an atom (Stark effect),Two electron atoms. The variation method; Upper bound on ground state energy, Applications to excited state, Trial function Linear in variational parameters, Hydrogen molecule, Exchange interaction . WKB Approximation: The one dimensional Schrödinger equation (inclusive all cases & discussion relevant to perturbation theory/WKB method, The BohrSomerfield quantum condition, The WKB solution of radial wave equation. Total (Marks) 100 Hours Marks W+% Credit 18 4.2 Evolution with Time: Exact Formal Solutions :The Schrödinger equation: General Solution, Propagators, Alteration of Hamiltonian: Transitions; Sudden Approximation. Perturbation theory for Time Evolution Problems: Perturbative Solution for Transition Amplitude, Selection rules, First Order Transitions: Constant Perturbation, Transitions in the Second Order: Constant Perturbation. Reference Book :No Book Name 1 2 3 4 5 6 7 8 9 10 11 Mathematical Methods in Physical Sciences (Basic) M. L. Boas 2nd edition JhonI Wiley & Sons A textbook of Quantum mechanics (Basic) P. M. Mathews and K. Venkatesan Mathematical Methods for Physicist G. B. Afrken& H. J. Weber 5th Edition Harcot (India Pvt.Ltd.) Mathematical physic P.K.Chattopahyay New age international (P)- Ltd H. K. Dass. H. K. Dass. Mathematical Physics Styaprakash, S.Chand Quantum Mechanics L. I. Schiff, McGraw-Hill International student edition Quantum Mechanics Vol I & II A. Messiah Jhon Wiley & Sons Introduction to Quantum Mechanics Powell and CrasemannAddiso-Wesley Quantum Mechanics V.K. Thankappen Wiely eastern Ltd Quantum Mechanics : Theory and applications A. Ghatak and S. Lokanathan 19 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code Course type : Teaching time (hours) Theory (hrs) 4X 15=60 Unit Topic 1 1.1 2 2.1 3 3.1 3.2 4 4.1 4.2 Practical (hrs) MSPHY Programme Name : M.Sc.PHYSICS MSPHY102CC Semester : 1 SOLID STATE PHYSICS-I AND ELECTRONICS-I (SPE) Core Compulsory Total Credit : 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 hrs) Content Total (Marks) 100 Hours Marks Credit W +% Electron Energy Bands : Consequences of Periodicity –Bloch Theorem, Periodicity of Bloch Function and their eigenvalues, Wave mechanical Interpretation of Energy Bands, The Kronig-Penney Model, The Nearly Free Electron Model, Zone Scheme for Energy Bands, Energy Bands in a General Periodic Potential, InsulatorsSemiconductor and Metals, The Tight –binding Approximation, The WignerSeitz Cellular Method. Mobile Electrons and Fermi Surfaces : Concept of Holes, Effective Mass, Construction of the Fermi Surfaces, Electrons in a Uniform Magnatic Field –Free Electrons and Bloch Electrons, Anomalous Skin Effect, Cyclotron Resonance-Semiconductor and Metals, Closed Orbits and Open Orbits, de Hass –van Alphen Effect. Power Amplifiers : Introduction, Difference between Voltage and Power amplifiers, Performance quantities of power amplifiers, Class-A power amplifier, and power distribution, Transformer coupled class –A amplifier, Power consideration and dissipation, Class-B power amplifier, Class-A Push-Pull power amplifier, Class-B Push-Pull amplifier, Tuned amplifiers, Single tuned inductively coupled transistor amplifier, Double tuned transistor amplifier. Multivibrators: Multivibrators, Astablemultivibrator, Monostablemultivibrator, Bistablemultivibrator. Operational Amplifiers : Basic Concepts, Ideal operational amplifier, Practical Inverting and NonInverting OP-AMP, Characteristics of OP-AMP, Differential Amplifier, Some Op-AMP Parameters, Effects of offset, Frequency Response and Stability, Applications of OP-AMP: As a Scale Changing-Phase Shifting and Summing amplifier, Voltage Follower, Integrator, Differentiator, Logarithmic and Antilogarithmic amplifier, Bridge amplifier, Schmitt Trigger, Saw-tooth wave ,: 20 generator, The 555 IC Timer-as a Monostable and Astablemultivibrator, Bootstrap Sweep generator. Reference Book :No 1 2 3 4 5 6 7 8 9 Book Name Elements of Solid state Physics (Basic) J.P.Srivastava PHI Hand Book of Electronics (Basic) Gupta and Kumar PragitiPrakashan Meerut Elecronics and Radio Engineering M.L. Gupta D.R. Pub.Co Integrated Circuits K.R.Botkar Khanna Pub Electronicss fundamental and applications John D Ryder PHI Integrated Electronics Millman and Halkias Int. Student/s Edition OP-AMPs and Linear Integrated Circuits R.A. Gayakwad PHI Pub Basic Electronics and Linear Circuits N.N.Bhargava D.C.Kulshreshtha, S.C.Gupta. Electronic Devices and Circuits A.Mottershead Prentice Hall of India 21 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code Course type : Teaching time (hours) Theory (hrs) 4X 15=60 Unit Topic 1 1.1 1.2 2 2.1 3 3.1 3.2 3.3 Practical (hrs) MSPHY Programme Name : MSPHY103CC Semester : COMPUTER (COM) Core Compulsory Total Credit : M.Sc.PHYSICS 1 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 hrs) Content Windows and Power Point: Basic features and simple commands of operating system-windows and its uses. Accessories: Notepad, Calculator, Disk cleanup, Disk defragmentation, Windows explorer, Control panel. Starting PowerPoint, Creating presentations, Creating presentation using templates, Creating blank presentations, Formatting Slide, Animation(Transition), Slide show, Quitting power point. Micro-Soft Word: Starting word, Word processor basics, word wrapping, adding or deleting tools, Selecting blocks of text, Copying text, Moving text, search and replace, editing a document, character formatting and style, Margin settings and columns, Justification of text, Line spacing, Setting tabs, Automatic tasks, Creating letters in readymade formats, Change case, Borders and Shading, Bullets and Numbering, Spelling and Grammar checking, Clip Art, Creating Drawing (with Toolbar), Auto correct, Auto Text, Printing a document, Short Keys, Help. Menus in Microsoft word: Menus, Menu bar, Toolbar, Table etc. Micro-Soft Excel : Introduction to spreadsheets, Use of spreadsheets, spreadsheets basics, Labels, Values and Functions, Formula, Functions, What-if analysis, Automatic recalculation, formatting spreadsheet, graphs. Introduction to Excel : Functions of Microsoft Excel, starting ms-excel, Excel work environment, changing the size of work book and excel window, Cell and Cell address, Standard toolbar, Formatting toolbar, the formula bar, status bar, Components of an excel workbook, quitting msexcel Working in Excel : Moving inside a workbook, Moving the cell pointer quickly, Selecting a command, types of data, Entering data at cell Total (Marks) 100 Hours Marks Credit W +% 22 3.4 3.5 3.6 3.7 3.8 4 4.1 4.2 address, Making changes