Courses of Study2011

Contents1. Introduction 1.1. Background 1.2. Departments 1.3. Academic Programmes 1.4. Course numbering scheme 2. Category-wise Credit Requirements 2.1. B.Tech 2.2. M.Tech 3. B.Tech Course Curriculum 3.1. Chemical Engineering 3.2. Computer Science & Engineering 3.3. Electrical Engineering 3.4. Mechanical Engineering 4. M.Tech (2-year) Course Curriculum 4.1. Chemical Engineering 4.2. Civil Engineering 4.2.1. Geotechnical Engineering 4.2.2. Structural Engineering 4.3. Computer Science & Engineering 4.4. Electrical Engineering 4.4.1. Communication and Signal Processing 4.4.2. Microelectronics and VLSI 4.4.3. Power Electronics and Power Systems 4.5. Materials Science & Engineering 4.6. Mechanical Engineering 4.6.1. Design 4.6.2. Manufacturing 4.6.3. Thermo-fluid 1 1 1 1 2 3 3 3 5 5 8 11 14 17 17 18 18 19 20 21 21 22 23 24 25 25 26 27

5. M.Tech (3-year) Course Curriculum 6. M.Sc Course Curriculum 6.1. Chemistry 6.2. Physics 7. Ph.D Course Curriculum 8. Minors 9. Advanced Level Fractional Credit Courses 10. Course Descriptions 10.1. Common Courses 10.2. Department of Biotechnology/Biomedical 10.3. Department of Chemical Engineering 10.4. Department of Chemistry 10.5. Department of Civil Engineering 10.6. Department of Computer Science and Engineering 10.7. Department of Electrical Engineering 10.8. Department of Liberal Arts 10.9. Department of Materials Science & Engineering 10.10. Department of Mathematics 10.11. Department of Mechanical Engineering 10.12. Department of Physics

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Last updated on 01-08-2011 IIT Hyderabad

1. Introduction1.1. BackgroundInventions and innovations are key words on which the foundation of IIT Hyderabad is based. These are also key drivers for the vision of IIT Hyderabad. Our endeavour is to create an institute that will provide a space for free and uninhibited thinking, a space where faculty and students can experiment with novel ideas without the fear of failure. It is our firm belief that such an ambience will foster highest level of research: blue sky research as well as developmental research leading to proof of concepts and prototypes.

1.2. DepartmentsThe Institute is organised into the following departments: Department of Biotechnology/Biomedical Department of Chemical Engineering Department of Chemistry Department of Civil Engineering Department of Computer Science and Engineering Department of Electrical Engineering Department of Liberal Arts Department of Materials Science & Engineering Department of Mathematics Department of Mechanical Engineering Department of Physics

1.3. Academic ProgrammesCurrently, the Institute is running the following Degree Programmes: B.Tech. Programs (4 Year) o Chemical Engineering o Computer Science & Engineering o Electrical Engineering o Mechanical Engineering M.Tech. Programs (2 Year) o Chemical Engineering o Civil Engineering Structural Engineering Geotechnical Engineering o Computer Science & Engineering o Electrical Engineering Communication and Signal Processing MicroElectronics

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Power and Control Materials Science & Engineering Mechanical Engineering Design Manufacturing Thermo-fluid M.Tech. Programs (3 Year) M. Sc (2 Year) o Chemistry o Physics Ph.D. Programmes o Biotechnology/Biomedical o Chemical Engineering o Chemistry o Civil Engineering o Computer Science & Engineering o Electrical Engineering o Liberal Arts o Materials Science & Engineering o Mathematics o Mechanical Engineering o Physics o o

1.4. Course numbering schemeNormally every course at IIT Hyderabad runs for the full length of the semester. Each course is denoted by six alpha-numerals course number, two alphabets followed by four numerals:

Code of the department offering the course.

Level of course: 1 to 4 for B.Tech 1st to 4th year; 5 & 6 for M.Tech/M.Sc; 7 & 8 for Ph.D Unique identification code for the course

Nature of course: 0-theory; 1-lab; 2-design; 3combined theory and lab; 4-combined design and tutorial/lab; 5-project /thesis; 6-seminar

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2. Category-wise Credit Requirements2.1. B.Tech

Code BSC BES AES DCT DCL DCE LAE FRE MNC MNE DHC DHP Basic sciences

Category

Recommended 30 40 10 15 10 15 40 60 15 30 10 20 10 20 3 10 Total Credits 156 - 160

Optional -

Basic engineering skills Advanced engineering skills Departmental core theory Departmental core laboratory Departmental electives Liberal Arts electives Free electives Minor core Minor elective Honours coursework Honours project

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2.2. M.TechCode DCT DCL DCE FRE SEM THE Category Departmental core theory Departmental core lab Departmental electives Free electives Seminar Thesis Total Credits 3 2 30 60 - 62 25 - 27 Recommended

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3. B.Tech Course Curriculum3.1. Chemical Engineering

SEMESTER - I No. PH1010 CY1010 MA1010 ID1011 ID1021 ID1035 PH1031 CY1031 Physics I Environmental Chemistry Maths I Concepts in Engineering Design Engineering Practice Independent Project Physics Lab Chemistry Lab Title Credits 4 3 4 4 4 1 2 2

SEMESTER - II No. PH1020 CY1020 MA1020 BO1020 ME1020 ID1061 ID1071 Physics II Dynamics of Chemical Systems Maths II Concepts in Life Sciences Engineering Mechanics Computational Engineering Mechanical Engineering Practice Title Credits 4 3 4 3 4 3 4

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SEMESTER - III No. CH2xx0 CH2xx0 CH2xx0 LA2xx0 MA2040 CH2xx1 Chemical Technology Material and Energy Balances Applied Chemistry Liberal Arts Elective 1 Maths III Applied Chemistry Lab Title Credits 4 4 4 3 3 2

SEMESTER - IV No. CH2xx0 CH2xx0 CH2xx0 CH5060 LA2xx0 CH2xx1 Title Chemical Eng Thermodynamics Momentum Transfer Mechanical Operations Computational Techniques Liberal Arts Elective 2 Mom Tr/Mech Op Lab Credits 4 4 4 3 3 2

SEMESTER - V No. CH3xx0 CH3xx0 CH3xx0 CH3/5xx0 CH3xx1 Heat Transfer Mass Transfer Chemical Reaction Eng Core Elective I HT/MT Lab Title Credits 4 4 4 3 2

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SEMESTER - VI No. CH3xx0 CH3xx0 CH3/5xx0 CH3/5xx0 CH3xx5 CH3xx1 Title Process Control and Instrumentation Separation Processes Core Elective 2 Core Elective 3 Mini-project PC/CRE Lab Credits 3 3 3 3 3 2

SEMESTER - VII No. CH4xx0 CH4xx0 LA4xx0 xxxxx0 CH4xxx Biochemical Engineering Environmental Engineering Liberal Arts Elective 3 Free Elective 1 Chemical Engineering Design and Innovation Title Credits 3 3 3 3 5

SEMESTER - VIII No. CH4/5xx0 CH4/5xx0 xxxxx0 LA4xx0 CH4xxx CH4xx1 Core Elective 4 Core Elective 5 Free Elective 2 Liberal Arts Elective 4 Professional Ethics Process Simulation Lab Title Credits 3 3 3 3 2 2

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3.2. Computer Science and Engineering

SEMESTER - I No. PH1010 CY1010 MA1010 ID1011 ID1021 ID1035 PH1031 CY1031 Physics I Environmental Chemistry Maths I Concepts in Engineering Design Engineering Practice Independent Project Physics Lab Chemistry Lab Title Credits 4 3 4 4 4 1 2 2

SEMESTER - II No. PH1020 CY1020 MA1020 BO1020 ID1071 ID1061 CS1010 Physics II Dynamics of Chemical Systems Maths II Concepts in Life Sciences Engineering Drawing Computational Engineering Discrete Maths for CS Title Credits 4 3 4 3 3 3 4

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SEMESTER - III No. CS2010 EE2040 MA2020 LA2xx0 CS2011 EE2141 Title Data Structures and Algorithms Digital System Design Maths 3 (Probability and Numerical Methods) Liberal Arts Elective 1 Data Structures and Programming Lab Digital Systems Lab Credits 4 4 4 3 2 2

SEMESTER - IV No. CS2020 CS2030 CS2040 CS2050 LA2xx0 CS2051 Title Design and Analysis of Algorithms Theory of Computation Principles of Programming Languages Computer Organization Liberal Arts Elective 2 Computer Organization & Microprocessor Lab Credits 4 4 4 4 3 2

SEMESTER - V No. CS3010 CS3020 CSxxx0 LAxxx0 CS3011 CS3021 Title Introduction to Database Systems Language Translators Core Elective 1 Liberal Arts Elective 3 Database Systems Lab Language Translators Lab Credits 4 4 4 3 2 2

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SEMESTER - VI No. CS3030 CS3040 CS5xx0 CS5xx0 CS3031 CS3041 Operating Systems Computer Networks Core Elective 2 Core Elective 3 Operating Systems Lab Networks Lab Title Credits 4 4 4 4 2 2

SEMESTER - VII No. CS4010 LA4xx0 xxxxx0 CS4011 Software Engineering Liberal Arts Elective 4 Free Elective 1 Software Engineering Lab Option I CS4025 BTech Project (Stage-1) Option II CS4035 Mini Project 3 3 Title Credits 3 3 3 2

SEMESTER VIII No. CS4xx0 Professional Ethics Option I CS4045 BTech Project (Stage-2) Option II CS5xx0 CS5xx0 CS4055 10 Core Elective 4 Core Elective 5 Mini Project 4 4 4 IIT Hyderabad 12 Title Credits 2

3.3. Electrical Engineering

SEMESTER I No. PH1010 CY1010 MA1010 ID1011 ID1021 ID1035 PH1031 CY1031 Physics I Environmental Chemistry Maths I Concepts in Engineering Design Engineering Practice Independent Project Physics Lab Chemistry Lab Title Credits 4 3 4 4 4 1 2 2

SEMESTER - II No. PH1020 CY1020 MA1020 BO1020 ID1061 EE2010 ID1071 Physics II Dynamics of Chemical Systems Maths II Concepts in Life Sciences Computational Engineering Electrical and Magnetic Circuits Engineering Drawing Title Credits 4 3 4 3 3 4 3

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SEMESTER - III No. EE2060 EE2030 EE2040 LA2xx0 MA2010 EE2011 EE2031 Networks and Systems Digital Systems Electromagnetic Energy Conversion Liberal Arts Elective 1 Maths III Basic Electrical Engineering Lab Digital Systems Lab Title Credits 4 4 4 3 3 2 2

