NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester II)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital Design
Unit: I No. of Hours Allotted: 12
Topics to be covered No. of Hours
Introduction to Diodes and characteristics 01
Special characteristics 01
Bipolar Junction transistor characteristics 01
RTL and DTL Circuits 02
TTL(Transistor Transistor Logic) circuits 02
ECL (Emitter Coupled Logic) Circuits 01
MOS (Metal Oxide Semiconductor) 01
CMOS (Complementary Metal Oxide Semiconductor) 01
CMOS transmission gate circuits 02
Name of the Teacher: Head, Department of Physics
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester II)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital Design
Unit: II No. of Hours Allotted: 14
Topics to be covered No. of Hours
Introduction to Flip Flops 01
Flip-Flop Excitation Tables 01
Characteristic Equations for Flip Flops 01
Sequential Circuits or State Machines, Block diagrams of Mealy and Moore
models
01
Analysis of Clocked Sequential Circuits 02
State Tables and State Diagrams 01
Design Procedure 01
Designing SM with Edge Triggered Flip Flops (D,J-K Type) 03
State Reduction and Assignment 01
Design of Counters 01
Binary Sequence and Non-binary Sequence 01
Name of the Teacher: Head, Department of Physics
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester II)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital Design
Unit: III No. of Hours Allotted: 12
Topics to be covered No. of Hours
Introduction, Binary Adder and Subtractor 01
Decimal Adder 01
Magnitude Comparator 01
Decoders and Encoders 01
Multiplexers 01
Read Only Memory(ROM) 01
Programmable Logic Array(PLA) 01
Programmable Array Logic(PAL) 01
Introduction to ASM Chart 01
Timing Considerations 01
Control implementations 01
Design with Multiplexers 01
Name of the Teacher: Head, Department of Physics
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester II)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital Design
Unit: IV No. of Hours Allotted: 12
Topics to be covered No. of Hours
Introduction to Operational amplifiers 03
Inverting amplifiers 01
Non-inverting amplifiers 01
R-2R Ladder network 01
Analog to Digital Converter 02
Digital to Analog Converter 02
Name of the Teacher: Head, Department of Physics
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester VI)
Class: B. Sc III year Section: Computer Hardware
Course/ Paper: Computer Networks
Unit: I No. of Hours Allotted: 10
Topics to be covered No. of Hours
Introduction to Data Communications 01
Networks, Protocols and Standards 01
Topology 01
OSI & TCP/IP Protocol Suites 01
Physical Layer: Transmission modes 01
DTE-DCE Interface 01
Modems 01
Guided and Unguided Media 01
Multiplexing and Switching 01
DSL, FTTC 01
Name of the Teacher: Head, Department of Physics
Signature: Signature
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester VI)
Class: B. Sc III year Section: Computer Hardware
Course/ Paper: Computer Networks Number of hours Allotted: 10
Unit II
Topics to be covered No. of Hours
Introduction to Data Link layer 01
Line discipline, Flow Control, Error Control 01
Asynchronous protocols 01
Synchronous protocols 01
Character Oriented Protocols 01
Bit Oriented Protocols 01
Link Access Procedures 01
LANs and MANs, Project 802 01
Ethernet, Token bus, Token ring 01
FDDI, Fast Ethernet, DQDB, SMDS, PPP 01
Name of the Teacher: Head, Department of Physics
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester VI)
Class: B. Sc III year Section: Computer Hardware
Course/ Paper: Computer Networks No. of Hours Allotted: 10
Unit : III
Topics to be covered No. of Hours
Repeaters, Bridges, Hubs 01
Switches, Routers, Gateways 01
Shortest path routing, Distance Vector routing 01
Link State routing, X.25 layers and protocols 01
Congestion Control-Leaky bucket algorithm 01
TCP/IP Protocol Suite- IP protocol 01
IP addresses, Sub-netting 01
IPv4, IPv6, ARP 01
RARP, ICMP, ISDN services and channels 01
Broadband ISDN, ATM Design goals, architecture and layers 01
Name of the Teacher: Head, Department of Physics
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester VI)
Class: B. Sc III year Section: Computer Hardware
Course/ Paper: Computer Networks