to an entry, saving your workbook, closing the workbook, quitting ms-excel Mathematical Calculations: Formulas using numbers, Formulas using cell address, Opening ms-excel and entering data, Defining functions, writing a function, Common excel functions Manipulating data: Moving data, Copying data, Relative cell addressing, absolute cell addressing, Copying values, not formula or function, deleting rows and columns, Deleting contents of a row, Inserting rows, inserting columns, Automatic filling of entries, quitting ms-excel Changing the layout: Aligning data, Increasing or decreasing the column width, Increasing or decreasing the height of rows, Erasing the contents of a sheet, Deleting data from the cell address, Setting column width to zero, Values formatting, Points to remember, Closing workbook and quitting excel Simple Graphs: Drawing a graph, Naming the sheet, saving the workbook, printing and closing a graphic sheet, opening the saved graphic sheet, quitting ms-excel Manipulating Sheets: Adding sheet to a workbook, Adding many sheet to a workbook, renaming a sheet and entering data in it, Moving sheet, Copying data between sheets, Protecting the workbook, Deleting a sheet from a workbook, Saving the workbook automatically, Closing the workbook, recovering the deleted workbook, quitting ms-excel. Computer Network,Internet and Virus: Local Area Network(LAN), Metrepolean Area Network(MAN) Wide Area Network(WAN), Routing, Network topology. Use of Internet, Web Brouser, Search Engine, Surfing, Mail(Draft,Send, Receive, Delete), TCP/IP, Uniform resource locator (URL), Internet service provider, Internet security, surfing. Introduction to computer viruses, What is virus?, Classification of viruses, Latest known viruses, virus prevention, Anti virus. Reference Book :No 1 2 3 4 5 Book Name IT Tools and Applications R.K. Taxali Comdex Computer Course Kit Vikas Gupta Publisher: Dreamtechl Microsoft Office 2000 Complete Sybex BPB Publication Peter Norton Complete Guide to Microsoft Office 2000 Wayne S. Freeze BPB Publication Fundamental of Information technology Deepak Bharihoke 23 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY101PR Programme Name : Semester : M.Sc PHYSICS 1 PRACTICALS (PCT) Course type : Teaching time (hours) Theory (hrs) Unit Practical (hrs) 4X 15=60 Topic Practical Total credit : 02 Examination Marking scheme Internal (Marks) External (Marks) 150 ( 6 × 3 Hors ) Content 3 4 5 6 7 8 Group – I e/m by Magnetron Valve. Temperature Co-efficient of Platinum resistance Thermometer by Carry Foster or C.G. Bridge. Study of Hall Effect. Study of hysterisis of Anchor ring / transformer using C.R.O. E.B.Plate (Determination of unknown wavelength and air gap). F.P. Interferrometer. Computer Computer 1 2 3 4 5 6 7 8 Group – II Transistorized R.C. Phase shift Oscillator. UJT as a Relaxation Oscillator. AstableMultivibrator. Study of Power Amplifier. FET amplifier. Inverting OP-AMP. Differential Amplifier. Regulated Power Supply(78xx & 79xx) 1 2 Total (Marks) 150 Hours Marks Credit W +% 24 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY101ES Programme Name : Semester : M.Sc PHYSICS 1 ELECTRONIC COMMUNICATION (ETC) Course type : Elective Subject Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Unit Topic 1 1.1 1.2 1.3 2 2.1 2.2 2.3 2.4 Total credit : 02 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Content Transmission lines and Waveguides: Transmission lines: Equivalent circuit, primary constants, transmission line equations, infinite line, characteristic impedance, secondary constants, open and short circuited line, line with any termination Waveguides: Rectangular waveguides, Modes, Properties of TE10 mode, generating TE10 mode from two TEM waves, fields patterns Digital and Satellite communication: Digital communication, Shannon limit for information capacity, digital amplitude modulation, frequency shift keying, FSK transmitter and receiver. Satellite communication, Orbital and geostationary satellites orbital patterns, look angles satellite construction, radiation patterns, satellite system link models, transponder satellite system parameters Reference Book :No 1 2 3 4 5 Book Name Electronic Communication Systems WyneTomasi Pearson Education Asia IIEd Electronic Communication System George Kennedy TMH Electronic Communications Dennis Roddy& John Coolen PHI Modern Electronic Communication Gray M. Miller & Jeffrey S. Beasley PHI Hand Book of Electronics Gupta and Kumar PragitiPrakashan Meerut Total (Marks) 50 Hours Marks Credit W +% 25 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY102ES Programme Name : Semester : M.Sc PHYSICS 1 SPACE PHYSICS (SPH) Course type : Elective Subject Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Total credit : 02 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Unit Topic Content 1 1.1 Basic Concepts of Earth’s Atmosphere: Atmosphere nomenclature, Hydrostatic equations scale height, Geopotential height, Chemical concepts of atmosphere, Thermodynamic considerations, elementary chemical kinetics composition and chemistry of middle atmosphere and thermosphere. Structure and Variability of Earth’s Ionosphere: Introduction to ionosphere, photochemical processes, Chapman’s theory of photo ionization, production of ionospheric layers, morphology of the ionosphere. 1.2 2 2.1 2.2 Total (Marks) 50 Hours Marks Credit W +% Aurora and Airglow: Night glow, Dayglow, Twilight glow, Aurora, Photometer for airglow measurement, applications of Airglow measurement for ionospheric dynamicsand composition Magnetosphere:Circulation in the magnetosphere, magentospheric electric fields,particles in the magnetosphere, plasmasphere and its dynamics,magnetospheric current system, magneto pause current tail current ring current and Birlkeland current. Reference Book :No 1 2 3 4 5 6 Book Name Introduction to Ionosphere and Magnetosphere J.A. Ratcliff Ratcliff CUP The Solar-Terrestrial Environment JK. Hargreaves CUP Introdution Space Physics M.J. Kievelson CUP Chemistry Sensing and Image Interpretation .M. Lillesand and R.L. Kiefer 4th Edition John Wiley & Sons The solar terrestrial environment J K Hargreaves CUP Space Plasma Physics A C Das Narosa Pub 26 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY103ES Programme Name : Semester : M.Sc PHYSICS 1 APPLICATIONS OF COMPUTER IN PHYSICS (ACP) Course type : Elective Subject Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Unit Topic 1 1.1 1.2 1.3 2 2.1 2.2 2.3 2.4 2.5 Total credit : Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Content Mathematica Introduction: interfaces, numerical and algebraic calculations. Symbolic mathematics: differentiation, integration, sums and products, solving equations, differential equations, power series, limits, integral transforms, recurrence equations. Numerical mathematics: numerical sums, products and integrals numerical equation solving, numerical differential equations, optimization. Functions and programs Graphics and sound Input/output File operations. Basic introduction of other scientific software packages such as MATLAB, MathCAD. Reference Book :No 1 2 02 Book Name Mathematica book S. Wolfram 5th Edition Matlab Programming Y. K. Singh, B. B. Chaudhuri PHI Total (Marks) 50 Hours Marks Credit W +% 27 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Topic 1 1.1 1.2 MSPHY201CC Programme Name : Semester : M.Sc PHYSICS 2 ELECTRODYNEMICS AND MICROPROCESSOR (EMP) 04 Core Compulsory Total credit : Course type : Unit MSPHY Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 hrs) Content Maxwell's equations: Maxwell's equation in matter, Boundary condition, Charge and energy : The Continuity equation, Poynting’s Theorem, Momentum : Newton’s Third Law, Maxwell’s Stress Tensor, Conservation of Momentum, Angular Momentum. Potentials and Fields: Continuous Distribution s : Retarded potentials, Point charges :LienardWiechertpotentials . 2 2.1 2.2 Radiation and Relativity: Dipole radiation, What is radiation ?, Electric dipole radiation, Magnetic dipole radiation, Radiation from an arbitrary source, Point charges : Power radiated by a point charge, Radiation reaction, The Physical basis of radiation reaction. Dynamics, Relativistic electrodynamics, How the fields transform? ,The field tensor, Electrodynamics in tensor notation. 3 3.1 Microprocessors, Advancesin semiconductor technology, Organization of Microprocessor based system, Microprocessors instruction set and computer Langugaes: Machine language, 8085-Machine language, 8085 -Assembly Language, Writing and Executing an assembly language program, High level language, Operting systems, Microprocessors architecture and its operational, M.I.O. and 8085 Bus organization, Internal data operations and the 8085 registers, Paripheral or externally intiated operations, Memory, Flip -Flop or latch as a storage element, Memory Map and addresses, Memory address range of a 1K memory chip, Memory classification, Logic Devices for interfacing : Tri-state Devices, Buffer, Decoder, Encoder, The 8085 MPU : The 8085 microprocessors(Pinout), Demultiplexing the bus AD7-- ADo , Generating control signals. 4 4.1 Introduction to 8085 Assembly Language Programming: Instruction classifications, Instruction word size, Opcode.format, Data Format, How to write assemble and Total (Marks) 100 Hours Marks Credit W +% 28 execute simple programme, Overview of 8085 Instruction Set, Data Transfer Operations, Arithmatic Operations.Logical operations; OR, ExclusiveOR and NOT, Data Masking with logic AND, Examples, ORing data from two input ports, Branch Operations, Unconditional jump, Unconditionaljump to set up a continuous loop conditional jumps,Programming Techniques; Looping,Counting and Indexing, conditional loop, counter, Examples, Additional Data transfer and 16bitArithmetic instructions, 16-bit data transfer to Registers pairs (LXI), Data transfer from Memory to Microprocessor, Examples, Data transfer from the Microprocessor to Memory or directly into Memory, Logic operations: Rotate-Left, Right with and without carry. Reference Book :No 1 2 3 4 5 6 7 Book Name Introduction to Electrodynamics by D. J. Griffiths 3rd edition PHI, EEE Microprocessor Architecture, Programming and Applications with 8085 Ramesh S. Gaonkar PIP Pub Classical electrodynamics J. D. Jackson 2nd edition Jhon Wiley & Sons Electromagnetics B. B. Laud Willley Eastern Ltd Electrodynamics Kumar and Gupta PragatiprakashanMeeruit, India Introduction to microprocessor R. Zalls B. P. B. Publication Delhi An introduction to microprocessor and applications Krishna Kant Macmillan 29 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN MSPHY Programme code : Course Code MSPHY202CC M.Sc PHYSICS 2 CLASSICAL MECHANICS AND PROGRAMMING IN C-I(CMP) 04 Core Compulsory Total credit : Course type : Teaching time (hours) Theory (hrs) 4X 15=60 Programme Name : Semester : Practical (hrs) Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 hrs) Unit Topic Content 1 1.1 Canonical transformation : : Gauge transformations, Canonical transformation, Condition for transformation to be canonical, Illustration of canonical transformations, Poission brackets, canonical equations in terms of Poisson brackets notation, Infinitesimal transformation, Relation between Infinitesimal transformation and Poission brackets, The Hamilton Jacobi equations, separation of variables. 2 2.1 Small Oscillation and Rotating Frame: Stable and unstable equilibriums, Small Oscillation in a system with one degree of freedom, Small Oscillation in a system with more than one degree of freedom, Normal coordinates and Normal frequencies of vibration. Rotating Frame, Euler angles, Inertia tensor, Euler’s equations of motion of a rigid body, Free motion of a rigid body, Motion of a symmetric top. 3 3.1 Decision making and Looping: Introduction, while statement, do statement, do while, for statement, jumps in loops – continue and break statements. Arrays: Introduction, One dimensional arrays, declaration and initialization of arrays one dimensional arrays, two dimensional arrays, initialization of two dimensional arrays , multidimensional arrays. 3.2 4 4.1 4.2 Character Arrays and Strings : Declaring and initializing string variables, reading and writing strings, arithmetic operations on characters, Putting Strings together, comparison of two Strings, String handaling functions, Table of strings, other features of strings. Functions : Need for user defined functions, A multi function program, Elements of Total (Marks) 100 Hours Marks Credit W +% 30 user defind functions, Defination of functions, return values and their types, Functio Calls, Function Declaration, category of functions,No argument and no return values, Arguments but no return values, Arguments with return values, No arguments but returns avalue,Functions that returns multiple values, nesting of functions, recursion. Reference Book :No 1 2 3 4 5 6 7 8 9 10 11 12 Book Name Introduction to classical mechanics R. G. Takwale and P. S. Puranik TMH Classical mechanics-A Text BooK Suresh Chandra Narosa Publishing House Programming in ANSI C 3rd Edition TMH Pub Classical Mechanics H. Goldstein, C. Poole, J. Safko 3rd