SEMESTER - IV No. EE2070 EE3300 EE2080 EE2020 LA2xx0 EE2071 EE2021 Analog Circuits Digital Signal Processing Solid State Devices Microprocessors and Computer Organization Liberal Arts Elective 2 Analog Circuits Lab Microprocessors Lab Title Credits 4 4 4 4 3 2 2

SEMESTER - V No. EE3110 EE3210 EE3310 EE3320 EE2021 EE2041 Digital Circuits Power Electronics Probability & Random Processes Communication Systems Communications & DSP Machines Lab Title Credits 4 4 4 4 2 2

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SEMESTER - VI No. EE3220 EE3230 EE3350 EE3/5xx0 EE3525 EE3111 Control Engineering Power System Practice Electromagnetic Fields Core Elective 1 Mini Project VLSI Lab Title Credits 4 3 3 3 2 2

SEMESTER - VII No. EE3/5xx0 EE3/5xx0 xxxxx0 LAxxx0 EE3221 Core Elective 2 Core Elective 3 Free Elective 1 Liberal Arts Elective 3 Control Lab Title Credits 3 3 3 3 2

SEMESTER - VIII No. LAxxx0 EE4/5xx0 EE4/5xx0 xxxxx0 EE4006 Liberal Arts Elective 4 Core Elective 4 Core Elective 5 Free Elective 2 Professional Ethics Title Credits 3 3 3 3 2

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4.4. Mechanical Engineering

SEMESTER I No. PH1010 CY1010 MA1010 ID1011 ID1021 ID1035 PH1031 CY1031 Physics I Environmental Chemistry Maths I Concepts in Engineering Design Engineering Practice Independent Project Physics Lab Chemistry Lab Title Credits 4 3 4 4 4 1 2 2

SEMESTER II No. PH1020 CY1020 MA1020 BO1020 ME1210 ID 1061 ID1071/81 /91 Physics II Dynamics of Chemical Systems Maths II Concepts in Life Sciences Engineering Mechanics Computational Engineering Mechanical Engineering Practice Title Credits 4 3 4 3 4 3 4

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SEMESTER III No. ME2110 ME2120 EE2010 LA2xx0 MA2040 EE2011 Mechanics of Solids Thermodynamics Basic Electrical & Electronics Engg. Liberal Arts Elective 1 Maths III Basic Electrical Engineering Lab Title Credits 4 4 4 3 3 2

SEMESTER IV No. ME2210 ME2220 ME2230 MS5060 LA2xx0 ME2411 Fluid Mechanics Kinematics & Dynamics of Machinery Manufacturing Science -1 Material Science & Metallurgy Liberal Arts Elective 2 Mechanical Engineering Lab I Title Credits 4 4 4 3 3 2

SEMESTER V No. ME3110 ME3120 ME3130 ME3140 ME3311 Heat and Mass Transfer Manufacturing Science -2 Design of Machine Elements IC Engines Mechanical Engineering Lab II Title Credits 4 4 4 3 2

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SEMESTER VI No. ME3210 ME3220 ME3413 ME3230 ME3425 ME3431 Instrumentation & Control Production Engineering Machine Drawing & Solid Modelling Turbo Machines Project 1/Mini-project Mechanical Engineering Lab III Title Credits 3 3 3 3 3 2

SEMESTER VII No. ME4110 ME4120 ME4/5xx0 LA4xx0 ME4311 CAD Modeling & Simulation Core Elective 1 Liberal Arts Elective 3 Mechanical Engineering Lab IV Title Credits 4 4 3 3 2

SEMESTER VIII No. ME4/5xx0 xxxxx0 xxxxx0 LA4xx0 xx4xx0 Core Elective 2 Free Elective 1 Free Elective 2 Liberal Arts Elective 4 Professional Ethics Title Credits 3 3 3 3 2

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4. M.Tech (2-year) Course Curriculum4.1. Chemical EngineeringSEMESTER I No. CH5010 CH5030 CH5050 xx5xx0 CHxxx0 CH5516 Title Advance Chemical Reaction Engineering Advance Chemical Engineering Thermodynamics Computational Methods for Engineers Free Electives Departmental Elective Seminar Credits 3 3 3 3 3 2

*Students should select total 4 theory courses, covering core, departmental and free electives

SEMESTER - II No. CH5020 CH5040 xx5xx0 CH5525 CH6101 Title Advance Transport Phenomena Advance Process Control Departmental Electives Thesis (Stage-I) Advance Chemical Engineering Lab Credits 3 3 3 3 2

*Students should select total 4 theory courses, covering core and free electives . Note: 1. Students need to select minimum 3 core courses out of 5 irrespective of 1st /IInd semester. 2. As a free elective, Students can choose departmental elective also. 3. One can choose more electives from other departments if approved by thesis supervisor. 4. Thesis supervisor will be assigned only after 1st Semester.

SEMESTER - III No. CH5535 CH5511 Title Thesis (Stage-II) Simulation Lab SEMESTER IV No. CH5545 Title Thesis (Stage-III) Credits 15 Credits 12 2

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4.2.1. Civil Engineering (Geotechnical Engineering)

SEMESTER - I No. CE6310 CE6330 CE63/64x0 CE63/64x0 CE6011 Advanced Soil Mechanics Soil Dynamics Elective 1 Elective 2 Computer methods in Civil Engineering Title Credits 3 3 3 3 2

SEMESTER - II No. CE6300 CE6323 CE63/64xx CE63/64xx CE6006 Title Advanced Foundation Engineering Experimental Soil Mechanics Elective 3 Elective 4 Seminar Credits 3 5 3 3 2

SEMESTER III No. CE6015 Masters Thesis Title Credits 14

SEMESTER IV No. CE6025 Masters Thesis Title Credits 16

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4.2.2. Civil Engineering (Structural Engineering)

SEMESTER - I No. CE6110 CE6212 CE61/62x0 CE61/62x0 CE6011 Title Advanced Structural mechanics Advanced Reinforced Concrete Elective 1 Elective 2 Computer methods in Civil Engineering Credits 3 3 3 3 2

SEMESTER - II No. CE6130 CE6131 CE6140 CE61/62xx CE61/62xx CE6006 Finite Element Analysis Finite Element Lab Structural Dynamics Elective 3 Elective 4 Seminar Title Credits 3 2 3 3 3 2

SEMESTER III No. CE6015 Masters Thesis Title Credits 14

SEMESTER III No. CE6025 Masters Thesis Title Credits 16

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4.3. Computer Science & Engineering

SEMESTER - I No. CS6010 CSxxx0 CSxxx0 CSxxx0 CS6011 Title Adv Data Structures & Algorithms Elective 1 Elective 2 Elective 3 Adv Programming Lab Credits 4 4 4 4 2

SEMESTER - II No. CSxxx0 CSxxx0 CSxxx0 CSxxx0 CS6026 Elective 4 Elective 5 Elective 6 Elective 7 MTech Seminar Title Credits 4 4 4 4 2

SEMESTER III No. CS6035 M.Tech. Project (Stage-1) Title Credits 12

SEMESTER IV No. CS6045 M.Tech. Project (Stage-2) Title Credits 12

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4.4.1. Electrical Engineering (Communications and Signal Processing)

SEMESTER - I No. EE5310 EE5300 EE5320 EE5xx0 EE5321 EE5301 Title Probability and Random Processes Digital Signal Processing Digital Communications Core Elective 1 Communications Lab DSP Lab SEMESTER II No. EE5330 EE5340 EE5xx0 EE5xx0 EE5305 Title Information Theory and Coding Communication Network & Systems Core Elective 2 Core Elective 3 Thesis (Stage I) SEMESTER III No. EE5xx0 EE5xxx EE6315 Core Elective 4 Self Study Thesis (Stage II) SEMESTER IV No. EE6325 Thesis (Stage III) Title Credits 15 Title Credits 3 2 10 Credits 3 3 3 3 2 Credits 3 3 3 3 2 2

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4.4.2. Electrical Engineering (Microelectronics and VLSI)

SEMESTER - I No. EE5110 EE5300 EE5120 EE5xx0 EE5111 EE5301 Title Semiconductor Devices & Modelling Digital Signal Processing VLSI Technology Core Elective 1 Device Simulation Lab DSP Lab SEMESTER II No. EE5130 EE5140 EE5xx0 EE5131 EE5121 EE5105 Analog IC Design Digital IC Design and Verification Core Elective 2 VLSI Design Lab Microelectronics Lab Thesis (Stage I) SEMESTER III No. EE5xx0 EE6115 Core Elective3 Thesis (Stage II) SEMESTER IV No. EE6xxx Thesis (Stage III) Title Credits 15 Title Credits 3 10 Title Credits 3 3 3 2 2 2 Credits 3 3 4 3 2 2

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4.4.3. Electrical Engineering (Power Electronics and Power Systems)

SEMESTER - I No. EE5200 EE5210 EE5220 EE5xx0 EE5201 EE5211 Title Steady State Power Systems Analysis Power Converter Design Advanced Control Systems Core Elective 1 Power Systems Lab DSP Lab SEMESTER II No. EE5230 EE5240 EE5xx0 EE5xx0 EE5205 Title Power Systems Dynamics & Control electrical Machine Analysis & Control Core Elective 2 Core Elective 3 Thesis (Stage I) SEMESTER III No. EE5xx0 EE6211 EE6215 Core Elective3 Power Electronics & Machines Lab Thesis (Stage II) SEMESTER IV No. EE6225 Thesis (Stage III) Title Credits 15 Title Credits 3 2 10 Credits 3 3 3 3 2 Credits 3 3 3 3 2 2

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4.5. Material Science & Engineering

SEMESTER - I No. MS5010 MS5050 MS5090 MS5611 MS5516 Properties of Materials Advanced Physical Metallurgy Advanced Materials - Synthesis & Characterization (Theory) Materials Synthesis & Characterization (Laboratory) Seminar Title Credits 3 3 3 2 2

SEMESTER II No. MS5020 MS5040 MS5080 xxxxx0 MS5621 Electron Microscopy Thermo Mechanical Processing of Materials Thin Film Technology Free Elective Lab II Title Credits 3 3 3 3 4

SEMESTER III No. MS5110 MS5715 Title Scientific Writing and Ethics in Research Thesis: Stage I Credits 1 14

SEMESTER IV No. MS5725 Thesis: Stage II Title Credits 16

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4.6.1. Mechanical Engineering (Design)

SEMESTER - I No. ME5010 ME5110 ME5120 ME5130 ME5411 Title Mathematical Methods for Engineers Advanced Mechanics of Solids Dynamics and Vibration Finite Element Method Design Engineering Core Lab I Credits 3 3 3 3 2

SEMESTER - II No. ME5610 ME5620 ME5630 ME5/7xx0 ME5/7xx0 ME5911 Fracture Mechanics Mechatronic Systems Nonlinear Oscillation Core Elective 1 Core Elective 2 Design Engineering Core Lab II Title Credits 3 3 3 3 3 2

