rptinstructionplan (3)
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Lovely Professional University,Punjab
Course No Cours Title Course Planner Lectures Tutorial Practical Credits
PHY112 MODERN PHYSICS AND ELECTRONICS 13563 :: Neeraj Kumar 3 1 0 4
Course Category Courses with numerical focus
Sr. No. (Web adress) (only if relevant to the courses) Salient Features
5 http://www.brainflux.org/java/classes/Schrodinger1D.html This simulation helps us to understand the concept of Schrodiger wave equation in case of Particle in a box. Step potential, SHO, particle in a Well.
6 http://pegasus.cc.ucf.edu/~jparadis/STM/Animation.html Simulation helps to understand the Scanning tunneling microscope
7 http://jas.eng.buffalo.edu/education/pn/pnformation/pnformation.html
This simulation helps to understand that how PN junction is formed and what is the effect on the energy levels.
8 http://math.hws.edu/TMCM/java/labs/xLogicCircuitsLab1.html This web address lead us to download x logic circuit which is very good simulation to understand the logic gate families.
9 http://www.falstad.com/circuit/e-rectify.html Simulation leads us to a working circuit diagram which helps to understand half wave rectifier.
10 http://www.falstad.com/circuit/e-fullrect.html Simulation leads us to a working circuit diagram which helps to understand full wave bridge rectifier.
Sr No Jouranls atricles as compulsary readings (specific articles, Complete reference)
Serway A. Raymod, Jewett. W. John, Physics for Scientists and Engineers, Cengage learning, New Delhi, 8th editon1Text Book:
Other Specific Book:Boylestad. R.L. and Nashelsky. L, Electronic Devices and Circuit Theory, 9th Edition, Pearson Education, New Delhi, 2007.2
Beiser A, Concept of Modern Physics, Tata McGraw Hill, New Delhi, 2007.3
Serway R.A., Moses C.J. and Moyer C.A., Modern Physics, Thomson, New Delhi, 2007.4
Relevant Websites
Other Reading
Format For Instruction Plan [for Courses with Lectures and Tutorials
1 Approved for Spring Session 2011-12
11 http://www.phy.ntnu.edu.tw/ntnujava/index.php?topic=27 This clipper simulation helps to understand that how clipper circuit change the shape of the input AC supply.
12 http://www.falstad.com/circuit/e-voltdouble.html This simulation helps to understand the voltage doublers circuit.
13 http://www.falstad.com/circuit/e-volttriple.html This simulation helps to understand the voltage triples circuit.
Detailed Plan For Lectures
Week Number Lecture Number Lecture Topic Chapters/Sections of Textbook/other reference
Pedagogical tool Demonstration/case study/images/anmation ctc. planned
Part 1Week 1 Lecture 1 Black body radiation and Planck's hypothesis ->Reference
:1,40.1/p1186
Lecture 2 Black body radiation and Planck's hypothesis ->Reference :1,40.1/p1186
JAVA SIMULATION.
Lecture 3 Photoelectric effect. ->Reference :1,40.2/p1192
JAVA SIMULATION.
Week 2 Lecture 4 Compton effect. ->Reference :1,40.3/p1197
Lecture 5 Compton shift equation ->Reference :1,40.3/p1199
Lecture 6 Photons and Electromagnetic waves, The wave properties of particles.
->Reference :1,40.4-40.5/p1200 & p1201
(TERM PAPER ALLOCATION)
Week 3 Lecture 7 Photons and Electromagnetic waves, The wave properties of particles.
->Reference :1,40.4-40.5/p1200 & p1201
Lecture 8 The Quantum particle. ->Reference :1,40.6/p1204
Lecture 9 Double slit experiment revisited. ->Reference :1,40.7/p1207
JAVA SIMULATION.
Week 4 Lecture 10 The uncertainty principle. ->Reference :1,40.8/p1208
Part 2Week 4 Lecture 11 The Interpretation of quantum mechanics. ->Reference
:1,41.1/p1220
2 Approved for Spring Session 2011-12
Week 4 Lecture 12 The Interpretation of quantum mechanics(The wave function).