edition first india reprint (2002) Pub: Pearson Education. Classical mechanics V. B. Bhatia Narosa Publishing House i Classical mechanics N. C. Rana and P. S. Jog TMH Programming in C P. Day and M.Ghosh Oxford Univ. Press Programming with C Gottfried B.S. Programming in C Kochan S.G CBS Pub Let us C Kenetker Y BPB Pub C Programming language Kernighan B.W. and Ritchie D.K PH Pub Mastering Turbo C Stan Kelly – Bootle BPB Pub 31 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY203CC NANO TECHNOLOGY(NTL) Core Compulsory Total credit : Course type : Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 2 Programme Name : Semester : Practical (hrs) M.Sc PHYSICS 2 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 hrs) Topic Content No. 1.1 INTRODUCTION: Pre- Nanotechnology, Origins of Concepts of Nano, Advances in Experimental Methods, Nanotechnology-Basics and Basis, Size of Nano, The Meaning of Nanotechnology, Four Generations of Nanotechnology Development, Technology of General Applicability, Multi-purpose Technology, Applications of Nanotechnology. 1.2 NANOCHEMISTRY Introduction, Basic Concepts, Classification of Nanomaterials, Techniques of Production or Methodology, Size Concerns. 1.3 Fullerenes Introduction, History of Discovery, Variations, Properties of Fullerenes. 1.4 NANOPARTICLES: Introduction, History, Properties of Nanoparticles, Classification, Characterization,, Production of Nanoparticles,Morphology of Nanoparticles, Safety Issues. 2.1 2.2 CARBON NANOTUBE: Introduction, Discovery, Description, 'TYPes of Carbon Nanotubes and Related Structures,Single-walled Nanotubes, Multi-walled Nanotubes, Introduction, Structure, Research, Self-assembled Monolayars, Applications. NANOPHYSICS: Quantum Dot, Description, Quantum Confinement in Semiconductors, Optical Properties, Fabrication, Mass Production, Applications, Computing Field ,Biology, Cellular Imaging, Quantum Dots tor Thmour Thrgeting, Toxicity, Photovoltaic Devices, Light-emitting Devices, Quantum Wire, Carbon Nanotubes as Quantum Wires, Quantum Well, Fabrication, Applications, Quantum Point Contact, Fabrication, Properties, Applications.Nanocrystals,Nanocrystal solar cell. Total (Marks) 100 Hours Marks Credit W +% 32 3 3.1 3.2 4 4.1 4.2 NANOMEDICINE AND NANOBIOLOGY: Introduction, Bascic concepts and applications, Drug Delivery, Cancer Diagnosis and Therapy, Surgery, Invivo Therapy, Neuro-electronic Interfaces, Cell Repair Machines, Nanobiotechnological Devices: Nanoparticles , Dendrimers , Nanorobots, Nubot , Nanoshell , Other Applications of Nanobiotechnology BIOSENSORS : Definition , Principles of Detection , Optical (Photometric) Biosensor , Electrochemical Biosensor , Others , Applications , Nanobiosensors , Nanonose ,'Types of Nanosensors , Applications of Nanobiosensors Nanobiosensors and Cancer , Point-ofCare Testing , Nano- DNA Technology , Tile-based Arrays· , Applications. Building Blocks of DNA , DNA Sensors , DNA Field-effect Transistor , Optical Biosensors , Nanosized Optical Biosensors, Nanopathology-, Interactions. INSTRUMENTS AND METHODOLOGY Introduction, Next Generation of Nanotechnological Techniques, Modern Developments, Techniques of Nanolithography, Scanning Probe Microscope, Types of Scanning Probe Microscopy, Advantages, Disadvantages Atomic Force Microscope, Description, Parameters Measured by AFM, Image modes, Force Spectroscopy, Identification of individual surface atoms, Advantages, Disadvantages, Scanning Tunnelling Microscope( Introduction). ENVIRONMENTAL AND SOCIAL ISSUES Dangers of Molecular Manufacturing, Sudden and Unexpected Risks, Basis of Economic Disruption, Potential Economic Impact, Over-Pricing and Poverty, Terrorism, Solutions and Regulations. Environmental Damages, Regulation, Environmental and Social Issues, Pollution Prevention, Areas of Pollution Prevention, Water and Waste Water Treatment,Water Conservation, Water Purification, Water Management, \, Health Risks and Environmental Issues, Society Related Problems, Positive Aspects of Nano, Negative Aspects of Nano., Action Plan for Prevention of Disasters by Nano, Implications of Nano in the Society. Reference Book :No 1 2 3 Book Name Nanotechnology S.Shanmugam MJP Publishers Nanobiotechnology Subbiah Balaji MJP Publishers Nanoscience and Technology VS Muralidharan, A subramania Ane Books Pvt Ltd 33 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY201PR Programme Name : Semester : M.Sc PHYSICS 2 PRACTICALS(PCT) Course type : Practical Teaching time (hours) Theory (hrs) Unit Topic No. No. PRACTICAL 1 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 2 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 Practical (hrs) 4X 15=60 Total credit : 06 Examination Marking scheme Internal (Marks) External (Marks) 150 ( 6 ×3 Hours ) Content GROUP - I Hysterisis by Magnatometer Method. L by Rayleigh’s method. ‘e’ by Milicon’s method G.M. counter. Microproccessor-arithmetic operations. C Programming. Ionic conductivity in Alkali Halides. Determination of Band gap energy of given Thermister. GROUP - II Class-B Push-Pull Amplifier. MOSFET Characteristics. Amplitude modulation and demodulation. Non-Inverting OP-AMP. Voltage follower IC-723 Regulated Power Supply. OP-AMP Parameters. IC-555 Timer. Total (Marks) 150 Hours Marks Credit W +% 34 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY201ES Programme Name : Semester : M.Sc PHYSICS 2 ENERGY TECHNOLOGY AND STORAGE SYSTEMS(ETS) Course type : Elective Subject Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 2 Practical (hrs) Total credit : 04 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Topic Marks Content Hours Credit No. W +% 1.1 ENERGY TECHNOLOGY: Geothermal Energy: Introduction, Applications, Utilization of Geothermal Energy, Geothermal Energy Resources, Hydro Geothermal Resources, Hot Dry Rock Geothermal Resources. 1.2 Wind Energy: Introduction, Applications of Wind Energy and Historical Background, Merits and limitations of Wind energy Conversion, Nature and Origion of Wind, Wind Energy Quantom, Variables in Wind Energy Conversion systems, Wind power density, Power in wind Stream, Wind turbine Efficiency. 1.3 Ocean EnergyTechnologies: Introduction to energy from Ocean, Ocean Energy Resources, Off-shore and On-shore Ocean energy conversion Technologies, Advantages and limitations of Ocean energy conversion Technologies. 