* Students may register for any 4 of the 5 theory courses

SEMESTER III No. ME6106 ME6005 Seminar M.Tech. Project (Stage-1) Title Credits 2 14

SEMESTER IV No. ME6505 M.Tech. Project (Stage-2) Title Credits 16 25

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4.6.2. Mechanical Engineering (Manufacturing)

SEMESTER - I No. ME5010 ME5210 ME5220 ME5130 ME5411 ME5330 ME5471 Title Mathematical Methods for Engineers CAD in Manufacturing Material Removal Process Option-1 Finite Element Method Design Engineering Core Lab I Option-2 Computational Fluid Dynamics Thermo-Fluid Engineering Core Lab I 3 2 3 2 Credits 3 3 3

SEMESTER - II No. ME5710 ME5720 ME5730 ME5/7xx0 ME5/7xx0 ME5941 CNC & Part Programming Advanced Material Joining Processes Rapid Prototyping & Manufacturing Core Elective 1 Core Elective 2 Manufacturing Engineering Core Lab Title Credits 3 3 3 3 3 2

* Students may register for any 4 of the 5 theory courses

SEMESTER III No. ME6106 ME6005 Seminar M.Tech. Project (Stage-1) Title Credits 2 14

SEMESTER IV No. ME6505 M.Tech. Project (Stage-2) Title Credits 16

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4.6.3. Mechanical Engineering (Thermo-fluid)

SEMESTER - I No. ME5010 ME5310 ME5320 ME5330 ME5471 Title Mathematical Methods for Engineers Viscous Fluid Flow Advanced Heat Transfer Computational Fluid Dynamics Thermo-Fluid Engineering Core Lab I Credits 3 3 3 3 2

SEMESTER - II No. ME5810 ME5820 ME5830 ME5/7xx0 ME5/7xx0 ME5971 Title Advanced Computational Fluid Dynamics Turbulence Compressible Fluid Flow Core Elective 1 Core Elective 2 Thermo-Fluid Engineering Core Lab II Credits 3 3 3 3 3 2

* Students may register for any 4 of the 5 theory courses

SEMESTER III No. ME6106 ME6005 Seminar M.Tech. Project (Stage-1) Title Credits 2 14

SEMESTER IV No. ME6505 M.Tech. Project (Stage-2) Title Credits 16 27

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5. M.Tech (3-year) Course CurriculumThe following is the course structure for M.Tech (3-year) programme: SEMESTER I No. xx5xx0 xx5xx0 xx5xx1 Core Theory 1 Core Theory 2 Core Lab 1 Title Credits 4 4 2

SEMESTER - II No. xx5xx0 xx5xx0 xx5xx1 Core Theory 3 Elective 1 Core Lab 2 Title Credits 4 3 2

SEMESTER - III No. xx6xx0 xx6xx0 xx6xx0 Core Theory 4 Core Theory 5 Elective 2 Title Credits 4 4 3

SEMESTER - IV No. xx6xx0 xx6xx0 xx6xx6 xx6xx5 Core Theory 6 Elective 3 Seminar Thesis Title Credits 4 3 2 2 29

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SEMESTER - V No. xx6xx5 Thesis Title Credits 12

SEMESTER - VI No. xx6xx5 Thesis Title Credits 11

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6. M.Sc Course Curriculum6.1. ChemistrySEMESTER I No. CY5010 CY5110 CY5210 CY5220 CY5011 CY5111 Title Stereochemistry, Reaction Mechanism and Aromaticity Concepts in Inorganic Chemistry Electrochemistry and Chemical Kinetics Solid State Chemistry Organic Chemistry Practicals Inorganic Chemistry Practicals SEMESTER - II No. CY5020 CY5120 CY5230 CY5130 CY7410 CY5211 Title Advanced Organic Chemistry of Multiple Bonds Coordination Chemistry Statistical Thermodynamics & Surface Science Main Group Chemistry Spectroscopy & Applications Physical Chemistry Practicals SEMESTER - III No. CY6110 CY6210 CY6010 CY6220 CY6015 CY7010 Title Metals in Biological Systems Separation Techniques and Dynamic Electrodics Synthetic Methodology in Organic Chemistry Physical Methods in Chemistry Project I Chemistry of Natural Products and Biomolecules Credits 3 3 3 3 3 3 31 Credits 3 3 3 3 3 2 Credits 3 3 3 3 2 2

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SEMESTER IV No. CY6230 CY7210 CY7110 CY6015 Theoretical Chemistry Elective I Elective II Project II Title Credits 3 3 3 6

6.2. PhysicsSEMESTER I No. PH5110 PH5120 PH5130 PH5140 PH5101 Classical Mechanics Mathematical Physics - I Quantum Mechanics - I Electronics Lab-I SEMESTER - II No. PH5210 PH5220 PH5230 PH5240 PH5250 PH5211 Electrodynamics Mathematical Physics-II Quantum Mechanics-II Statistical Mechanics Modern Optics Lab-II Title Credits 3 3 3 3 3 4 Title Credits 3 3 3 3 4

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SEMESTER - III No. PH5310 PH5320 PH5330 PH63x0 PH5315 PH5311 Solid State Physics Particle Physics Experimental Techniques Elective I Project Lab -III SEMESTER IV No. PH64x0 PH64x0 PH5415 PH5416 Elective - II Elective-III Project Seminar Title Credits 3 3 9 2 Title Credits 3 3 3 3 2 4

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7. Ph.D Course CurriculumThe following is the course structure for Ph.D programme: SEMESTER I No. xx7xxx xx7xxx xx7xxx Elective 1 Elective 2 Elective 3 Title Credits 3 3 3

SEMESTER - II No. xx7xxx Elective 4 Title Credits 3

* with prior approval, the courses may be also be distributed as 2+2 or 1+3 across Semesters I & II

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8. MinorsMinor option for BTech students aims to facilitate acquisition of multiple skill sets by offering a wider spectrum of courses from various academic entities. The following are some minors currently being offered at IITH: COMPUTER SCIENCE & ENGINEERING No. CS3019 CS3029 CS4039 CS4xx9 Title Data Structures and Algorithms Design and Analysis of Algorithms Introduction to Database Systems Elective Credits 3 3 3 3

ELECTRICAL ENGINEERING No. EE6310 EE2040 EE5420 EExxx0 Title Image and video processing Electromagnetic Energy Conversion VLSI Technology Elective Credits 3 3 3 3

LIBERAL ARTS (ECONOMICS) No. LA4010 LA4020 LA4030 LA4040 Macroeconomics Industrial Organization Basic Econometrics and Forecasting Financial Econometrics Title Credits 3 3 3 3

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PHYSICS No. PH3102 PH3202 PH4102 PH4202 Quantum Physics Solid State Physics Elective-I Elective II Title Credits 3 3 3 3

Electives available: (1) Fundamentals of MEMS fabrication (2) Physics & Technology of Thin Films (3) Physics & Applications of Advanced Functional Materials (4) Biological Physics (5) Semiconductor Physics & Devices

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9. Advanced Level Fractional Credit CoursesIn addition to the courses offered by various departments, IITH also offers Advanced level fractional credit courses covering a wider spectrum of subjects. These courses have significant contribution from the external scientific & industrial community and are open to the whole Institute. Some of the courses offered are:

Empowering 3 billion by Dr. A.P.J. Abdul Kalam Global Challenges, Dynamics of global technical manifestations, Distinctive profile for the Nations of the World in 2030, Out of box technical ideas needed to meet the distinctive profile of nations of the world 2030, PURA (Providing Urban amenities to Rural Areas) and PURA Activated. Cyber Physical Systems by Dr. Rajalakshmi & CPS Team@IITH Introduction to CPS, Implementation considerations of wireless network control systems, Design principles of wireless networks protocols for control & monitoring applications, Applications Green communication technologies, Smart cellular networks, Smart grids, Robotics, Health care, Smart structures/buildings, Intelligent transport systems. Data Management & Computing on the Cloud by Dr. S. Seshadri This course will reflect on advances in cloud computing that have allowed data management systems to handle several petabytes of data and analyse what other advances are required in the future. Students are assumed to have a background of File Systems and Database Management Systems. Trends in Storage Systems by Dr. Preetam Patil Following are some of the specific topics that will be covered in this course: Data protection (RAID, mirroring and backups), Storage area networks (SANs), Network Attached Storage, Storage efficiency (compression and de-duplication), Storage virtualization, Cluster/distributed file systems, Recent advancements and challenges in storage systems. Mobile Application Development by Mr. Ramesh Srinivasaraghavan Applications location based, Mapping, Media, Social, Games. Operators, Devises, OSs. Model driven approach The Application structure, business logic, and GUI. Widely used Mobile platforms Android, iOS, Blackberry, Meego, Symbian, Windows, Bada, Java. Web applications for Mobile. Native applications for mobile taking advantage of device capabilities accelerometers, GPS, NFC, hardware rendering etc. Design considerations. Performance considerations. The Adobe AIR platform. Cognitive Radio by Dr. Zafar Ali Khan & CPS Team@IITH . This course provides an introduction to cognitive radios, a new type of radio that will be capable of cooperatively adapting transmission modes, channels, and protocols to Courses of Study 39

make the best use of the available spectrum. Such radios will include wideband receivers and transmitters, with many of their functions implemented in software, rather than hardware, to enable greater flexibility. While the most commonly cited example of uses of such radios is sharing of under-used portions of the spectrum with licensed (primary) users, the basic technology also can lead to improved uses of the ISM bands. In addition, the cooperative and adaptive nature of the radios has large consequences for jamming/anti-jamming in military communications, representing both a threat to current systems and an opportunity for their evolution to more secure modes. The course provides a background in the technology that makes these radios possible as well as providing guidance on their benefits in multiple access systems.

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10. Course Descriptions10.1. Common CoursesID1011 Concepts in Engineering Introducing students to various concepts of engineering through practical case studies of products like Mobile and air craft through description of engineering fundamentals on material, electronics, electrical, controls, HMT, fluidics, manufacturing etc. ID1021 Engineering Practice Workshop: Introduction to wood work: hand tools & various operations. Introduction to pattern making: types of patterns, allowances etc. Introduction to bench work & fitting: tools & operations. Engineering Drawing: Introduction of drawing instruments. lettering, lines and dimensioning. Construction of simple geometrical figures. Simple orthographic projections, first and third angle. Missing views and lines. Isometric views. Projection of points and lines. Projection of planes and solids. Section of solids. Orthographic projections of simple machine elements. Using half. full sections. Most drawing exercises will be by free-hand in this course. ID1035 Independent Project Familiarize students with basic project work. The theme may be from a selection of broad engineering topics. ID1061 Computational Engineering Problem solving and algorithms. Introduction to C language covering input and output operations, decision control structure, loop control structure, functions & pointers, arrays, strings, structures and unions, file operations. Introduction to data structures. ID1071 Mechanical Engineering Practice Workshop: Introduction to safety measures, introduction to the principles of working, construction, operation, types of cutting tools, selection of cutting speeds and feeds etc. regarding basic machine tools e.g. lathe, shaping, slotting, milling and grinding machines, etc. Introduction to gas and arc welding processes, soldering and brazing. Exercise; Simple jobs on centre lathe and shaping machines and welding. Demonstrations; Slotting, milling and grinding machines.