->Reference :1,41.1/p1222
Week 5 Lecture 13 Quantum particle under boundary conditions ->Reference :1,41.2/p1224
Lecture 14 Quantum particle under boundary conditions ->Reference :1,41.2/p1228
Lecture 15 TEST 1 (TEST 1)
Week 6 Lecture 16 The Schrondinger equation. ->Reference :5->Reference :5->Reference :1,41.3/p1230
JAVA SIMULATION
Lecture 17 Particle in a well of finite height. ->Reference :1,41.4/p1232
Lecture 18 Tunneling through a potential energy barrier ->Reference :1,41.5/p1234
JAVA SIMULATION based on tunneling.
Week 7 Lecture 19 Application of tunneling. ->Reference :7,->Reference :1,41.6/p1235
JAVA SIMULATION
Lecture 20 The simple harmonic oscillator. ->Reference :1,41.7/p1239
Lecture 21 The simple harmonic oscillator. ->Reference :1,41.7/p1239
MID-TERMPart 3
Week 8 Lecture 22 Energy Levels, Extrinsic Materials: n-Type and p-Type.
->Reference :2,Sec1.4&1.5/pp5&7
Animation on p and n type.
Lecture 23 Semiconductor Diode and its biasing. ->Reference :2,Sec1.6/pp10->Reference :8,
JAVA SIMULATION on forward and reverse biasing.
Lecture 24 Ideal diode versus practical, Resistance levels. ->Reference :2,Sec1.7&1.8/pp18&20
Week 9 Lecture 25 Load-Line Analysis and numerical problems, Series Diode Configurations.
->Reference :2,2.2-2.3/pp58
Lecture 26 Parallel and Series Parallel Configurations. ->Reference :2,2.4/pp69
Lecture 27 OR, AND Gates. ->Reference :2,2.5/pp72->Reference :8
JAVA SIMULATION
3 Approved for Spring Session 2011-12
Week 10 Lecture 28 Sinusoidal Inputs; Half-Wave Rectification. ->Reference :2,2.6/pp74->Reference :9
JAVA SIMULATION.
Lecture 29 Full Wave Rectification. ->Reference :2,2.7/pp77->Reference :10
JAVA SIMULATION(TERM PAPER SUBMISSION)
Part 4Week 10 Lecture 30 Clippers. ->Reference
:2,2.8/pp81->Reference :11
JAVA SIMULATION.
Week 11 Lecture 31 Clampers. ->Reference :2,2.9/pp88
Lecture 32 Zener Diodes. ->Reference :2,2.10/pp92
Lecture 33 Voltage-Multiplier Circuits. ->Reference :2,2.11/pp100->Reference :12->Reference :13
JAVA SIMULATION
Week 12 Lecture 34 TEST 2 (TEST 2)
Lecture 35 Transistor Construction, Transistor Operation. ->Reference :2,Sec3.2&3.3/pp131
Lecture 36 Common-Base Configuration. ->Reference :2,Sec3.4/pp133
Week 13 Lecture 37 Transistor Amplifying Action. ->Reference :2,Sec3.5/pp137
Lecture 38 Common-Emitter Configuration. ->Reference :2,Sec3.6/pp137
Lecture 39 Common-Collector Configuration. ->Reference :2,Sec3.7/pp144
Spill OverWeek 14 Lecture 40 Transistor specification sheet ->Reference
:2,Sec3.9/pp146
Lecture 41 Transistor testing. ->Reference :2,Sec3.10/pp150
Details of homework and case studies
4 Approved for Spring Session 2011-12
Homework No. Objective Topic of the Homework Nature of homework(group/individuals/field
work
Evaluation Mode Allottment / submission
Week
Term Paper,Test 1
Term Paper to develop paper writing skill of students
A report on a topic for which one review before MTE and second after MTE to be taken.
Individual total 30 marks, 5 marks for first review, 15 marks for written and 10 marks for final viva
2 / 10
Term Paper,Test 3
Test (20 marks test- Questions in multiples of 5) to develop numerical skills of students
Energy Levels, Extrinsic Materials: n-Type and p-Type, Semiconductor Diode and its biasing, Ideal diode versus practical, Resistance levels, Load-Line Analysis and numerical problems, Series Diode Configurations, Parallel and Series –Parallel Configurations, OR, AND Gates, Sinusoidal Inputs; Half-Wave Rectification, Full –Wave Rectification, Clippers, Clampers, Zener Diodes
Individual Step wise marking 10 / 12
Term Paper,Test 2
Test (20 marks test- Questions in multiples of 5) to develop numerical skills of students
Blackbody radiation and Planck’s hypothesis, Photoelectric effect, Compton effect, Nature of electromagnetic waves, wave properties of particles, A new model: the quantum particle, Double slit experiment revisited, the uncertainty principle, The wave function, Analysis model: Quantum particle under boundary conditions
Individual Step wise marking 3 / 5
Scheme for CA:out of 100*Component Frequency Out Of Each Marks Total Marks
Term Paper,Test 2 3 10 20
Total :- 10 20
* In ENG courses wherever the total exceeds 100, consider x best out of y components of CA, as explained in teacher's guide available on the UMS
List of suggested topics for term paper[at least 15] (Student to spend about 15 hrs on any one specified term paper)
Sr. No. Topic
1 Vacuum Pumps
2 Optical Tweezers
3 Fibre optics
4 Time dilation and length contraction
5 Approved for Spring Session 2011-12
5 Basic theory of nanotechnology, future prospective of nanotechnology.
6 Electronics to Microelectronics
7 Microprocessors
8 Flip flops
9 Op-Amp
10 Atomic Force Microscope
11 Spectrometer and its applications
12 Cosmic rays and its effects
13 Sensors
14 MASER
15 Black holes
16 Global warming and its effects
17 SONAR
18 Laser, action and Einstein’s theory of lasers, types, applications in industry and medical field.
19 Mobile communication
20 Future power source
21 Van Allen Belt
22 LCD and applications
23 X ray diffraction and applications
24 Laser plasma interaction
25 Scanning Tunneling Microscope
Plan for Tutorial: (Please do not use these time slots for syllabus coverage)Tutorial No. Lecture Topic Type of pedagogical tool(s) planned
(case analysis,problem solving test,role play,business game etc)
Tutorial 1 Blackbody radiation and Planck’s hypothesis. Problem solving
Tutorial 2 Photoelectric effect, Compton effect. Problem solving
Tutorial 3 Nature of electromagnetic waves, wave properties of particles.
Problem solving
6 Approved for Spring Session 2011-12
Tutorial 4 A new model: the quantum particle, Double slit experiment revisited, the uncertainty principle.
Problem solving
Tutorial 5 The wave function, Analysis model: Quantum particle under boundary conditions, The Schrödinger equation, particle in a well of finite height.
Problem solving
Tutorial 6 TERM PAPER REVIEW Problem solving,TERM PAPER REVIEW
Tutorial 7 Tunneling through a potential energy barrier, application of tunneling, The simple harmonic oscillator.
Problem solving
After Mid-TermTutorial 8 Energy Levels, Extrinsic Materials: n-Type and p-Type,
Semiconductor Diode and its biasing, Ideal diode versus practical, Resistance levels, Load-Line Analysis and numerical problems
Problem solving
Tutorial 9 TERM PAPER VIVA Problem solving,TERM PAPER VIVA
Tutorial 10 Series Diode Configurations, Parallel and Series –Parallel Configurations, OR, AND Gates, Sinusoidal Inputs; Half-Wave Rectification, Full –Wave Rectification.
Problem solving
Tutorial 11 Clippers, Clampers, Zener Diodes, Voltage-Multiplier Circuits.
Problem solving
Tutorial 12 Transistor Construction, Transistor Operation, Common-Base Configuration.
Problem solving
Tutorial 13 Transistor Amplifying Action, Common-Emitter Configuration, Common-Collector Configuration.
Problem solving
7 Approved for Spring Session 2011-12