2.1 ENERGY STORAGE SYSTEMS: Introduction, Energy storage systems for Electrical UTILITY Peak Shaving, Pumped Hydro Energy Storage Plants and Underground Pumped Hydro, Compressed Air Energy Storage, Battery Energy Storage Systems, Lead Acid Battery Cells Nickel-Cadmium Battery, Advanced Batteries, Supper Conducting Magnet Energy Storage, Advanced Flywheel Energy Storage, Thermal Energy Storage-thermal sensible heat storage and Latent heat energy storage, Chemical Energy Storage. Reference Book :No 1 2 3 Total (Marks) 50 Book Name Energy Technology S.Rao and Dr. B.B. Parulekar 1st edition Khanna Pub.-1995 Solar Energy conversion, An introductory course A. E. Dikon and J. D. Loslie Principles of Energy Conversion Archie W. Cupl Jr. 35 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY Course type : Elective Subject MSPHY202ES Programme Name : Semester : M.Sc PHYSICS 2 SYNTHESIS OF MATERIALS (SYM) Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 2 Practical (hrs) Total credit : 04 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Total (Marks) 50 Topic Marks Content Hours Credit No. W +% 1.1 Physical Methods: Solid State Reaction (Ceramic) Method: General Principles, Experimental Procedure: Reagents, Mixing, Container Material, HeatTreatment, Analysis, Kinetics of Solid State Reaction, Disadvantages 1.2 Thin Film Synthesis: Vacuum Evaporation, Sputtering, Spin Coating, Dip Coating, Pulsed Laser Deposition (PLD), Spray Pyrolysis, Chemical Vapour Deposition (CVD). 2.1 2.2 Chemical Routes: Sol-gel Method: Principle, Lithium Niobate (LiNbO3), Doped Tin Dioxide, Silica for Optical Fiber Growth of Single Crystals: Czochralski Method, Bridgman and Stockbarger Methods, Zone Melting, Precipitation from Solution or Melt; Flux Method, Epitaxial Growth of Thin Layers. Vapour Phase Transport Methods. Reference Book :No Book Name 1 Solid State Chemistry and its Applications Anthony R. West John Wiley & Sons 2 Solid State Chemistry Lesley Smart and Elaine Moore Viva Books Pvt Limited) 3 Hand Book of Thin Film Technology K. L. Chopra MacGrow Hill 4 Thin Film Fundamentals Goswami A New Age International 5 Hand Book of Thin-Film Deposition Processes and Techniques Krishna Seshan Noyes Pub 6 Crystal Growth – A Tutorial Approach,Eds W. Bradsley, D.T.J. Hurle & J. B. Mullin North Holland 7 Crystal Growth Processes & Methods P. Santhana Raghavan, P. Ramasamy KRU Publications 36 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY203ES Programme Name : Semester : M.Sc PHYSICS 2 EXPERIMENTAL TECHNIQES(ETQ) Course type : Elective Subject Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Unit No. 1 2 Total credit : 04 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Topic Content No. 1.1 X-ray: Introduction to production of X-ray & X-ray spectra, Instrumentation, X-ray generation, collimators, filters, detectors, X-ray absorption methods, X-ray fluorescence methods, XF- Spectrometer (XFS) 1.2 Nuclear Magnetic Resonance (NMR) spectroscopy: basic principles, nuclear magnetic energy levels, magnetic resonance, NMR Spectrometer. Electron Spin Resonance spectroscopy, ESR spectrometer, ESR spectra, Hyperfine interactions. 2.1 2.2 Total (Marks) 50 Hours Mass spectroscopy : principle, spectrometer, and its operation, resolution, Mass spectrum, applications. Intrared Spectroscopy, correlation of IR spectra with molecular structure, Instrumentation. Mosbauer Spectroscopy : Mosbauer effect, spectrometer, 57 Fe Mosbauer spectroscopy, nuclear hyperfine interactions. Reference Book :No 1 2 3 4 5 Book Name Instrumentation Methods of analysis Willard Meritt, Dean,,Settle VIIth Edition CBS publishers. Mosbauer Spectroscopy Leopold May Plenum Press, N.Y. Neutron Diffraction G.C. Becon X-Ray diffraction B.D. Culity, Edison Weisley Radiation Detection & Measurment Glenn F. Knoll Marks Credit W +% 37 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN MSPHY Programme code : Course Code MSPHY301CC Programme Name : Semester : M.Sc PHYSICS 3 STATISTICAL MECHANICS AND NUCLEAR PHYSICS (SAN) Course type : Core compulsory Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 Practical (hrs) Total credit : 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 Hors ) Total (Marks) 100 Topic Marks Content Hours Credit W +% No. 1.1 Some concept in statistical mechanics and Quantum statistics : Ergodic Hypothesis, Density distribution in phase space, The Liouville Theorem, Princple of conservation of density in phase space and prnciple of conservation of extension in phase space, Condition for statistical equilibrium, Density matrix, Liouville Theorem in quantum statistical mechanics, Condition for statistical equilibrium (in quan statistics), Ensembles in quantum mechanics. 2 2.1 Ideal Bose and Fermi system and Transport phenomena ; Photon gas, Einstein derivation of Planck's law, Bose-Einstein condensation, Fermi energy, An alternate derivation of Fermi energy, Mean energy of fermions at absolute zero, Fermi gas in metals, Fermi energy as a function of temperature, White dwarfts, Compressibility of a Fermi gas, Mean collision time, Thermionic emission, Photoelectric effect, Molecular collisions, Einstein relation for mobility, Distribution function, Boltzmann transport equation, Boltzmann H-theorem in Q.M. , Maxwell-Boltzmann distribution from Boltzmann equation. 3 3.1 Two-bodv problem in nuclear physics : Introduction , The ground state of the Deuteron, Excited states of the Deuteron, Neutron-Proton scatteringat low energy, Scattering length , Spin-dependence of Neutron-Proton scattering, Singlet n-p system, Effective range theory in n-p scattering, Significance of the sign of the scattering length, Tensor force and the Deutron problem, Proton-Proton scattering at low energy, Analysis of n-p and p-p scattering, Interpretation of p-p and n-n scattering. . Nuclear Reactions: Nuclear reactions and cross section, Resonance: Breit-Wigner dispersion formula for l = 0 , The compound nucleus, The continuum theory of cross section σc, Statistical theory of Nuclear reactions. 