10.2. Department of Biotechnology/BiomedicalBO1020 Concepts in Life Sciences Objective: To orient engineering undergraduate students toward appreciating the need for Biological knowledge, and to provide them with some needed basic information in the Life Sciences. Courses of Study 41

Course Content: Relevance of Biological Principles to Engineering undergraduates how can the knowledge and application of Biological principles elevate the relevant contributions by engineers? - Water and its special properties of relevance to life Building blocks of life: Bio-molecules and their structure-function aspects - Cell structure and organelles, cell membrane, cellular transport and signaling - How does a cell sustain life? Cell metabolism and its regulation; Cell energetics: harvesting chemical & solar energy - Classical and Molecular genetics principles; Applications of advances in molecular genetics; Introduction to the molecular basis of human diseases: genetic diseases (Huntingtons, Downs etc.,), non-infectious diseases (Cancer) and infectious diseases (HIV, Prion diseases etc.) Life adapts into new life forms: Origin of life and Evolution current beliefs - Human physiology, Developmental biology, Behavioural biology some interesting aspects. BO7006 Recent advances in Biotech and Biomed Eng Light microscopy techniques for live cell imaging, David J. Stephens and Victoria J. Allan, Science 300, 82-86, 2003 DNA Damage, Aging, and CancerJan H.J. Hoeijmakers New England Journal Medicine (2009);361:1475; - Creation of a bacterial cell controlled by a chemically synthesized genome. Gibson DG.., Venter JC et al. Science. 2010 Jul 2;329(5987):52-6. Far field optical nanoscopy, Stefan H Hell, Science 316, 1153-158, 2007 Why is cancer drug discovery so difficult? Alexander Kamb, Susan Wee and ChristophLengauer Nature Reviews Drug Discovery (2007); 6: 119 Prions and their lethal journey to the brain. Mabbot and MacPherson. 2006. Nature reviews microbiology. 4, 201-21 Nano-optics in the biological world: Beetles,butterflies, birds, and moths, Mohan Srinivasarao, Chem Rev. 99, 1935-1961, 1999 Jumping genes and epigenetics: Towards new species Rita Rebollo, BatriceHorard, Benjamin Hubert, Cristina Vieira Gene (2010); 454: 1 Prions of fungi: inherited structures and biological roles. Wickneretal. (2007) Nature reviews Microbiology. 5, 611-618 In vivo bioluminescence imaging for integrated studies of infection, Timothy C doyle, stacy M Burns and Christopher H Contag, Cellular microbiology 6, 303-317, 2004 Antibiotics for Emerging Pathogens Michael A. Fischbach and Christopher T. Walsh Science (2009); 325 (28) 1089 The aging brain. Yankner et al., (2008) Annu. Rev. Pathol. Mech. Dis. 3, 41-66. BO7020 Molecular and Cell Biology of genes and proteins History of Molecular Biology: DNA as the genetic material and its structure-function Cell structure-function: Structural organization of the cell and functional coordination DNA replication: DNA-dependent DNA synthesis - RNA Transcription: DNA-dependent RNA synthesis - Protein Translation: mRNA-directed polypeptide synthesis - Posttranslational modifications in proteins: Glycosylation, acetylation, phosphorylation. Regulation of gene expression in prokaryotes & eukaryotes - Intracellular Protein trafficking and targeting - Protein folding: From amino acid sequence to the 3-D structure, Protein degradation Protein misfolding and diseases: Prion diseases, Amyloid diseases, Prion-like non-Mendelian genetic elements in yeast: The [PSI+] prion, a model 42 IIT Hyderabad

of protein-based genes - Protein quantitation, Polyacrylamide gel electrophoresis (PAGE), Molecular weight estimation, Western blotting, Immunoprecipitation Proteomics: 2D-Gel Electrophoresis, Mass spectrometry, Protein sequencing Peptide arrays - Protein-protein interactions, Co-Immunoprecipitation, Yeast two-hybrid assays - Protein purification: state-of-the-art techniques: Size-exclusion chromatography, Ionexchange, Hydrophobic interaction, and affinity chromatography, HPLC - Protein structure-function characterization: Spectropolarimetry, Fluorescence spectroscopy BO7040 Advanced Biochemistry and Genetic Engineering Protein-Ligand interaction: single, multiple and cooperative ligand binding; Langmuir isotherm, scatchard plot, Hill plot; Approaches to study protein-ligand interactionseparative (equilibrium dialysis and ultracentrifugation) and non-separative (ITC, SPR); Thermodynamics of protein-ligand interaction; Enzyme Catalysis: Enzyme Kinetics; Enzyme inhibition-Types and significance; Classification of Enzymes; Active site; Methods of enzyme assay; Significance of turn-over number, Specific activity; DNA databases: Search gene in Databases using Internet; DNA Isolation Techniques: plasmid and genomic DNA isolation; DNA purification; Physical Analysis of DNA: Electrophoresis; Melting Curve Analysis; DNA probes: Radioactive Labeling; RNA isolation; In vitro Transcription; Reverse transcription; Physical Analysis of RNA: Electrophoresis; RNA secondary structure; Polymerase Chain Reaction (PCR); Real time PCR; Multiplex PCR; DNA Sequencing; Site-directed Mutagenesis; Southern, Northern Hybridization and FISH: Probe preparation, Techniques; Engineering DNA: Restriction Endonucleases; Ligase; Modifying DNA Ends; Cloning: Host E.colicells for cloning; Plasmid based E.coli cloning vectors; Cloning into plasmid; Gene delivery and selection methods utilized in Bacteria; Recombinant Protein Expression in Bacteria; HostE.colicells for expression; E.colipromoters; Gene Delivery and Selection Methods in yeast; Recombination-based genetic engineering in Yeast; Yeast Promoters, Yeast Expression Vectors; Recombinant Protein Expression in Yeast; Yeast promoters; GAL induction; yeast one/two/three hybrid. Gene Delivery and Selection Methods in mammalian cells; Mammalian Promoters; Mammalian Expression Vectors; Mammalian two hybrid; Viral vectors; Gene delivery using Viral vectors; Introduction to RNAi; shRNA, siRNA, miRNA; Target selection, screening, delivery; utility of RNAi as experimental tool; Genetic engineering in animals: Recombination-based genetic engineering in mammalian cells; Knock-outs & Knock-ins, Inducible Expression; Tissue specific expression; Genetic Engineering in Plants; Ethical issues related to genetically modified organisms. BO7060 Introduction to Bio-Instrumentation This course is intended to introduce the concepts of origin of signals in biosystems and living organisms, their sensing, detection and meaningful processing for practical diagnostic and imaging applications. Various engineering aspects of the detection, acquisition, processing, and display of signals, biomedical sensors for measurements of biopotentials, ECG, sensors for ions and gases in aqueous solutions, force, displacement, blood pressure and temperature sensors, will be introduced in the first module. Optical detectors like CCDs, Spectrometers, hyperspectral imagers and surface plasmonic sensors also will be discussed. - The second module introduces optical and coherence imaging, interferometry and its applications in biomedical imaging, optical Courses of Study 43

coherence tomography, and various advanced microscopy techniques. - The course includes an overview of various biomedical imaging techniques, from molecular imaging to whole body imaging techniques like PET and SPECT, their underlying fundamental principles and latest research in these areas. BO7080 Introduction to Biophotonics This course is intended to introduce the concepts of biophotonics and interaction of light with biological matter. Biophotonics play a leading role in modern diagnostics, imaging and therapy. This course introduces principles of various biomedical optical imaging devices and techniques, lasers for biomedical applications, light-activated and light-guided therapy and biophotonic devices. This course is offered to newcomers and researchers interested in biophotonics and nanobiophotonics. This is offered as a core for Phd students in dept of Biotechnology/Biomedical Eng as well as an elective for Btech/Mtech students interested in this area. BO7106 Special Topics in Microscopy This course is an advanced research level course aimed at preparing freshers for a proper literature survey and appreciation of the research areas of advanced microscopy. The course consists of lectures, literature survey, group discussions and seminars on the advanced microscopic techniques. For this purpose, certain landmark journal papers in the area of microscopy have been identified, which would be discussed and presented by students in each lecture followed by discussions. Since, it is impossible to summarize the research literature with a few representative articles, students would be encouraged to collect all the related references and bring them up for discussions. The student contributions would be evaluated during each presentation and the question session every day and a minor project report on assigned topic. This is an advanced course offered for PhD students working in the area of biomedical imaging and microscopy.

10.3. Department of Chemical EngineeringCH5010 Advanced Chemical Reaction Engineering Reaction Engineering. Overview of reaction engineering & emerging challenges, Stoichiometric table, reaction network analysis, effect of pressure drop on performance of plug flow vessels, energy balance and non-isothermal reactors design, optimal design for exothermic reversible reactions, stability and multiplicity of steady states in CSTR. Non-Ideal reactors. Non ideal flow, RTD of ideal vessels, modeling non ideal flow, conversion from RTD theory, tanks in series model, dispersion model introduction to population balance, application to RTD of CSTR. Solid Catalysts and GasSolid Reactions. Gas-solid reactions, design of fixed bed reactors, shrinking core model, catalyst deactivation, design for deactivating catalysts, fluid bed reactors, design of fluid bed reactors, applications, overview, and Design of slurry and trickle bed reactors. Gas Liquid Reactions. Gas liquid reactions, reaction regimes Prerequisite: Chemical Reaction Engineering