Unit: IV No. of Hours Allotted: 10
Topics to be covered No. of Hours
Responsibilities of Transport layer 01
Transport Connection 01
OSI Transport Protocol 01
TCP, UDP 01
Application Layer : BOOTP and DHCP 02
DNS, TELNET, FTP, SMTP 01
HTTP, WWW, VoIP 01
Four aspects of Network security 01
Privacy, Digital Signatures 01
Name of the Teacher: Head, Department of Physics
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester I)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital circuits and combination logic
Unit: I No. of Hours Allotted: 12
Topics to be covered No. of Hours
Number systems: Binary, Octal, Decimal and Hexadecimal 01
Binary to Decimal, Octal and Hexadecimal conversion, Decimal to Binary,
Octal and Hexadecimal conversion
02
Octal to Binary, Decimal and Hexadecimal conversion, Hexadecimal to Binary,
Octal and Decimal conversion
02
Introduction to Logic gates 01
Truth tables of NOT, OR, AND, NAND, NOR, XOR, XNOR gates 01
Demorgan’s Laws 01
Boolean Algebra 01
Logic equations and simplification 02
Introduction to ASCII and GRAY codes; Conversion of Gray to binary and
binary to gray numbers
01
Name of the Teacher: Head, Department of
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester I)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital circuits and combination logic
Unit: II No. of Hours Allotted: 12
Topics to be covered No. of Hours
Boolean lows and theorems 01
Introduction and truth table to Karnaugh map 01
pairs, quads and octets 01
sum of the products method, product of sums method 01
Karnaugh simplification 03
Introduction to Data processing Circuits, Multiplexers 01
Demultiplexers 01
Encoders, priority encoder 01
Decoder 01
Exclusive OR gate: Parity generators and checkers 01
Name of the Teacher: Head, Department of
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester I)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital circuits and combination logic
Unit: III No. of Hours Allotted: 12
Topics to be covered No. of Hours
Binary Addition, subtraction 01
Octal, Hexadecimal addition and subtraction 02
2’s complement, 2’s complement Arithmetic 01
Half Adder and truth table 01
Full Adder and truth table 01
The Adder subtractor 01
Binary Multiplication and division 01
Read Only Memory(ROM) 01
Programmable Read Only Memory(PROM) 01
Applications of ROM, PROM 01
Random Access Memory (RAM) 01
Name of the Teacher: Head, Department of
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester I)
Class: B. Sc I year Section: Computer Hardware
Course/ Paper: Digital circuits and combination logic
Unit: IV No. of Hours Allotted: 12
Topics to be covered No. of Hours
Introduction to Flip-Flops, The clocked R-S Flip Flop 01
The J-K Flip Flop, Preset and Clear 01
The T-Flip Flop, Introduction to shift registers 01
Asynchronous counter (Ripple Counter) 01
Divided by 2, 5, 10 (decade) counters 02
Master Slave JK Flipflop, Race around condition 02
The D-Flip Flop 01
Random Access Memory (RAM) 01
Memory Decoding 01
Error Correcting Codes 01
Name of the Teacher: Head, Department of
Signature: Signature:
D. MAHIJA
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester IV)
Class: M.Sc Final Year Section: Bio-Physics
Course/ Paper: Bio-Physics / Radiation Biophysics
Unit: I No. of Hours Allotted: 10
Topics to be covered No. of Hours Introduction 1 Light sources and materials 1 monochromators 1 intensity measurements 1 Definition and theory of action spectra 1 Inactivation of proteins and DNA 1 Light action on respiratory pigments 1 Photosynthesis,examples 1 Cooperative events in light action 1 the Poisson’s distribution, examples. 1
Unit: II No. of Hours Allotted: 12
Topics to be covered No. of Hours Nature of ionizing radiation 1 Measure of radiation – the roentgen 1
Ionisation by X-rays, rays or neutrons 2 Bethe’s equation - derivation and application 2 Dosimetry 1 Action of ionizing radiation on molecular systems 1 Target theory;Variable linear energy transfer 1 Radiation sensitivity of large molecules 1 Ionising radiation interaction with tissues and
chromosomes. 2
Unit: III No. of Hours Allotted: 10