38 4 4.1 Elementrv Particles: Classification of elementary particles, type of interaction, Baryon number, lepton number, parity, charge conjugation and time reversal, CPT theorem, charge independence nuclear forces, Isospinm consequences of Isospin, G-Parity, Strange particles, associated prediction, Gell-mann Nishijima scheme, Neutral K- meson, strangenees, oscillations (?) hypercharge, CP-violation in K- decay, Ispin and SU(2) and SU(3) ,Baryon and meson multiplates, Gell-mann Okubo mass formula. Quark model falvour and colour. Reference Book :No 1 2 3 4 5 6 7 8 Book Name Fundamentals of statistical mechanics B. B. Laud III&IV New age international (P) LTD Publishers, New Delhi. Statistical Mechanics by S.K. Sinha Tata McGraw Hills Statistical Mechanics and Properties of Matter E.S. Raja Gopal Mc Millan Company of India Limited. Nuclear Physics Roy arid Nigam New age Internation Ltd. New Delhi Introduction to high energy physics D. H. Perkins 3r edition Cambridge Uni Press Elementry particles I. H. Hughes Cambridge Uni Nuclear Physics I Kaplan Narosa Pub Introduction to Nuclear Physics by H.A.Enge Addition-Wesley 39 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN MSPHY Programme code : Course Code MSPHY302CC Programme Name : Semester : M.Sc PHYSICS 3 DIGITAL ELECTRONICS AND PROGRAMMING IN C-II (DEP) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Unit No. 1 Core compulsory Total credit : 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 Hors ) Topic Marks Content Hours Credit W +% No. 1.1 Digital Electronic: A-bit memory(R-S Flip flop), Flip Flops, J-KFlip Flop, D Flip Flop; Ttype FlipFlop , shift-register, seriato parallel converter, series-in rif.s out register, paraller to series converter, parallel in parallel out, right-shift, left-shift register, digital delay line, sequence generator. 2 2.1 Counters: Shift register ring counter, Johnson counter, Basic clocks, Ripple (asynchrpnus)counters, Rip'ple center, Updown counter, Divided by -N counter, Sychronus counter, Series carry, Parrel carry, Up down Sychronus counter with Parrel carry, Sychronus decade counter, Application of counters, Digital to Analog conversion, Variable resistor network, Binery adder, D/A converter, D/A accuracy and resolution, A/D converter counter rhethod, A/D converter simultaneous conversion. 3 3.1 Structures and Unions : Introduction, Defining a structure, Declaring structure variables, Accessing structure members, Structure initialization, copying and comparing structure variables, Operation on individual members, Arrays of structure, Arrays within structure, Structures within structures, Structures and functions, Unions, Size of structures, Bit fields Pointers :Concept, accessing the address of variables, declaring and initializing pointers, accessing variables through pointers, pointer expressions, pointer increments and scale factor, pointers and arrays, pointer and character strings, pointers and functions, pointers and structures 3.2 4 Total (Marks) 100 4.1 File management in C: Defining and Opening a File, Closing a File, I/O operations on Files, Error handuling during I/O operations, Random Access to Files, 40 Command Line Arguments. 4.2 Developing a C program: Program Design, Program Coding, Common Programming Errors, Program Testing and Debugging, Program Efficiency. Reference Book :No 1 2 Book Name Electronics and Radio engineering (9/e Reprint-2002) M.L.Gupta D.R. Sons New Delhi Programming in ANSI C Balagurusamy E IIInd Ed TMH Pub 41 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY303CC Programme Name : Semester : M.Sc PHYSICS 3 BIOPHYSICS (BIP) Course type : Core compulsory Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 2 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 Hors ) Total (Marks) 100 Topic Marks Content Hours Credit W +% No. 1.1 Separation Techniques: Introduction, Chromatography, Column chromatography, Thin layer chromatography, Paper chromatography, Adsorption chromatography, Partition chromatography, Gas liquid chromatography (GLC) , Ion exchange chromatography, Molecular exclusion chromatography,Affinity chromatography Electrophoresis: Moving boundary electrophoresis, Zone electrophoresis, Low voltage electrophoresis, High voltage electrophoresis, Gel electrophoresis, Sodium dodecyl sulphate poly acrylarnide gel electrophoresis (SDS-PAGE), Iso electric focusing, Continuous flow electrophoresis. 1.2 Physico-Chemical Techniques to Study Biomolecules: Introduction, Hydration of Macromolecules, Role of Friction, Diffusion, Sedimentation,The Ultracentrifuge, Viscosity, Rotational Diffusion:Flow birefringence measurements, Electric birefringence, Light Scattering, Small Angle X-ray Scattering. 2.1 2.2 3 Practical (hrs) Total credit : 3.1 Spectroscopy: Introduction, Ultraviolet/Visible Spectroscopy, Circular Dichroism (CD) and Optical Rotatory Dispersion (ORD), Fluorescence Spectroscopy, Infrared Spectroscopy, Raman Spectroscopy, Electron Spin Resonance Light Microscopy: Introduction , Elementary Geometrical Optics, The Limits of Resolution, Different Types of Microscopy, Bright field microscopy, Dark field microscopy, Phase contrast microscopy, Fluorescence microscopy, Polarising microscopy. NMR Spectroscopy: Introduction, Basic Principles of NMR, NMR Theory and Experiment, Classical Description of NMR, NMR Parameters, Chemical shift Intensity, Line width, Relaxation parameters, Spin-spin coupling, The Nuclear Overhause~ Effect, NMR Applications in Chemistry Chemical 42 shift, Spin-spin coupling, 13C NMR , NMR Applications in Biochemistry and Biophysic, Concentration measurement 125/S.8Y.38.2 pCHontfiotrramtiaotnion 1o2f5biomolecules, Two-Dimensional NMR, Determination of macromolecular structure, NMR in Medicine 4 4.1 4.2 Biomechanics: Striated Muscles , Contractile proteins, Mechanical Properties of Muscles, Contraction mechanism, Biomechanics of the Cardiovascu[ar System , Blood pressur, Electrical activity during the heartbeat, Electrocardiography Neurobiophysics: Introduction, The Nervous System, Synapse, MoefmMberamnberapnoetentPiaoltednutiealtso,, Voltage Clamp, S1e3n.4s.o1ry TMheevchisaunailsmresc-elTpthoer 21E8ye , Electrical activity and visual generator potentials, Optical defects of the eye, Neural aspects of vision,Visual communications, bioluminescence, Physical Aspects of Hearing, The Ear, Elementary acoustics, Theories of hearing, Signal Transduction, Mode of transport, Signal transduction in the cell. Reference Book :No 1 2 Book Name Biophysics VasanthaPattabhi and N Gautham, Narosa Pub Introduction to Biophysics Pranabkumar Banerjee, S.Chand. 43 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY301PR Programme Name : Semester : M.Sc PHYSICS 3 PRACTICALS (PCT) Course type : Practical Teaching time (hours) Theory (hrs) Unit No. 1 Topic No. Practical (hrs) 4X 15=60 Total credit : 06 Examination Marking scheme Internal (Marks) External (Marks) 150 ( 6 ×3 Hours ) Content 1.8 GROUP - I An optical method for determing dielectric constant, dipole moment and polarizability of a polar liquid by Hollow Prism. Young’s modulus by optical method G.M. Counter Microwave Fiberless optical communication using Laser Fiber optics Ultrasonic Interferometer-Determination of Velocity of Ultrasonic waves in a liquid/solid C Programming 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 GROUP - II Frequency Modulation and Demodulation. Phase shift Oscillator using IC-741. AstableMultivibratorwith IC -555 TRIAC characteristics BiastableMultivibrator R-S FLIP-FLOP SCR as a Triangular wave generator Scmitt trigger using transistor. 