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CH5020 Advanced Transport Phenomena Vectors and tensor algebra and calculus. Viscosity, stress tensor, momentum balance, boundary conditions. Governing equations of fluid mechanics, equations of continuity and motion, dimensional analysis of the equations of change. Time dependent flows, method of similarity solutions, Sturm-Liouville problems. Two-dimensional flows, stream function, limiting cases: creeping flow, inviscid flow, boundary layer theory. Turbulent flow, transition to turbulence, turbulence models. Macroscopic balances. Polymeric liquids.Thermal conductivity, governing equations of heat transfer, energy balance, energy equation. Conduction, forced convection, natural convection, steady heat conduction in laminar flow, unsteady heat conduction. Concentrations, velocities, and mass fluxes, diffusivity. Governing equations of mass transfer, equation of continuity, equations of change for multicomponent systems, diffusion and reaction. Special topics: modeling fluid flows interacting with a flexible, elastic boundary; simultaneous heat and mass transfer. CH5030 Advanced Chemical Engineering Thermodynamics Review of introductory concepts: Work, Heat, Reversible and Irreversible Processes; Equations of State and Generalized Correlations; First Law: Closed and Open Systems, Steady and Transient Processes. Second law and Entropy: Availability and Exergy Analyses, Maxwell Relations and Fluid Properties Estimation; Pure Component Phase Equilibria, Theory of corresponding states, real fluids Equilibrium, Phase Rule, Single component phase diagrams, Introduction to Multicomponent Multiphase equilibrium, Single Phase Mixtures and Solutions: Ideal Solutions; Partial molar quantities; GibbsDuhem Equation; Phase-Rule; Phase Equilibrium Criteria, Non-ideal solutions; Residual and Excess Properties; Fugacity and Activity Coefficient models; Vapour-liquid equilibria (VLE) at low to moderate pressures; Raoults Law, Henrys law High-Pressure VLE Availability Analysis of processes LLE, Triangular diagrams. Langmuir and BET isotherms; Chemical Reaction Equilibrium: Homogeneous and Heterogeneous reactions; Multireaction Equilibria; Combined Phase and Reaction Equilibria; Basics of stastitical thermodynamics CH5040 Advanced Process Control Introduction to Multivariable systems, Why Multivariable systems are important?, Interaction dynamics and its role on control system design, Multivariable control classical approaches, Structure selection- variable pairing, tuning single loop controllers for MIMO systems, Transmission zeros and transmission zero direction, Advanced control approach, State space representation, Conversion from SS to/from TF, Controllability, Observability, State transfer problem, solution to state transfer problem, pole placement controller design, Design of observer, Kalman filter design, Model (observer) based predictive controllers, LQR/LQG, various MPC schemes. CH5050 Computational Methods for Engineers Applications with Numerical Methods; Linear Algebraic Equations: Gauss-Jordan Elimination w. & w/o pivoting, Gaussian elimination w. backsubstitution, LU Decomposition, Tri-diagonal and Band-diagonal systems, Singular Value Decomposition

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for over-determined systems, Conjugate gradient and Bi-conjugate gradient methods; Curve-fitting and Interpolation: Cubic splines; Non-Linear Algebraic Equations: Bisection, Newton-Raphson; Numerical differentiation and integration; Ordinary Differential Equations: IVP - Runge-Kutta methods, BVP Shooting method; Partial Differential Equations: Flux-conservative IVPs FTCS/Lax method, Diffusive IVPs FTCS/BTCS/Crank-Nicholson, reduced Navier-Stokes equations. CH5511 Simulation Lab ASPEN: Overview and applications of Aspen Plus; Setting up a problem in Aspen Plus, Property analysis and estimation: analysis of properties of pure components and binary mixtures, analysis of thermodynamic diagrams of binary mixtures, estimation of properties of new compounds; Simulation and design of reactors, distillation column; heat exchangers; simulation of simple and complex flow sheets; performing sensitivity analysis; Performing optimization; creating user defined models; analysis of pipeline hydraulics using Aspen Hysys Pipesys. CFD: CFD simulations involved various chemical engineering processes that involved fluid flow, heat transfer and multi-phase systems. An overview of the CFD will be briefed at early lab sessions. The following is the list of case studies that is considered for simulating and analyzing flow system using ANSYS Fluent software: Fluid flow modeling in a hydrocyclone separator - VOF model demonstration by simulating air purging in a vessel - Conjugate heat transfer over a computer chip board - Simulating unsteady heat transfer in steel ladle flow - 2D unsteady flow of power-law fluids over a cylinder - Modeling the Effect of Sedimentation Concentration in a Secondary Clarifier using a UDF - 2D simulation of circulating fluidized bed using E-E model Demonstration of DPM model for dilute particle flow in gas cyclone. CH5516 Seminar Students need to choose a research topic to deliver a seminar. Research topic may be offered by faculty and/or may be chosen by students and get it approved by the instructor. Main objective is to develop skills in literature search, communication and presentations. CH6010 Principles of Cellular Engineering Cellular engineering involves the application of engineering tools and concepts to the study and manipulation of living cells with the ultimate objective of developing novel therapeutic or diagnostic approaches for the clinic or harnessing cellular function for commercial applications. Cellular engineering is necessarily interdisciplinary, combining tools and ideas from the fields of biology, engineering, applied mathematics, physics, and chemistry. Course content: Cell biology and biochemistry fundamentals. Role of chemical engineers in cellular engineering.The circulatory system, vascular biology, platelets, leukocytes, neutrophils, monocytes, endothelial cells. Infection, inflammation, thrombosis. Cell adhesion molecules, selectins, integrins, immunoglobulins, plasma proteins. Protein-protein interactions, binding and unbinding kinetics, stochastic and deterministic models of receptor-ligand interactions. Cell adhesion, effect of shear stress on intercellular interactions, hydrodynamic interactions between cells in the bulk phase and on reactive surfaces, the leukocyte adhesion cascade, multiscale modeling of 46 IIT Hyderabad

shear-dependent selection mediated cell rolling, dynamics of platelet aggregation and adhesion to reactive surfaces under flow. CH6030 Modeling and Simulation Expected Learning for Students: Overall aspects and importance; Knowledge and formulation capability about the dynamics and multiple steady states; Learning to apply overall chemical engineering know-how to model various example systems with multidisciplinary approach.Mass, energy, entropy balances & general modeling issues. Broad overview of tools, methods like ANN, Wavelet, PCA, Genetic Algorithm etc. and general structure/ approach/ steps to build models around a process. Process Dynamics: Phase-plane analysis; Bifurcation; Stability; Linear and non-linear systems. Generalized modeling framework building for some chemical engineering problems: Process analysis; Process objectives; Mathematical representation and Approach for solution for several examples (e.g Stirred tank heater, Complex kinetics modeling, Polymerization reactor, Gas-fired boiler, Transport in Conducting Polymer, Secondary steelmaking process etc.) CH6050 Viscous Fluid Flow Properties of Fluids, Fundamental equations of fluid flow: Derivation of Navier-Stokes, continuity and energy equations, Boundary conditions for viscous flow, Some discussion on potential flows: stream function, potential function, Flow separation, Dimensionless parameters, Laminar boundary layers, similarity solutions: Blasius velocity profile for flow over a flat plate, Transition to turbulence: linear stability analysis, Introduction to Turbulence: RANS equations, modeling, etc. CH6070 Basics of Nanosciences and Nanotechnology Background: Nanosciences and nanotechnology is a rapidly emerging interdisciplinary field at the interface between physics, chemistry, materials science, electronics, and biology. Nanosciences deals with the study of materials that have one of the dimensions less than 100nm and have many properties significantly different as compared to their bulk state. This introductory elective course provides the essential scientific foundation in physics and chemistry of nano-sized materials and processes and molecular biology combined with modules to nanotechnology and its possible commercial exploitation for interested graduate students. Course Contents: Overview of Nanosciences: Important concepts such as size, quantum effect, Moores law, and etc. Fundamental phenomenon as a function of size and reduced dimensionality, Scaling laws. - Nanomaterials: Different type of nanomaterials, Synthesis of nanomaterials (chemical routes, thermolysis routes, etc.), Properties (Electrical, optical and mechanical) at nano-scale. - Characterization techniques: Beam probe methods (SEM, TEM, EDX, X-ray scattering), Scanning probe methods (STM and AFM), and other techniques (Optical spectroscopy, Chromatography, Light scattering). - Nanotechnology: Various Approaches (Top-down, Bottom-up, Self assembly, self-organization), Nanoengineering (Physics and Chemistry of surfaces), Interface between Physics, Chemistry and Biology, Ethical Issues. Applications of Nanosciences and nanotechnology: Catalysis, Nanofluidics and Nanoelectronics, Bio-sensors, Drug delivery, Tissue Engineering.

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CH6090 Advanced Mineral Processing This course is a full details and comprehensive knowledge of advance aspects of mineral processing, designing and selection of processing equipment and machinery. The following topics are explained in this course: Mineral processing introduction - Process overview, metals vs minerals - Metallurgical accounting, control & simulations - Comminution theory and models of comminution process Mineral liberation - Curshers, design & modeling - Grinding mills, designs & modeling Screening and classification - Dense medium separation - Froth flotation - Dewatering CH6110 Petroleum Refinery Engineering Evaluation and characterization of crude oil: TBP and other distillation tests. Petroleum products, their properties, specification and testing-different properties like flash point, fire point, smoke point, aniline point, carbon residue, kinematic viscosity, pour point, freezing point etc. Petroleum refinery distillation-pre-fractionation and atmospheric distillation of crude.Stabilization of naphtha.Vacuum distillation of RCO.Reforming of naphtha.Other secondary processes like Vis-breaking, Furfural/Phenol/NMP extraction, Solvent dewaxing, propane deasphalting.FCC unit.Hydrotreatment processes in refining: hydro-desulfurisation, hydrofinishing, Hydrocracking. Production of lube oil base stock. CH6200 Non-Newtonian Fluid Mechanics Non-Newtonian Fluids in engineering practice; Newtonian vs Non-Newtonian Fluid Mechanics; Non-Newtonian behavior: shear-thinning, shear-thickening, viscoelasticity, stick-slip behavior; Constitutive Model Examples; Review of Basics: Kinematics, RivlinEricksen tensors, Frame Indifference, Basics of Constitutive Theory; (Part 1) Special flows: Streamlines, Pathlines,Streaklines, Curvilineal flows, Viscometric flows (RivlinPipkin definition, Viscometry, flows of incompressible fluids, rectilinear flow in pipes), Monotonous flows (kinematics, flows of simple fluids); (Part 2) Special fluids: Fluids of Complexity n, Fluids of Grade n (Additional boundary conditions required for BVPs, secondary flow in a straight pipe), Fluids of Grade 2 (Unsteady lineal flows, Unsteady plane flows, Steady plane flows, Cannister flows Stability and Instability), Integral fluids, Rate-type fluids, Phenomenological models (Doi-Edwards, etc.); Applications of special fluid models. CH6220 Advanced Soild-Liquid Separations Characterization of particles in liquids; Particle drag and settling rates; Efficiency indices of separation of particles; Coagulation and flocculation; Gravity clarification & thickening; Classification by cyclones; Gravity separations; Separation by centrifugal methods; Filtration-fundamentals, cake washing, cake growth concepts; Pressure filtration; Vacuum filtration; Separator series and networks; Selection of solid-liquid separators. CH6240 Reacting Flows Basic thermodynamics relationships: Evaluation of ideal gas thermodynamics properties using NASA polynomials. Kinetics of gas phase reactions: Calculation of rate 48 IIT Hyderabad

coeffients and equilibrium constants; pressure dependent fall off reactions; third body reactions; Kinetics of heterogeneous reaction: Mean field approximation; calculation of rate coefficients using modified Arrhenius expression; Calculation of equilibrium constant; Numerical methods: Introduction to finite volume analysis; solution of differential algenraic system of equations using third party solvers (eg. LIMEX); Flow through porous media: Dusty gas model (DGM); Reactor modeling: Development of governing equations in 1D and quasi 2D for chemically reacting problems; Laminar premixed and counter flow diffusion flames; PLUG flow reactor model with heterogeneous chemistry; Fixed bed reactor model with heterogeneous chemistry; Correlations: Empirical correlations for mass transfer coefficients; empirical correlations for heat transfer coeffients; Mini project. CH6260 Advanced Topics in Thermodynamics Expected Learning for Students: Overall aspects and importance; Follow/understand the physical reasoning of statistical mechanics treatments; Basic thermodynamic deductions and relations; introduction of non-equilibrium through stability and fluctuations; Local equilibrium applications; Limitsand feasibility of processes. Introduction to statistical mechanics; Boltzmann distribution, Ideal and non-ideal gases; Equilibrium; Black body radiation, Third law, Liquid state, Phase changes and related phenomenon; Stability aspects and fluctuations in equilibrium states Onsagar reciprocal relations; Local equilibrium and related derivatives for diffusion, reactions etc.; Basic aspects of non-linear thermodynamics; Applications of nonequilibrium thermodynamics with examples. CH6280 Mathematical Methods Ordinary Differential Equations: Initial and Boundary Value Problems, Homogeneous Linear Equation, Inhomogeneous Linear Equation, First and Higher Order Nonlinear Differential Equations, Partial Differential Equations, Complex Analysis, Laplace and Fourier Transforms, Introduction to Perturbation Methods: Perturbation Theory, Regular and Singular Perturbations Theory, Asymptotic Matching. CHxxx1 Fundamentals of Microfabrication Background: MEMS technology offers many exciting opportunities in miniaturization of elements in a wide range of applications. MEMS based devices are constantly introduced into new products and new markets are expected to become affected by MEMS technology in the near future. The diversity and complexity of this technology demands a wide knowledge base from a prospect researcher. The goal of this course is to provide the participant the needed background to comprehend existing technology, and the tools to execute MEMS fabrication. Objective: This course is designed as an introduction to the fundamentals of microfabrication technology and its application to the fields of MEMS (microelectromechanical systems) and general microelectronics. Various aspects of MEMS technology and its numerous applications are presented. Course Contents: Introduction to MEMS: C-MEMS, Bio-MEMS - Micro-fabrication Approaches (Additive, Subtractive, Patterning) - Lithography, Etching (dry, wet), PVD, CVD, Ion implantation, LIGA etc. Biomimetics - Scaling Laws and Concept of Miniaturization - Applications, Clean room design and control. Courses of Study 49

CHxxx2 Cardiovascular Mechanics and Hemostasis Overview of Human Physiology, Structure-Function relationships in the body; Cardiovascular System; Heart: Structure, Systole-Diastole; Pressure-Flow relationships in vasculature; Blood vessels: constituents, rheology, influence on blood flow, models available; Blood: constituents, rheology of constituents, blood rheology, models available; Clot: constituents, rheology of constituents, clot rheology, models available; Hemostasis: Role in health, effect on blood rheology, constituents, extrinsic and intrinsic pathways, fibrinolysis, biochemical schematic, reaction-kinetics, models available. CHxxx3 Advanced Separations Processes Adsorption: Concepts and definitions; adsorbents and their preparation and properties; adsorption isotherms and their importance; adsorption types; equipments; adsorption in fixed bed; methods regenerations of adsorbents and basic mathematical modeling. Chromatography separation: Basic principal; different types of chromatographic separation techniques and their application. Membrane separation technique: membrane classification, chemistry, structure and characteristics and preparation; various membrane separations technology such as microfiltration, ultrafiltration, reverse osmosis, dialysis, electrodialysis, gas permeation, pervaoration, liquid membrane and their applications in chemical, biotechnology, food, and biochemical industry. Reactive Distillation: Concept, modeling and design aspects and applications. Supercritical Fluid Extraction: Concept, modeling and design aspects and applications. Biofiltration: Concept, modeling and design aspects and applications.Physical and electrostatic separation Techniques: Filtration, Centrifugal separations, gravity separations, fluidized bed separation and other unit operations. CHxxx4 Heterogeneous Catalysis Heterogeneous Catalysis: Principles of heterogeneous catalysis; engineering properties of catalyst; determination of surface area, pore size and its distribution; kinetics of fluid-solid, non-catalytic and catalytic reactions and kinetic parameters estimations. Preparation and characterization of catalysts. Classification of catalysts; requirements of industrial catalysts and their applications; zeolite and supported metal/ metal oxide catalyst; catalyst preparation and modification techniques: impregnation, decomposition, precipitation, sol-gel, micro-emulsion techniques; different techniques for structural and morphological characterization of catalysts: TPD, XRD, and SEM. CHxxx5 Mesoscopic Simulation using GPU Introduction to graphics processing unit (GPU), Application of GPUs on computer simulations with examples. Introduction to lattice Boltzmann method (LBM). Use of GPU to solve fluid flow problem with LBM. CHxxx6 Multiphase Flow Theory and Modeling This course is a full details and comprehensive knowledge of all aspects of multi-phase flows, theory and modelling. The following topics are explained in this course: Classification of multi-phase flows - Transport processes of a rigid particle - Transport processes of a deformable particle - Transport properties of a suspension flow - Cell 50 IIT Hyderabad

model - Basic equations of multi-phase systems - Methods for modeling multi-phase flows - Two-fluid model concept - Lagrangian frame work model - Algebraic slip mixture model - Eulerian-Eulerian model - Case studies CHxxx7 Chemical Engineering Aspects of Drug Delivery Expected Learning for Students: Overall aspects and importance; Theory, models and approaches in depicting the drug delivery aspects; Mechanistic details and variety of drug delivery modes; Important example to know more about present & future applications. Broad aspects: definitions and importance; a concise introduction to bio-system and biochemistry. Theoretical Aspects: Basic electrochemistry; electrochemical transport (PoissonNernst-Planck, Electroneutraity etc.); diffusion; ionic reactions; Voltammetric techniques and current vs. voltage calculations; Basic nano and microfluidics; Phenomenological modeling. Details of delivery mechanism: Delay and controlled release of drug from materials; Magnetic nano-particle encapsulation; Lipid based carrier development; Polymer applications in implants (e.g. PLA, PEG etc.); Electroactive polymers, micro-actuation, parameter dependent (e.g. pH) property variations and membrane applications; Implantable drug delivery systems; Other biofunctionalization of nano-materials. Some example problems with probable engineering approaches (e.g. drug delivery in diabetes, osteoporosis, tumor etc.)

10.4. Department of ChemistryCY1010 Environmental Chemistry Environmental behavior of organic/inorganic compounds, Fate of organic/inorganic chemicals in natural and engineered systems, impact on physical-chemical properties of environmentally relevant compounds, Aspects of transformations in the atmosphere. CY1020 Dynamics of Chemical Systems Chemical Kinetics, Concepts of Electrochemistry, Corrosion, Photoelectric effect, Schrdinger Wave Equation, Particle in a box, Hydrogen atom, Concept of orbitals, Quantum numbers, Helium atom. CY1031 Laboratory A laboratory course designed to illustrate the fundamental principles of organic, inorganic and physical chemistry. CY5010 Stereochemistry, Reaction Mechanisms and Aromaticity Stereochemistry: Introduction to molecular symmetry and point groups, Stereoselectivity, Reaction mechanisms, Nucleophilic substitution, Aromaticity, Aromatic electrophilic substitution

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CY5011 Organic Chemistry Practicals Syntheses of organic compounds by use of various reactions to impart the student with sufficient knowledge of synthetic organic chemistry. CY5020 Advanced Organic Chemistry of Multiple Bonds Alkenes and alkynes, Pericyclic reactions, Carbonyl compounds CY5110 Concepts in Inorganic Chemistry Atomic structure, nuclear properties, molecular symmetry, bonding in polyatomic molecules, acid- bases and ions in aqueous solution, non aqueous media, reduction and oxidation, green chemistry CY5111 Inorganic Chemistry Practicals A laboratory course devised to demonstrate principles of inorganic chemistry. CY5120 Coordination Chemistry Structure and bonding, Molecular Orbital (MO) theory of complexes - MO diagrams, Mechanism of redox reactions outer sphere mechanisms, Inner sphere mechanisms, Crystal field theory (CFT), spin crossover - Jahn-Teller effect - Nephelauxetic effect, magnetic properties orbital splitting, spin-orbit coupling, Orgel diagrams, TanabeSugano diagrams, calculation of CFSE, Dq, B and values, selection rules, band intensities and band widths, spectra of high-spin octahedral and tetrahedral complexes of d1 to d9 systems CY5130 Main Group Chemistry S-block elements, alkali and alkaline earth metal complexation, P-block elements, P-N & S-N rings, Specific reagents of main-group elements, industrial chemicals CY5210 Electrochemistry and Chemical Kinetics Ion transport in solution, Ficks laws of diffusion, ion-solvent / ion-ion interactions and conductivity, Debye-Huckel theory, Debye-Huckel-Onsager equation, chemistry of electrode-electrolyte interface, Butler-Volmer Equation, rate law, order of reaction, half lifetime, mechanisms of complex reactions, collision theory, effect of temperature & catalyst, activated complex theory, Eyring equation, Lindemann theory CY5211 Physical Chemistry Practicals Experiments to illustrate principles of kinetics, thermodynamics, electrochemistry and spectroscopy. CY5220 Solid State Chemistry X-ray diffraction, principles of inorganic crystal structures, crystal chemistry and bonding in solids; preparative methods, characterization of inorganic solids: application of physical techniques, thermal analysis, electronic properties and band theory: metals, semiconductors, inorganic solids, colour, electrical, magnetic and optical properties