Topics to be covered No. of Hours Production of X-ray beams 1 X-ray machine; Properties of X-rays 1 Absorption of X-rays 1 X-ray image intensifier T.V 1 Radiation to patient from X-ray 1 Live X-ray imaging – fluoroscopy 1 Mamography 1 theory, instrumentation, working of CT scan 1 MRI scan 1 PET scan 1
Unit: IV No. of Hours Allotted: 12
Topics to be covered No. of Hours Radioactivity and radiation sources 2 Statistical aspects of nuclear medicine 1 Basic instrumentation and its clinicalapplications. 2 Nuclear medicine imagingdevices 1 Physical principles of nuclear medicine 1 Imaging procedures and RIA 1 Therapy with radioactivity 1 Biological effects of radiation - principles of
radiation therapy 1
mega voltage therapy 1 Brachy therapy 1
Name of the Teacher: Dr Abdul Hameed Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2018 (Semester III)
Class: M.Sc., II-Year, III-Semester Section:
Course/ Paper: 8051 MICRO-CONTROLLER & ITS APPLICATIONS/ P303/T/EC Paper- III
Unit: I No. of Hours Allotted: 12
Topics to be covered No. of Hours
1 Architecture Of Microcontroller 8051: 1
2 Micro controllers & Embedded Processors: 1
3 Micro controller versus General-purpose Microprocessors, 1
4 Microcontrollers for embedded systems, 1
5 Embedded applications, choosing a Microcontroller. 1
6 8051 Architecture: 8051 Microcontroller hardware, input/output pins, 1
7 Ports and circuits, 1
8 External memory, 1
9 Counter and timer, 1
10 Serial data input and output, 1
11 Interrupts, 1
12 Other members of 8051. 1
Name of the Teacher: Dr. R. Saranga Pani Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2018 (Semester III)
Class: M.Sc., II-Year, III-Semester Section:
Course/ Paper: 8051 MICRO-CONTROLLER & ITS APPLICATIONS/ P303/T/EC Paper- III
Unit: II No. of Hours Allotted: 14
Topics to be covered No. of Hours
1 8051 Instructions and Assembly Language Programming: 1
2 Addressing modes: immediate and register addressing modes, 1
3 accessing memory using various addressing modes. 1
4 Arithmetic instructions and programs unsigned addition and subtraction, 1
5 unsigned multiplication and division, 1
6 signed members concepts and arithmetic operations. 1
7
Logic Instruction and programs: Logic and compare instructions rotate and
1
swap instructions.
8 Jump, Loop and call instructions; Loop and jump instructions, 1
9 call instructions, 1
10 time delay, generation and calculation. 1
11 Single bit instructions and programming: single bit instruction programming, 1
12 single bit operation with carry reading input pins versus port latch. 1
13 I/O port programming: I/O programming, 1
14 bit manipulation. 1
Name of the Teacher: Dr. R. Saranga Pani Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2018 (Semester III)
Class: M.Sc., II-Year, III-Semester Section:
Course/ Paper: 8051 MICRO-CONTROLLER & ITS APPLICATIONS/ P303/T/EC Paper- III
Unit: III No. of Hours Allotted: 14
Topics to be covered No. of Hours
1 8051 Timer / Counter, 1
2 Serial Communication And 1
3 Interrupts Programming: 1
4 Timer / Counter programming: programming 8051 timers, 1
5 counter programming, 1
6 pulse frequency and pulse width measurements. 1
7 Serial data communication programming: 1
8 Basics of serial communication, 1
9 8051 connection to RS232, 1
10 8051 serial communication programming. 1
11 Interrupts programming: Interrupts of 8051; 1
12 programming timer interrupts, 1
13 programming external hardware interrupts, and 1
14 programming serial communication interrupts. 1
Name of the Teacher:
Signature:
Dr. R. Saranga Pani
Head, Department of
Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2018 (Semester III)
Class: M.Sc., II-Year, III-Semester Section:
Course/ Paper: 8051 MICRO-CONTROLLER & ITS APPLICATIONS/ P303/T/EC Paper- III
Unit: IV No. of Hours Allotted: 09
Topics to be covered No. of Hours
1 Application Of 8051 Micro Controllers: 1
2 Programmable peripheral interface (PPI)-8255, programming 8255, 1
3 8255 interfacing with 8051. 1
4 Interfacing Key board. 1
5 Interfacing LED 1
6 Interfacing LCD, 1
7 Interfacing A/D & 1
8 D/A converters, 1
9 Interfacing stepper motor. 1
Name of the Teacher: Dr. R. Saranga Pani Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2019 (Semester IV)
Class: M. Sc., II-Year, IV-Semester Section:
Course/ Paper: MOBILE CELLULAR COMMUNICATIONS/ P403/T/EC Paper - III
Unit: I No. of Hours Allotted: 11
Topics to be covered No. of Hours
1 Cellular Concepts: 1
2 Mobile communications-évolution, 1
3 International Mobile Satellite, 1
4 Personnel Communication System [PCS], 1
5 Standards, 1
6 Mobile Personnel Computers, 1
7 Speech Coder. 1
9 Antenna Gain, Propagation characteristics, 1
10 Model for multipath-faded radio signals 1
11 Instrumentation for lab testing. 1
Name of the Teacher: Dr. R. Saranga Pani Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2019 (Semester IV)
Class: M. Sc., II-Year, IV-Semester Section:
Course/ Paper: MOBILE CELLULAR COMMUNICATIONS/ P403/T/EC Paper - III
Unit: II No. of Hours Allotted: 12
Topics to be covered No. of Hours
1 Spread Spectrum Systems and Diversity Techniques: 1
2 Concept of Spread Spectrum System, 1
3 pseudo-noise sequences, 1
4 performance of Direct Sequence Spread Spectrum Systems, 1
5 Code Division Multiple Access, 1
6 Direct Sequence systems, 1
7 Frequency Hopping systems, Synchronization. 1
8 Applications. 1
9 Concept of Diversity Branch and Signal Paths, 1
10 Combining and Switching Methods, 1
11 Carrier-to- Noise and Carrier- to- Interference Ratio, 1
12 Performance Improvements. 1
Name of the Teacher: Dr. R. Saranga Pani Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2019 (Semester IV)
Class: M. Sc., II-Year, IV-Semester Section:
Course/ Paper: MOBILE CELLULAR COMMUNICATIONS/ P403/T/EC Paper - III
Unit: III No. of Hours Allotted: 16
Topics to be covered No. of Hours
1 Medium Access Control: Motivation for a specialized MAC 1
2 Hidden and exposed terminals, Near and far terminals 1
3 SDM 1
4 FDMA 1
5 TDMA, Fixed TDM 1
6 Classical Aloha, Slotted Aloha 1
7 Carrier sense multiple access, Demand assigned multiple access 1
8 PRMA packer reservation multiple access 1
9 Reservation TDMA 1
10 Multiple access with collision avoidance, Polling 1
11 Inhabit sense multiple access 1
12 Comparison of S/T/F CDMA Telecommunication Systems: 1
13 CDMA, Spread Aloha multiple access 1
14 GSM, Mobile services, System architecture 1
15 Radio interface, Protocols 1
16 Localization and calling, Handover, Security, New data services. 1
Name of the Teacher: Dr. R. Saranga Pani Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2016-2019 (Semester IV)
Class: M. Sc., II-Year, IV-Semester Section:
Course/ Paper: MOBILE CELLULAR COMMUNICATIONS/ P403/T/EC Paper - III
Unit: IV No. of Hours Allotted: 10
Topics to be covered No. of Hours
1 Satellite Systems: History, Applications 1
2 Basics, GEO, LEO, MEO, Routing, Localization, Handover 1
3 Examples. Satellite applications: Communication satellites 1
4 surveillance satellite, navigation satellites 1
5 Global positioning system (GPS) space segment, control segment 1
6 GPS receivers, GPS applications 1
7 Broadcast Systems: Overview, cyclic repetition of data 1
8 , Digital audio broadcasting 1
9 Multimedia object transfer protocol 1
10 Digital video broadcasting 1
Name of the Teacher: Dr. R. Saranga Pani Head, Department of
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEAR 2017-2018 (Semester I)
Class: M.Sc Previous Section:
Course/ Paper: IV Solid state Physics
Unit: I Crystalline State & Structural Studies No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Crystal translational vectors, unit cell, Bravais lattices 01
Crystal system, Miller indices, 02
Symmetry operations, Point groups, 01
Space groups and their notation. 01
Crystal structures of fcc, bcc, hcp 01
CsCl, NaCl, ZnS and Diamond structures 01
Bragg’s law, Atomic structure factor 01
Geometrical structure factor and Debye Waller factor 01
Concept of reciprocal lattice, Concept of Brillouin zones 01
Experimental methods of X-ray diffraction of crystals – Laue and
Powder methods
01
Determination of unit cell parameters of a cubic crystal 01
Elements of neutron and electron diffraction 01
Unit: II Lattice Vibrations and Thermal Properties No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Elastic waves in one dimensional array of identical atoms 02
Vibrational modes of a diatomic linear lattice and dispersion relations 02
Acoustic and Optical modes, 01
Infrared absorption in ionic crystals 01