1.1 1.2 1.3 1.4 1.5 1.6 1.7 2 Total (Marks) 150 Hours Marks Credit W +% 44 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY301ES Programme Name : Semester : M.Sc PHYSICS 3 LINEAR ICS APPLICATIONS (LAP) Course type : Elective Subject Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 2 Practical (hrs) Total credit : 04 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Topic Marks Content Hours Credit No. W +% 1.1 Signal processing circuits: Active Filters - First/second order low pass,high pass Butterworth filter, higher order filter, band pass filter (wide/narrow), Bandreject filter (Wide/narrow), All pass filter.Electronic Analog computation using OpAmps. Simulation of transfer function, squareroot, as Rectifier, RMS and phase shift detectors. 2.1 Special Purpose Amplifiers: Opamps using FET input stages, tone controls and graphic equalizers, Isolation Amplifiers, Video Amplifiers LM 733 and RCA 3040, Wide band operational amplifiers. Norton's OpAmp-LM 3900, Norton OpAmp in inverting and Non inverting configuration, FET input OpAmp. Reference Book :No 1 2 3 Total (Marks) 50 Book Name OpAmp. and Linear Integrated circuits, PHI. (3rd Ed.) Gayakwad Integrated circuits (8th Ed). K.R.Botkar KhannaPrakashan Operational Amplifiers and Linear integrated circuits,PHI Coughlin and Driscoll 45 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY302ES Programme Name : Semester : M.Sc PHYSICS 3 PULSE AND MICROWAVE ELECTRONICS (PME) Course type : Elective Subject Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 2 Practical (hrs) Total credit : 04 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Topic Content No. 1.1 Characteristic of Pulse waveforms, rise time, fall time, duty cycle concept, tilt,R-C circuits, constant rate charging, relationship between rise time and upper cutofffrequency, relationship between fall time and tilt. Schmitt trigger and Ramp generator : Circuit operation, designing for a given uppertrigger point (UTP) and lower trigger point (LTP), speed-up capacitor, input and out putcharacteristics, RC ramp generators. 2.1 Fundamentals of microwave technology, limitations of vacuum tubes. Klystrons, Twocavity Klystron, Multi-cavity and Reflex Klystrons, Traveling wave tube, Magnetron Antennas: Terms and definition, Antenna gain, resistance, beamwidth and polarization, resonant& non resonant antenna, effect of ground on antennas, antenna height,directional high frequency antennas, dipole arrays, Yagi-Uda antenna, Parabolic reflector. Reference Book :No 1 2 3 Book Name Solid State Pulse Circuits David A Bell PHI Electronic Communication Systems George Kennedy TMH Microwave Devices & Circuits, III Edition Samuel Y. Liao, PHI Electronic communications systems Wayne Tomasi Pearson Education Total (Marks) 50 Hours Marks Credit W +% 46 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY303ES Programme Name : Semester : M.Sc PHYSICS 3 RESEARCH METHODOLOGY (RML) Course type : Elective Subject Teaching time (hours) Theory (hrs) 4X 15=60 Unit No. 1 2 Practical (hrs) Total credit : 04 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 2 Hors ) Total (Marks) 50 Topic Marks Content Hours Credit No. W +% 1.1 What is research?, Science and research, Basic and applied research, Essencial steps in Research. Literature collection: Need for review of literature, Review process, Research reading, Reference cards, Literature citation, Different systems. 2.1 2.2 Components of research repoet/Thesis: Field work and laboratory work, photography, Preparation of tables, Preparation of figures. Research repoet/Thesis –formatting and typing (computing): Title page, certificate, declation, acknowledgement, list of table, figures, abbreviations and symbols, chapter quotations, table, figures, summary, appendices, references etc. Reference Book :No 1 2 3 Book Name Research Methodology with statistical pakage for social sciences Dr.A.SafeevanRao&Dr.Dipak, Tyagi, Shree Nivas Pub. -Jaypur Research Methodology G.R Basotia and K.K. Sharma, Mangal Deep Jaypur Research Methodology Morden methods and New techniques M.N,Borse, Shree Nivas Jaypur Research Methodology Morden methods and techniques Anil Tandon, Annol New Delhi 47 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY401CC MATHEMATICAL PHYSICS -II Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Unit No. 1 Core compulsory Programme Name : Semester : M.Sc PHYSICS 4 AND QUANTUM MECHANICS – II (MPQ) Total credit : 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 Hors ) Topic Content No. 1.1 Tensor analysis : Introduction , Defination, Contravariant vector, Covariant vector, Defination of Tensors of rank two, addition & subtraction of tensor, summation convention, symmetry - anti symmetry of second rank tensor, Contraction, Direct product, Quotient rule, Pseudo tensors Dual tensor Levi-civita symbol, irreducible tensor, Non cartesian tensors, Matrc tensor christoffel symols,christoffel symbols asdervatives of matric tensor,covariant derivative, Tensor derivative operators. 2 2.1 Group theory : Groups, subgroups and classes, Invariant, subgroups and factor groups, Homomorphism & Isomorphism, Group representation, Reducible & Irreducible representations, Schur's lemma, Orthogonality theorem, Character of representation,Character table, Decomposing a reducible representation into Irreducible ones, Construction of representations, Lie groups & Lie algebra, The Three dimensional rotation groups SO(3), The special unitary groups SU(2) and SU(3), The homomorphism between SU(2) & SU(3), Some application of group theory in physics, ( application- 4 classification of elementy particles 3 3.1 Scattering theory : The scatteing cross-section. General considerations: Kinematics of scattering process; Differential and Totalcrosssections, Wave mechanical picture of scattering:- The scattering amplitude, Green functions : Formal expression for scattering Amplitude, The Born and Eikonal Approximations, The Born Approximation, The validity of the Born Approximation, The Born series, The Eikonal Approximation Total (Marks) 100 Hours Marks Credit W +% 48 4 4.1 Partial Wave Analysis : Asymptotic Behaviour of partial waves : phase shift, The scattering Amplitude in terms of phaseshifts, The Differential and Total cross-sections, Optical Theorem , Phace shiftt: relation to the potentials, Potentials of finite range, Low energy scattering, Exac soluble problems, Scattering by a square well, scattering by a hard sphere, scattering by a coulumb potential mutual scattering of two particles , Reduction of the two body problen : The centre of mass frame ,Transfomation from centre of mass to Laboratory frame of reference , collisions between identical particles. Reference Book :No 1 2 3 4 5 6 7 8 9 Book Name A textbook of Quantum mechanics by P. M. Mathews and K. Venkatesan 1976 TMH New Delhi. (Basic reference) Mathematical Methods in Physical Sciences by M.L. Boas, John Wiley&Sons Mathematical Physics by H. K. Dass. Mathematical Physics by Styaprakash, S.Chand. Quantum Mechanics by L. I. Schiff, McGraw-Hill International student edition (1961). Quantum Mechanics Vol I & II A. Messiah, Jhon Wiley & Sons, INC (19 68) Introduction to Quantum Mechanics by Powell and Crasemann Addiso -Wesley (1961). Quantum Mechanics by V.K. Thankappen, Wiely eastern Ltd. Quantum Mechanics : Theory and applications by A. Ghatak and S. Lokanathan 49 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY402CC Programme Name : Semester : M.Sc PHYSICS 4 SOLID STATE PHYSICS-II AND ELECTRONICS-II (SSE) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Unit No. 1 Core compulsory Total credit : 04 Examination Marking scheme Internal (Marks) 30 External (Marks) 70 ( 3 Hors ) Topic Content No. 1.1 Imperfections in Crystals: Point Imperfections, Line Imperfections: Dislocations, Stress fields of Dislocations, Planar Imperfections: grain boundaries, Role of dislocation in Crystal growth, Strength of alloys. 2 2.1 Magnetism: Diamagnetism, Paramagnetism, Magnetic resonance: ESR, NMR, Spin relaxation,Weiss theory of Ferromagnetism, The exchange interaction, The Heisenberg model, Ferromagnetic domains: The Bloch wall, Origin of domains, Neel model of Anti ferromagnetism, Neel model of Ferrimagnetism, Spin waves: Magnons in Ferromagnets, The Bloch T3/2 law, Magnons in antiferromagnets. 3 3.1 FET Amplifiers: FET parameters, biasing the FET , basic FET amplifier, FET small signal, common source amplifier, The common drain or source follower, common gate amplifier, general treatment of low frequency common source arid common drain arnpfilier. Power supplies ( Electronic regulation): Basic blocks of linear voltage regulation, Basic voltage regulation building blocks, protection circuitry, Adjustable type 723 regulator, Typical regulator circuit using 723 IC , Three terminal voltage regulator, General feature, Threeterminal fixed voltage regulator Ics and their design 3.2 4 4.1 Tuned voltage amplifiers: Introduction , Tuned amplifies, Resonance, Series resonant circuit, Parellel resonant circuit, Advantage of tuned amplifiers, voltage gain and Frequency response Total (Marks) 100 Hours Marks Credit W +% 50 4.2 curve, Doubled tuned voltage amplifiers. IC Fabrication: IC Technology, Advantages and limitations of ICs, Basic monolithic IC technology, Basic processes used in monolithic technology, Monolithic integrated components, Transistors of monolithic ICs, Monolithic diodes. Handbook of Electronics by Gupta and Kumar, Pragati prakashan, Meerut,30th revised edition 2002. Reference Book :No Book Name Basic reference : 1 Handbook of Electronics by Gupta and Kumar, Pragati prakashan, Meerut,30th revised edition 2002. 2 Electronic & radio engineering 9th Edition reprint 2002 by M.L.Gupta(D R publi-Shers co.) 3 Integrated circuits 9th Edition First Print 1997 By K.R.Botkar, Khanna Publishers Delhi. 4 Handbook of Electronics 30th revised edition 2002 by Gupta and Kumar (P. P. M) Chapter: 13 5 Elements of Solidstate Physics by J.P Srivastava, PHI-New Delhi. (For U-I&II) Other references : 1 Introduction to Solid state Physics by Kittle C.,Wiley Eastern 2 Fundamentals of Solid State Physics by Saxena,- Gupta- Saxena, Pragati Prakashan 3 Integrated Electronics by Milmann and Halkais 4 Electronic devices and circuits by Y.N.Bapat 51 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY401MP Programme Name : Semester : M.Sc PHYSICS 4 PROJECT(PRT) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Minor Project Total credit : 06 Examination Marking scheme Internal (Marks) External (Marks) 150 Project Report Project Presentation VIVA Total (Marks) 150 52 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY401ES Programme Name : Semester : M.Sc PHYSICS 4 ENGLISH LANGUAGE COMMUNICATION (ELC) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Elective Subject Total credit : 02 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 3 Hors ) Total (Marks) 50 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY402ES Programme Name : Semester : M.Sc PHYSICS 4 PERSONALITY DEVELOPMENT (PDM) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Elective Subject Total credit : 02 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 3 Hors ) Total (Marks) 50 53 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY401PR Programme Name : Semester : M.Sc PHYSICS 4 PRACTICALS (PCT) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Unit No. 1 Topic No. Practical Total credit : Examination Marking scheme Internal (Marks) External (Marks) 100( 3 Hors ) Content 1.1 1.2 1.3 1.4 1.5 1.6 1.7 Group – I Babinet compensator Fiber Optics Microwave Fiberless optical communication using IR C Programming Microprocessor e/m by Helical method 2.1 2.2 2.3 2.4 2.5 2.6 2.7 Group – II Study of Differentiator Study of Integrator. D/A and A/D Convertor. Sawtooth generator using OP-AMP Square wave generator. Modulo n-counter. Crystal Oscillotor 2 04 Total (Marks) 100 Hours Marks Credit W +% 54 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY403ES Programme Name : Semester : M.Sc PHYSICS 4 ENGLISH LANGUAGE COMMUNICATION (ELC) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Elective Subject Total credit : 02 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 3 Hors ) Total (Marks) 50 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY MSPHY404ES Programme Name : Semester : M.Sc PHYSICS 4 PERSONALITY DEVELOPMENT (PDM) Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Elective Subject Total credit : 02 Examination Marking scheme Internal (Marks) External (Marks) 50 ( 3 Hors ) Total (Marks) 50 HEMCHANDRACHARYA NORTH GUJARAT UNIVERSITY, PATAN Programme code : Course Code MSPHY Course type : Teaching time (hours) Theory Practical (hrs) (hrs) 4X 15=60 Elective Subject MSPHY404ES Programme Name : Semester : M.Sc PHYSICS 4 DISSERTATION (DIN) Total credit : 18 Examination Marking scheme Internal (Marks) External (Marks) 450 ( 3 Hors ) Total (Marks) 450
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