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CY5230 Statistical Thermodynamics & Surface Science Types of statistics, Partition Functions, Thermodynamics properties, Einstein and Debye Theory of heat capacities, Ensembles, Entropy, Gibbs Paradox, Quantum statistical mechanics, Chemisoprtion, Freundlich adsorption, applications of adsorption, Langmuir theory, BET theory, Gibbs adsorption, modern techniques for investigating adsorption, Jablonski diagram, Laws of photochemistry, kinetics and energy transfer in photochemical reactions. CY6010 Synthetic Methodology in Organic Chemistry Basic retrosynthetic analysis, nucleophilic C-C bond forming reactions, C-C bond formation via free radicals and carbenes, C-C bond formation using tin reagents. CY6110 Metals in Biological systems Metal ions in biology: metallo-proteins and enzymes containing Mg, Ca, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Mo and W ions. heme and non-heme systems, Peptide and nucleotide hydrolytic enzymes, Metal environment, electronic, magnetic and redox properties; fixation of N2, water-oxidation reactions, Synthetic models for the structure and function of the above enzymes, syntheses of ligand-metal complexes, reactivity of O2, CO, NO, N2; mechanistic aspects, high-valent metal-oxo (Fe-, Mn- and Cu) systems, Interaction of metal ions with nucleotides and peptides, hydrolysis of phosphate and amide groups, Metal based drugs, environmental applications and toxic effects. CY6210 Separation Techniques and Dynamic Electrodics Extraction methods, super critical fluids, Electrophoresis- theory and applications. Chromatography, Identification of trace elements: DCP and ICP, Flame Emission and Atomic Absorption Spectrometery Neutron diffraction methods, Electrode Processes, Potential Sweep Methods, Polarography, Pulse Voltammetry, Impedance Spectroscopy, Controlled Current Methods, Application to Electroactive layers, Spectroelectrochemistry and other coupled characterization methods. CY6220 Physical Methods in Chemistry Rotational spectroscopy, Vibrational Spectroscopy, Selection rules, VibrationalRotational spectra, Morse Potential. Raman spectroscopy, electrical and magnetic properties of molecules, NMR, FT-NMR, Relaxation processes in NMR, ESR spectroscopy, Kramers degeneracy, Mossbauer spectroscopy. CY6230 Theoretical Chemistry Mathematical concepts, eigen values and eigen vectors, similarity transformations, solutions of Hermite, Legendre and Laguerre differential equations, Orthogonality properties and recurrence relations among special functions: associated Legendre functions and Spherical Harmonics, Introduction to Fourier series and Fourier transforms, convolution theorem, Solution of the Schrodinger equation for the hydrogen atom

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CY7010 Chemistry of Natural Products and Biomolecules Classification of natural products, Monoterpines and sesquiterpenes, Steroids CY7020 Advanced Organic Chemistry Synthetic strategies for preparing natural products and applications. CY7110 Organolanthanide Chemistry Intrinsic Properties of the Lanthanide Elements (Electronic Features, Steric Features), Synthesis of Organolanthanide Compounds (Thermodynamic and Kinetic Guidelines, Inorganic Reagents, Metalorganic Reagents, Thermal Stability), Ligand Concepts (Steric Bulk and Donor Functionalization, Ancillary Ligands, Immobilization Supported Ligands, Reactivity Pattern of Organolanthanide Complexes (Donor-Acceptor Interactions, Complex Agglomerization, Ligand Exchange and Redistribution Reactions, Insertion Reactions, Elimination Reactions Ligand Degradation, Redox Chemistry, Reaction Sequences Catalytic Cycles CY7120 Advanced Organometallic Chemistry Structure of TM complexes , ligands, hapticity, 18- electron rule, Clusters and M-M bonds, Reaction mechanisms, Metal alkyl and hydride, Metal-carbene complexes, Fischer/Schrock carbenes, NHCs, olefin metathesis, multiple bonding between TMs and heteroatoms - -complexes (olefins, dienes, alkynes, allyls, arenes) - Metallocenes - structures, syntheses, properties - OM complexes of alkali metals, Grignard reactions Main group OM chemistry (group 13-16), Carbonylation of Alcohols- Hydrogenation of Alkenes- Hydroformylation - Alkene and Alkyne Metathesis. Oligomerization and Polymerization of Alkenes and Alkynes. CC Coupling Reactions, CHeteroatom Coupling: Amination of Arenes, Hydroamination, Hydroboration, and Hydrosilation. CY7210 Group theory Concept of groups, symmetry operations and symmetry elements in molecules, matrix representations of symmetry operations, point groups, irreducible representations and character tables, Application of group theory to atomic orbitals in ligand fields, molecular orbitals, hybridisation, classification of normal vibrational modes, selection rules in vibrational and electronic spectroscopy. Woodward-Hoffman rules CY7220 Chemical & Electrochemical Energy Systems Electrochemical Techniques and their application to Real Systems, Electrochemical Cells: Batteries, Supercapacitors, Fuel Cells, Solid Electrolytes and Photoelectrochemical Cells, Photocatalysis, steam reforming, petroleum refining, coal reforming, hydrogen production, decomposition of N2O, dry reforming. CY7410 Spectroscopy & Applications Applications of modern spectroscopic techniques such as NMR, IR, MS, etc. for structure elucidation of inorganic, organic and biologically important compounds.

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IIT Hyderabad

10.5. Department of Civil EngineeringCE6011 Computer Methods in Civil Engineering Introduction to computer programming, Matrix operations, Eigen values and eigen vectors in matrices, Solution to linear, non-linear, and ordinary differential equations, Application of finite differences to partial differential equations, Principles of curve fitting and optimization, Development and application of computer programming to case studies derived from Civil engineering. CE6110 Advanced Structural Mechanics Fundamentals of elasticity, Unsymmetrical bending, Shear center, Torsion, Thin walled sections, Beam on elastic foundation, Fundamentals of buckling, Stress concentrations, thin-wall circular cylinders; Force and displacement method of analysis, computer implementation, static condensation and sub structuring. CE6111 Structural Mechanics Lab Principles of closed-loop testing, strain gauges, strain and force measuring devices, Principles of non-destructive testing basics of wave propagation and stress wave propagation techniques. Optical techniques for displacement and strain measurements, application of strain gauges and data acquisition system, Closed-loop testing of concrete in compression and flexure, Load testing of beams, Measurements using stress-wave based techniques on concrete and steel structures, Demonstration of optical techniques for discs, stress concentration and deep beams. CE6120 Applied Elasticity and Plasticity Tensor Algebra, Analysis of Stress, Analysis of strain, Stress-strain relations, 2-D problems in elasticity, Axisymmetric stress analysis, Plastic behavior of materials, Yield/Failure theories, Plastic stress-strain relations CE6130 Finite Element Analysis Introduction, Mathematical preliminaries- Linear function spaces, operators and functionals. Continuity and differentiability.Inner products, norms and completeness.Background on variational calculus.Galerkin methods, Collocation methods, Least-squares methods.Variational methods of approximation- Rayleigh-Ritz method, variational theorems.Compatibility and completeness of admissible spaces. Basic element shapes in one, two and three dimensions. Polynomial shape functions. Area coordinates. The concept of isoparametric mapping.Computer implementation.Application to elliptic parabolic and hyperbolic differential equations. CE6131 Finite Element Lab ANSYS/ABAQUS Utilities.Detailed tutorials outlining structural analysis using ANSYS/ ABAQUS- linear static, 1D, 2D, and 3 D. Intermediate tutorials on dynamic analysis and nonlinearities. Advanced tutorials on sub structuring, optimization, multi material systems, and user prescribed functions. Post processing tutorials. Introduction to programming the Finite element methods using MATLAB.

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CE6140 Structural Dynamics Free and forced dynamic responseof Single and multi-degree-of-freedom systems; Numerical Evaluation of Dynamic Response; Modal Analysis; Fundamentals of Earthquake Engineering;Concepts of response spectrum, Earthquake Response of Linear Systems; Structural dynamics and Building codes. CE6150 Structural Stability Stability General Principles, Equilibrium Analysis of Stability, Beam Columns; Stability Analysis of frames by Equilibrium Analysis; Dynamic Analysis of Stability; Energy Methods: General Principles, Variational Analysis, Ritz and Galerkin Methods; Beam on Elastic Foundation; Lateral Torsional Buckling; Design Implications CE6160 Theory of plates and Shells Introduction- Mathematical preliminaries, energy principles and variational methods, Classical theory of plates, Analysis of circular and rectangular plates, Bending, Buckling and Free vibration analysis of plates. Shear deformation theories- First order and third order plate theories. Theory and analysis of shells, thin cylindrical and circular shells, Free vibration and buckling analysis of shells. Introduction to composite platesClassical laminate plate theory. Finite element analysis of plates, Nonlinear finite element models. CE6200 Condition Assessment and Rehabilitation of Structures Damage mechanisms in reinforced concrete and steel structures, specifically, cracking (both load induced and environmentally assisted), corrosion of steel, Fire damage in concrete and steel, Sulfate-attack and Alkali-silica reaction in concrete structures; Laboratory and field techniques for detecting the various damage mechanisms and the theoretical background behind different techniques; Basics of wave propagation and review of non-destructive test techniques; Estimation of load carrying capacity of structural members with damage; Repair and Rehabilitation strategies used in the field to repair existing damage and rehabilitate and strengthen structures CE6212 Advanced Reinforced Concrete Mechanical properties of concrete and steel, Behaviour of concrete under uniaxial and multiaxial states of stress; effect of creep of concrete, Basic Design philosophies, Probabilistic load theory, ultimate strength design methodology, comparison of working stress and ultimate load method; Moment-curvature and load-deflection relationships. Behavior and design of columns subjected to biaxial bending, Analysis and design of slender columns under sway and non-sway conditions, Behavior and design of reinforced concrete structures for combined shear and torsion, Design of flat slabs and two way slabs, Design of special reinforced concrete structures - Deep beams and corbels. CE6222 Prestressed Concrete Design Introduction to concept of prestressing, types of prestressing, systems and devices, review of short and long-term behavior of concrete and prestressing steel,losses in prestress., Stress analysis of flexural members, flexural and shear design of statically 56 IIT Hyderabad

determinate beams, analysis and design for shear and torsion, codal provisions, Anchorage zone stresses for post-tensioned members; design of anchorage zone, Analysis and design of statically indeterminate structures - continuous beams and frames, determination of cable profile, concepts of linear transformation and concordancy. Composite construction with precast, prestressed beams and cast in-situ reinforced concrete slab; Analysis and design of prestressed concrete tanks and slabs. CE6232 Advanced Steel Design Review of Beam Design, Plastic Design of Beams, Plate Girders (Built-Up Sections), Steel-Concrete Composite Beams, Review of Column and Tension Members, Review of Basic Welded and Bolted Connections, Bracing and Connections. Design of Bunkers and silos. CE6300 Advanced Foundation Engineering Limit state design and working stress design; ultimate limit state; tolerable foundation movement; limit bearing capacity; bearing capacity of footings resting on saturated clay and sand; bearing capacity failure modes- general shear, local shear and punching shear; foundations subjected to eccentric loading; pile foundations: types & their installation; axial pile capacity (from fundamental soil variables, CPT and SPT results); axial deformation of piles; laterally loaded piles; vertically loaded pile groups; piled rafts; laterally loaded pile groups CE6310 Advanced Soil Mechanics Stresses and strains in soils; dilatancy angle; Mohrs circle of stress and strain; zeroextension line; stress paths (p-q space, s-t space); failure theories- Tresca criterion, Mohr-Coulomb criterion; Caquots principle; slip surface; stress-strain-volume change curves; sources of shear strength; critical state friction angle; factors affecting drained shear strength; Boltons correlation for friction angle; undrained shear strength; smallstrain stiffness; drained and undrained shear strength of clays; Hvorslevs cohesion and friction; critical-state, residual, and design strengths CE6323 Experimental Soil Mechanics Fundamentals of experimental studies of soil behavior; measurement of soil properties and laboratory test methods - consolidation, direct shear, static triaxial, cyclic triaxial, resonant column, bender elements and other advanced geotechnical laboratory tests; instrumentation and measurement techniques CE6330 Soil Dynamics Fundamentals of vibration; single/multiple degree of freedom systems; free and forced vibrations; damping; elastic stress waves in a bar; equation of motion in an elastic medium; stress waves in elastic half-space; laboratory tests to determine dynamic soil properties; field test measurements; dynamic behavior of foundations, ultimate dynamic bearing capacity, seismic bearing capacity and settlement in granular soil; dynamic behavior of retaining walls; liquefaction of soils

Courses of Study

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CE6340 Ground Modification Techniques Mechanical modifications - compaction methods, stone columns, blasting; hydraulic methods- sand drains, wick drains; chemical methods- shallow and deep soil mixing, lime/cement stabilization; thermal modifications- freezing, thawing, vitrification; reinforcement methods- geosynthetic reinforcement CE6352 Design of Earth Structures Slopes- limit equilibrium methods of slope stability; slope stability for analyses for rapid drawdown; design charts for slope stability; embankment dams- design of embankments; seepage principles; Darcys law; flow nets; seepage forces and uplift; seepage in earth dams; retaining walls- at rest earth pressure; Rankines and Coulombs active and passive earth pressures; retaining wall design; reinforced retaining walls; gabion retaining walls; earth retention systems- cantilever and anchored sheet piles; open cuts; trenching; braced excavations; excavation support; nailing; anchoring; basal heave CE6360 Geotechnical Earthquake Engineering Introduction to seismology and earthquakes; strong ground motion; seismic hazard analysis; dynamic soil properties; ground response analysis; liquefaction of soils CE6370 Soil-Structure Interaction Soil-foundation interaction; elastic models of soil behavior- Winkler model, elastic continuum models, two parameter models; elastic-plastic and time dependent behavior of soil masses; soil-foundation interface behavior; beams on elastic foundation; plates on elastic medium; elastic analysis of axially-loaded and laterallyloaded piles CE6390 Pavement Geotechnics Introduction to cyclic response of soils, resilient and plastic behavior of soils and aggregates; effects of traffic loads, natural forces, and material quality; current design practices; principles and theoretical concepts of rigid and flexible pavements for highways and airfields; utilization of recycled materials for sustainable pavements; life cycle cost analysis CE6392 Designing with Geosynthetics Introduction to geosynthetics; types; test methods and properties of geotextiles, geogrids, geonets and geomembranes; applications of geosynthetics to pavement reinforcement, soil reinforcement in embankments, separation, drainage and filtration; other geosynthetic products and their applications CE6410 In-situ Testing Introduction to basic and advanced site investigation techniques; methods of drilling and probing for determining stratigraphy; standard penetration testing; miniature penetrometers; cone penetration testing; pressure meter testing, dilatometer testing; correlations of in situ measurements with engineering parameters of soils; field instrumentation 58 IIT Hyderabad

10.6. Department of Computer Science & EngineeringCS1010 Discrete Mathematics for Computer Science Basic proof techniques: Proof by Induction, Proof by Contradiction, Proof by Construction and Proof by Contrapositive. Introduction to Graph Theory, Group Theory and Number Theory. Introduction to Logic CS2010 Data Structures and Algorithms Abstract data types, Big-Oh notation, Time and Space complexity, Basic data types Stacks, Queues, Trees; Dictionaries Binary search trees, Balanced search trees, Hash tables; Heaps, Priority queues, CS2011 Data Structures and Programming Lab Programming assignments related to the Data Structures course. CS2020 Design and Analysis of Algorithms Algorithmic Design Paradigms such as Greedy algorithms, Dynamic programming, Divide and Conquer; Sorting, Lower bounds, Graph algorithms- DFS, BFS, Topological sorting, Spanning trees, Shortest paths, Matching. CS2030 Theory of Computation Alphabets, languages, Decision Problems and languages - Automata Theory, Models of finite automata: Deterministic, 2-way Deterministic, Nondeterministic, Equivalence proofs, Regular Expressions, Properties of Regular languages: Pumping lemma and closure properties - Myhill Nerode theorem, State Minimization, Applications of regular expressions and finite automata - Push Down Automata and Context Free Grammars, Properties of Context Free Languages: Pumping lemma and closure properties, Applications of context free grammars and languages. Turing Machines: Variants, Nondeterministic Turing machines, Universal Turing Machine. Undecidability: Diagonalization, Recursive, Recursively Enumerable and Non Recursively Enumerable Languages - Reductions, Introduction to the theory of NP-completeness. CS2040 Principles of Programming Languages Program development process. Issues in program design, structured programming, data and control abstractions. Ideas behind imperative, functional and logic programming paradigms such as typing, expressions, pure functions, recursion, higher order functions, encapsulation, inheritance, goal satisfaction, backtracking, unification. Some of the ideas behind the implementation of the paradigms.

CS2051 Computer Organization and Microprocessor Lab Experiments are conducted on 3 different platforms (1) Basic exposure to microprocessors using 8085 kits and interfacing units (2) Advanced controller programming using ARM boards and interfacing units (3) Digital design using SPARTAN-3E FPGA boards

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CS3010 Introduction to Database Systems Purpose and evolution of database management systems, relational model of data and relational algebra, SQL, integrity constraints, authorization, database design and normal forms, database applications, storage structures and indexing, query processing, transactions, lock based concurrency control. CS3011 Database Systems Lab The lab will comprise of several assignments related to database design, SQL, database application development and database system internals. The assignment on database system internals will involve extensive programming to implement parts of database system. CS3020 Language Translators Lexical analysis and parsing. Top-down and bottom-up parsing algorithms. Automatic generation of parsers. Error recovery : Error detection and recovery. Static semantic analysis: Syntax directed translation schemes, type analysis, scope analysis and intermediate code generation. Runtime memory management : Stack based memory allocation schemes, activation records. Code generation: Machine model, order of evaluation, register allocation and code selection. Code optimization: Selected optimizations like common sub-expression removal, loop invariant code motion, strength reduction etc. CS3021 Language Translators Lab The lab will involve programming assignments related to the implementation of language translators. CS3030 Operating Systems Responsibilities of OS, processes, scheduling, inter-process communication, threads, synchronization, deadlocks, memory management, virtual memory, file systems and I/O subsystem. CS3031 Operating Systems Lab This will be a programming intensive lab comprising of several assignments related to operating system features and their implementation. CS3040 Computer Networks Basics of Computer Networking, TCP/IP protocol stack, Application layer (WWW, Email, DNS), Transport layer, Network layer, Routing in Internet, Data link layer, Local Area Networks (Ethernet, Wi-Fi), Network Security CS3041 Computer Networks Lab Client-Server Design using Socket programming in C/C++, Design of Web Proxy with Caching/Filtering features, Sliding Window protocol implementation, Wireshark assignments on DNS, HTTP, DHCP, SMTP, TCP, UDP, IP, Ethernet, Wi-Fi, ARP, etc.

60

IIT Hyderabad

CS4010 Software Engineering Models for software development process. Design concepts and principles Abstraction, Refinement, Modularity, Cohesion and Coupling. Refactoring of designs. Object Oriented approach to software design - Concepts - Design issues - Modeling techniques Design process - Design patterns. Software Configuration Management. Project planning effort estimation techniques. Software quality assurance. CS4011 Software Engineering Lab System Requirement Specification (SRS), analysis and design documents as per standards. Object-oriented design and UML. Case studies of real-world applications. SCM tools like CVS or SVN. At the end of the semester, there should be a presentation of the project with demonstration. CS5010 Neural Networks Introduction to ANNs: Biological neural networks, Pattern recognition tasks, Computational models of neurons, Structures of neural networks, Learning principles; Feed forward neural networks: Perceptron, Multilayer feed forward neural networks (MLFFNNs), Error back propagation learning, Autoassociative neural networks, Other types of MLFFNNs; Radial basis function networks: Regularization theory, RBF networks for function approximation, RBF networks for pattern classification; Support vector machines; Self organizing maps: Pattern clustering Kohonens self-organizing map; Feed back neural networks: Pattern storage and retrieval, Hopfield model, Recurrent neural networks. CS5020 Pattern Recognition Basics of pattern recognition; Bayesian decision theory: Classifiers, Discriminant functions, Decision surfaces, Normal density and discriminant functions, Discrete features; Parameter estimation methods: Maximum-Likelihood estimation, Gaussian mixture models, Expectation-maximization method, Bayesian estimation; Hidden Markov models for sequential pattern classification; Dimension reduction methods: Fisher discriminant analysis, Principal component analysis; Non-parametric techniques for density estimation; Linear discriminant function based classifiers: Perceptron Support vector machines; Non-metric methods for pattern classification; Unsupervised learning and clustering: Algorithms for clustering: K-means, Hierarchical and other methods CS5030 Topics in Theoretical Computer Science This course will be primarily based on published papers in various areas of theoretical computer science. The objective is to discuss in depth some of the key results in theoretical computer science. CS5040 Linear Optimization Linear Algebra: Solving Ax=b using Gaussian elimination, Linear algebra basics, Rank of a matrix, Column space and Null space, Linear and affine spaces - Geometry of Linear Programs: Convex sets, Hyperplane, Convex polytopes, Maximization over a convex set

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Linear Programming: Extreme points, Convex hull of extreme points, Simplex algorithm, Handling degeneracy - Duality: Duality theory, Complementary Slackness, Bounding the Primal Solution from Below - Approximation algorithms: LP Relaxation and rounding, Primal Dual method CS5050 Advanced Topics in Data Management Parallel and distributed database systems. Advanced query processing & optimization Volcano optimizer, decorrelation techniques, holistic optimization of database applications. Adaptive query processing. Streaming databases. Data warehousing and OLAP. Spatial databases and indexing of spatial data. XML. CS5060 Advanced Computer Networks Basics of Computer Netwo