Phonons and verification of dispersion relation in crystal lattices 01
Lattice heat capacity- Einstein and Debye theories 02
Lattice thermal conductivity – Phonon mean free path 02
Origin of thermal expansion and Gruneisen relation 02
UNIT – III : Band Theory and Semiconductor Physics No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Failure of Free electron theory of metals 01
Bloch theorem 01
Behavior of electron in periodic potentials 01
Kronig- Penny model 01
E vs K relation 01
Density of states in a band 01
Effective mass of electron 01
Negative effective mass and concept of hole 01
Distinction between metals, Semiconductors and Insulators 01
Intrinsic semiconductors 01
Fermi level 01
Expressions for electron and hole concentrations in intrinsic
and extrinsic semiconductors
01
Hall effect in semiconductors 01
UNIT – IV : Crystal Growth and Imperfections No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Crystal growth from solution and melt growth from vapour phase 01
Experimental techniques of growth from melt 02
Classification of imperfections 01
Schottky and Frenkel defects expression for their equilibrium
concentrations in metals and ionic crystals
02
Colour centers and their models 01
Diffucion mechanisms Fick’s laws of diffusion, Kirkendall effect 02
Ionic conductivity 01
Dislocations- Edge and Screw dislocations 01
Dislocation multiplication 01
Grain boundaries 01
Name of the Teacher: Dr. P. Hima Bindu Head, Department of Physics
Signature: Signature:
NIZAM COLLEGE: DEPARTMENT OF PHYSICS
LESSON PLAN FOR THE ACADEMIC YEARS 2013-2018 (Semester II)
Class: M.Sc Previous Section:
Course/ Paper: I Electromagnetic Theory
Unit: I Electro-Static Potentials and Maxwell’s Field Equations :
No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Special techniques for calculating electrostatic potential : Poisson’s and
Laplace’s equations
02
Solutions of Laplace’s equations for electrostatic potential in Cartesian,
spherical and cylindrical coordinates
03
Multipole expansion of the energy of a system of charges in an electrostatic
field
01
The scalar and vector magnetic potentials 01
Derivation of Maxwell’s equations 01
General wave equation 01
Gauge transformations-Lorentz and Coulomb gauges 01
Momentum, angular momentum and free energies of electromagnetic field 02
Poynting Theorem (work energy theorem in electrodynamics) 01
Unit: II Propagation of Plane Electromagnetic Waves: No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Electromagnetic (EM) waves in unbounded media 02
EM wave equation for a homogeneous isotropic dielectric medium 02
Propagation of plan EM waves in free space 02
Propagation of EM waves in homogeneous isotropic dielectric
medium
01
Energy transmitted by a plane EM wave 01
Propagation of EM wave in conducing medium 02
Attenuation and Skin effect 01
Energy transmitted –Polarization of EM wave 02
Unit: III Interaction of Electromagnetic Waves with Matter : No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Propagation of EM waves in bounded media 01
Boundary conditions for E, D, B and H 02
Reflection and Refraction of plane 02
EM waves at plane interface between two dielectrics
Laws of reflection and refraction- Fresnel’s relations 02
Reflection (R) and Transmission( T) coefficients 01
Brewester’s angle- Total internal reflection 01
Reflection and Refraction of plane EM waves at plane interface
between non-conducing and conducting medium
02
Metallic reflection and its applications 01
Dispersion in non-conductors –Normal and anomalous dispersion 01
Unit: IV Electromagnetic Fields and Radiating Systems: No. of Hours Allotted: 13
Topics to be covered No. of
Hours
Electromagnetic radiation: Inhomogeneous wave equation for potentials 02
Retarded potentials 01
Multi-pole expansion of EM radiation for harmonically oscillating source 01
Long wavelength approximation 02
Oscillating electric dipole radiation 01
Oscillating magnetic dipole radiation 01
Radiation from centerfed linear antenna 01
Radiation from accelerated charges 01
Lienard-Wiechert potentials 02
Electromagnetic field of a charge in arbitrary motion 01
Name of the Teacher: Dr. P. Hima Bindu Head, Department of Physics
Signature: Signature: