Programme Objective

B.Tech in Aeronautical Engineering Course Details:- B.Tech in Aeronautical Engineering stands for Bachelor of Technology in Aeronautical Engineering. It is a 4 year degree course. The minimum eligibility is intermediate (10+2) in Science. This course trains an engineer in designing, constructing, analyzing, testing, development and manufacturing of commercial and military aircrafts, missiles, and spacecrafts. Aeronautics focuses on systems that operate in the Earth's atmosphere and Astronautics on those operating in space. Aeronautical engineers often work for large aviation companies like Airbus, Boeing and even NASA. These companies are constantly seeking trained engineers. In India aeronautical engineers are mostly employed by ISRO (Indian Space Research Organization) and the Defense Ministry. One can also look for jobs available with the Civil Aviation Department, National Aeronautical Laboratory, Defense Research and Development Laboratories (DRDO) and Hindustan Aeronautics Limited (HAL). Aerospace engineers are in great need in aircraft industrialized divisions, airline industries and air turbine production plants or designs. They can also seek employment in different areas such as design, development, and maintenance as well as in the managerial and teaching jobs in institutes. This is an incredibly well paid job but it is also very demanding. In future the demand for aerospace engineers will rise because of their requirement in various sectors. There are lots of job opportunities available in India as well as in foreign countries.

Eligibility | : | 12th(science pcm) |

Programme Fee | : | Tuition fee 45000 per/sem. |

Examination Fee | : | Examination Fees per annum 2000/- |

Registration Fee | : | Registration Fees one time 1200/- |

Prospectous Fee | : | Prospectous one time 1000/- |

Minimum Duration | : | 2 years |

Maximum Duration | : | 4 years |

Minimum Counselling : It is based on credits and one credit amounts to 10 hours counselling and hand-on experience at DESC. | ||

Preparatory Module : |

COURSE STRUCTURE & SYLLABUS OF BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR FIRST SEMESTER |

SYLLABUS BF1 : MATHEMATICS II ## 1 : LIMITS AND CONTINUITY OF A FUNCTION.## 2 : DIFFERENTIATION.Definition, Derivative by first principle,Differentiation of implicit functions, Differentiation of trigonometric functions, Differentiation of inverse trigonometric functions, Transformation, Differentiation of exponential and Logarithmic Functions, Hyperbolic functions, Derivatives of the inverse hyperbolic functions, Differentiation with respect to a function, Differentiation of Parametric Equations. ## 3 : SUCCESSIVE DIFFERENTIATION-:Calculation of nth derivative, Leibnitz’s theorem.## 4 : GENERAL THEOREMS, EXPANSION OF FUNCTIONS.Rolle’s Theorem,Mean value theorem (Lagrange’s form), Increasing and Decreasing functions, Mean value theorem (Cauchy’s form). Expansion of functions;Taylor’s expansion theorem, Maclaurin’s theorem, Taylor’s and Maclaurin’s infinite series. ## 5 : INDETERMINATE FORML’ Hospital’s rule,Evaluation of % form, Evaluation of form, Evaluation of form, Evaluation of 00, 1 , 0 form. ## 6 : CURVATURERadius of curvature,Special formula for parametric equations, Radius of curvature at the origin. ## 7 : MAXIMA AND MINIMAMaximum and Minimum values of a function.## 8 : ELEMENTARY INTEGRATIONTable of elementary integrals,Simple examples. ## 9 : INTEGRATION BY SUBSTITUTIONIntroduction,Change of independent variable in , Working rule to evaluate by the substitution, Four important integrals, standard forms, Integrals of tan x, cot x, sec x, cosec x. ## 10 : INTEGRATION BY PARTS, , Important integrals.## 11 : INTEGRATION BY PARTIAL FRACTIONSNon-repeated linear factor,Repeated linear factor, Linear and quadratic factors (non-repeated) Quadratic (repeated), Integration of rational fraction by substitution. ## 12 : INTEGRATION OF IRRATIONAL ALGEBRAIC FUNCTIONSIntegration of rational functions,integral of the type ## 13 : INTEGRATION OF TRIGNOMETRIC FUNCTIONSReduction formula method,Integration of positive even integral, Integrals of rational functions of sinx and cosx. ## 14 : REDUCTION FORMULA## 15 : DEFINITE INTEGRALSDefinition,Properties of definite integrals, Examples base on properties. ## 16 : AREAS OF PLANE CURVES## 17 : VOLUMES AND SURFACES OF SOLIDS OF REVOLUTION## 18 : LENGTHS OF PLANE CURVESArc Formulae,Arc formulae for polar equations. ## 19 : SIMPSON’S RULE## BF2 : CHEMISTRY## 1. WATER TREATMENT:Introduction,Sources of Water, effect of Water on Rocks and Minerals, Types of Impurities Present in water, Effects of Impurities in Natural Waters, Methods of Treatment of Water for Domestic and International Purposes, Removal of Dissolved Salts: Softening of Water, Boiler Feed Waters, Boiler Troubles. ## 2. FUELSIntroduction,Classification of Fuels, Solid Fuel (Coal), Classification of Coal by Rank, Analysis of Coal, Pulverized Coal, Metallurgical Coke, Manufacture of Metallurgical Coke, Liquid Fuels, Petroleum, Refining of Petroleum, Synthetic Petrol, cracking, Polymerisation, Synthetic Method, Refining Gasoline, Reforming, knocking, Gaseous Fuels, Natural gas, Producer Gas, Water Gas or Blue Gas, Bio-gas, Fuel gas. ## 3. LUBRICANTSIntroduction,Functions of Lubricant, Requirements of a Lubricant, Mechanism of Lubrication, Classification of Lubricants, Properties of Lubricating oils, Glossary, Questions. ## 4. POLYMERS AND PLASTICSIntroduction, Polymerisation, Classification of Polymers, Tacticity, Functionality of Polymer, Polymerisation Processess, Mechanism of Addition Polymerisation, Effects of Structure on Polymer Properties, Plastics, Compounding of Plastics, Thermoplastics resins, Silicones resins, Elastomers or rubber, Adhesives, Glossary, Questions.## 5. THERMODYNAMICSIntroduction, Laws of Thermodynamics, Isothermal and adiabatic Processes, Thermochemistry, System, Glossary, Questions.## 6. CORROSIONIntroduction, Characteristics of Corrosion, Mechanism of Corrosion of iron, Types of Corrosion, Corrosion and redox Process, Factors Which influence Corrosion, Corrosion Control, Glossary, Questions.## 7. ENVIRONMENTAL POLLUTION CHEMISTRYIntroduction, Important definitions, Air Pollution, Water Pollution, Soil Pollution, Pollution by heavy metals, Glossary, Questions.## 8. METALLIC BOND AND SEMICONDUCTORSIntroduction, Nature of Metallic bond: Theories, Mechanism of thermal Conduction, Mechanism of electrical conduction, Ductility and malleability, Thermal conductivity, Electrical Conductivity, Photoconductors, Semiconductors, Glossary, Questions.## BF3 : ENGLISH FOR COMMUNICATION## 1. THE COMMUNICATION EVENTSNature Of Communication, Objective, Definition Of Communication, Situation For Communication, Need Of Communication, Types Of Communication, Verbal Or Oral Communication, Elements Of Communication , Modes Of Communication (Verbal And Non-Verbal), Charts And Graphs, Flow Process Chart, Written Communication , Oral Communication, Media: Channels Of Communication, Message : Form And Content, Communication Process, Effective Communication, Barriers Of Communication, Summary## 2. SUMMARIZATIONSummary Writing## 3. COMPREHENSION AND VOCABULARYComprehension, Vocabulary [(A) Synonyms And Antonyms, (B) Homonyms, (C) Same Word Used As Different Parts Of Speech, (D)One Word Substitution], Word Formation, Root## 4. PRINCIPLE OF LANGUAGE GRAMMAR AND USAGESThe Sentence Elements, Words, Phrases, Clauses Sentences, Sentence, The Word, Noun, Verb, Tenses And Their Usages, The Verb : Person And Number, Agreement Of The Verb With The Subject, The Infinite, Adverbs, Adjectives, Preposition, Relations Expressed By Prepositions, Conjunction, Clauses, Determiners And Modifiers, Sentence Connectives, The Compound Nd Complex Verb Phrase, Complementation And Subordination, Sentences, Change Of Voice, Change Of Degree, Affirmative And Negative Sentences, Direct And Indirect Speech, Conversion Of Compound Sentences Into Simple Sentences, Conversion Of Complex Sentences Into Compound Sentences, Punctuation## 5. BASIC OFFICIAL CORRESPONDENCEThe Process Of Formal Written Communication, The Qualities Of Good Writing, Principles Of Message Organization, Mechanics Of Writing, Elements Of Structure, Forms Of Layout, Styles Of Presentation, Types Of Letters ,Enquiry Letter, Making Claims, Offering Adjustments, Communication Core, Importance And Function, Drafting The Application, Elements Of Structure, Preparing The Resume, Job Offer, Resignation Letter, Communication Core## 6. TECHNICAL WRITINGFraming Definitions, Classification And Description Of Objects, Instructions, Types Of Instructions## BF4 : ELECTRICAL TECHNOLOGY## 1. BASIC CONCEPTS & UNITS:Force, Weight, torque, work, energy, Power, Electric charge, Electric Current, EMF, Voltage, Potential Difference Concepts of Ac/Dc Voltage/current.## 2. ELECTROSTATICS:Coulomb’s Law, Electric Field, Electric Flux, Electric Field Intensity, Electric Flux Density, Electric Displacement, Charge Density, Permittivity, Dielectric Constant, Electric Potential, Gauss Law, Capacitor, Capacitance of parallel Plate Capacitor, Energy Stored in Capacitor, Capacitors in Series & Parallel, Capacitance of a Multiplate Capacitor, Force of Attraction between plated of Capacitor, Insulation Resistance of Cable.## 3. ELECTRIC CIRCUIT ELEMENTS:Resistance, Specific Resistance, Resistance in Series & Parallel, Open Circuit and Short Circuit, Temperature Coefficient of Resistance, Linear & Non-linear Resistance, Inductance, Energy Stored in Inductance, Inductance in Terms of Flux Linkage Per Ampere, Inductance in Series & Parallel, Linear & Non-linear Inductances.## 4. ELECTROLYSIS & STORAGE CELL:Electrolysis, Faraday’s law of Electrolysis, Primary & Secondary Cells, Equivalent Circuit of Cell, Rating of Cell, Cells in Series & parallel, Lead Acid Battery, Nickel Cadmium Cell, Zinc Carbon Cell.## 5. ELECTROMAGNETISM:Magnetic Field, Electromagnetism, Magnetic & Non-Magnetic Materials, Permanent & Temporary magnets, Magnetic flux Density, MMF, Magnetic Field Strength, Force on a Conductor Carrying Current in a Magnetic Field, Biot Savart Law, Ampere’s law, Permeability, Force between parallel Conductors, Definition of Ampere, magnetic Shielding, B-H Curve, Magnetisation Curve, Hysteresis, Hysteresis Loss, Modern Theory of Magnetism, Electromagnetic Induction, Fleming Right Hand Rule, Lenz’s law, Dynamically Induced e.m.f., Statically induced e.m.f., Eddy Currents, Eddy current loss, Self & Mutual Inductance, Coefficient of Coupling.## 6. SINGLE PHASE AC CIRCUITS:Alternating Voltage & Current, Phase Angle, Phase Difference, Average Value of Sinusoid, Root mean Square or Effective Value, Representation of Sine Wave by Phasor, Alternating Current and Power in Resistive Circuit, Alternating Current and power in Capacitive Circuit, Alternating Current in Series RL Circuit, Apparent, Active & Reactive Power & Power Factor, Alternating Current & Power in RC Circuit, Alternating Current & Power in RLC Series Circuit.## BF5 : MECHANICS## 1 INTRODUCTIONIntroduction to Mechanics, Definitions, Idealisation in Mechanics, Basic Concepts, Fundamentals Principles, System of Units, Dimensional Analysis, Methods of Solution, Vector Algebra, Summary.## 2 STATICS OF PARTICLES CONCURRENT FORCES IN PLANEIntroduction, Resultant of Forces, Resolution and Components of Force, Resultant of Several Concurrent Forces, Equilibrium of a Partical, Equation of Equilibrium, Application of Statics of Particles, Summary.## 3 STATICS OF PARTICLES CONCURRENT FORCES IN SPACEIntroduction, Components of Forces in Space, Resultant of Several Concurrent Forces, Equilibrium of a Particle in Space, Application of Statics of Particle, Summary.## 4 STATICS OF RIGID BODIES___ NON – CONCURRENT FORCES IN PLANEIntroduction, Moment of Force about a Point, Varignon’s Theorem, Moment of Couple, Resolution of a Given Force into a Force, Resultant of Coplanar Non-Concurrent System, Application of Statics of Rigid Bodies, Method of Minimum Potential Energy- Stable Equilibrium, Summary.## 5 STATICS OF RIGID BODIES-NON-CONCURRENT FORCES IN SPACEIntroduction, Moment of Force about a Point, Moment of Force about a Given Axis, Couples in Space, Resolution of Force into Force and Couple, Resultant of Non-concurrent, Non-coplanar System, Equilibrium of Rigid Body in Three Dimensions, Summary.## 6 FRICTIONIntroduction, Characteristics of Dry Friction, Laws of Friction, Angle of Friction, Angle of Repose, Cone of Friction, Applications, Summary.## 7 CENTROID AND CENTRE OF GRAVITYIntroduction, Centroid of Area, Line and Volume, Centroid of a Line, Centroid of Area, Centroid of Composite Area, Therorems of Pappus and Guldinus, Centroid of Volume, Centre of Gravity, Centre of Mass, Summary.## 8 MOMENT OF INTERIA AND MASS MOMENT OF INTERIAIntroduction, Second Moment of Area, Moment of Inertia of Plane Area by Integration, Moment of Inertia of Composite Section, Principle Axes and Principle Moments of Inertia of a Thin Rectangular Plate, Mass Moment of Inertia, Summary.## 9 SIMPLE STRESSES AND STRAINS SSS-1General Meaning of Stress , Unit of Stress, Simple Stresses, Strain, Stress Strain Relation, Nominal Stress and True Stress, Behaviour of Materials Under Repeated Loadings, Factor of Safety, Hooke’s Law, Extension/Shortening of a bar, Bars With Cross-Sections Varying in Steps, Bars With Continuously Varying Cross-Sections, Bars Subjected to Varying Loads, Indeterminate Structural Problems, Compounds Bars, Temperature Stresses, Simple Shear, Poisson’s Ratio, Volumetric Strain, Elastic constant, Relationship between Modulus of Elasticity and Modulus of Rigidity, Relationship between Modulus of Elasticity and Bulk Modulus, Strain Energy due to Direct Stresses and Impact Loads, Strain Energy due to Share Stresses.## 10 SHEAR FORCE AND BENDING MOMENT DIAGRAMS IN STATICALLY DETERMINATE BEAMS SFB-1Shear Force and Bending Moment, Sign Convention, Relationship between Load Intensity, Shear Force and Bending Moment Diagrams, SF and BMD For Standard Cases, FD and BMD for Beams Subjected to Various Loads, Short Cut Procedure.## BF6 : INTRODUCTION TO MANUFACTURING PROCESSES## UNIT I :## 1. MILLING MACHINESIntroduction; classification and types; Size and specifications; Accessories attachment; Milling cutters; Classification and types of milling cutter.; Nomenclature of cutter; Setup-operation ; Method of feeding work piece; Operation on milling machine; Indexing (simple compound, differential angular) ; Helical milling cam milling ; Cutting speed & ledge ; Machining time calculation; Milling operation compound with other operations## 2. THE LATHEIntroduction, Functions, Types, Descriptions & Functions of Lathe Parts, Lathe Accessories & attachments, lathe Operations.## 3. GRINDING MACHINEIntroduction.; Types of Grading machines (Floor stand, Precision. Plain, cylindrical, universal centrals Internal, surface disc); Special grinding machine, (Tool and cutter grinder, cam and and shape grinders); Shape of grinding wheel; Grinding wheel designation as per- IS -551 -19-54; Grinding wheels ; Grinding wheel elements (abrasives - its types, Grain sizes, Grade, structure, bonding material etc.); Diamond wheel; Grinding wheel section; Allowances for grinding wheel; Mounting of Grinding wheel; Dressing and cursing, of grinding wheel## 4. BORING, BROACHING AND SAWING MACHINEIntroduction to Boring machines ; Types of Boring machine ; Boring haps and heads; Various operations using boring heads; Boring operations using end supports; Introduction to Broaching machine ; Types of Broaching machine; Broaching tool nomenclature; Types of Broaches; Broaching options compared with other process (advantages & limitations.); External; Lubrication and cooling; Application of Broaching## 5. GEAR MANUFACTURINGGear tooth e1ement; Materials for Gears; Different methods of Gear manufacturing ; Gear generating methods; Gear milling ; Gear shaping (Working principal of machine tool required Gear shaping cutters etc.) ; Gear Hibbing (Working principal of machine tool required Gear hobbing operation) ; Gear finishing process ( Gear sharing burnishing, grinding honing lapping## 6. METAL FINISHING PROCESSIntroduction; Honing; Description and construction of honing tool.; Application of honing process; Lopping; Description of Lapping compound and tool; Application of Lapping ; Super finishing process Burnishing - Polishing - Buffing ; Application of super finishing operations.## 7. PATTERN MAKINGIntroduction, Pattern Materials, Pattern Making Tools, Pattern Allowances, Types of Patterns, Solid or Single Piece Pattern, Split Pattern, Match Plate Pattern, Cope and Drag Pattern, Loose Piece Pattern, Gated Pattern, Sweep Pattern, Skeleton Pattern, Shell Pattern, Segmental Pattern, Follow Board Pattern, Lagged-up Pattern, Left and Right hand Pattern, Core Boxes, Colour coding for Pattern and Core Boxes.## 8. MOULDING AND CORE MAKINGIntroduction, Moulding Materials, Moulding Sand, Sand Binders, Sand Additives, Properties of Moulding Sand, Classification of Moulding Sand, Grain Shape and Size of Sand, Preparation of Moulding Sand, Types of Moulding Sand, Moulding Processes, Types of Moulds, Methods of Moulding, Methods of Green Sand Mould by Turn Over Method, Gates and Risers, Types of Gates, Moulding Methods with Typical Patterns, Cores, Types of Cores, Core Binders, Core Making, Core Setting, Core Shifting and Chaplets.## 9. CASTING PROCESSESIntroduction, Permanent Mould Casting, Semi-permanent Mould Casting, Slush Casting, Die Casting, Centrifugal Casting, Investment Casting, Shell Moulding Process, Continuous Casting, Defects in Casting, Cleaning of Castings, Inspection of Castings, Design of Castings.## 10. WELDINGIntroduction, Weldability, Advantages and Disadvantages of Welded Joints, Types of Welded Joints, Cold Pressure Welding, Types of Welded Joints, Fillet Welded Joints, Edge Preparation and Applications, Welding Positions, Black Smith’s Forge Welding, Electric Resistance Welding, Types of Electric Resistance Welding, Spot Welding, Roll Spot and Seam Welding, Projection Welding, Butt Welding, Percussion Welding, Arc Welding, Polarity in Arc Welding, Comparison Between A.C. and D.C. Arc Welding, Types of Arc Welding, Electrodes for Arc Welding, Arc Welding Equipment, Precautions in Arc Welding, Arc Welding Processes, Carbon Arc Welding, Metal Arc Welding, Metallic Inert-gas (MIG)Arc Welding, Tungsten Inert-gas (TIG)Arc Welding, Atomic Hydrogen Welding, Stud Welding, Submerged Arc Welding, Plasma Arc Welding, Flux Cored Arc Welding, Electro-slag Welding, Electro-gas Welding, Thermit Welding, Solid State Welding, Modern Welding Processes, Basic Weld Symbols, Supplementary Weld Symbols, Elements of a Welding Symbol, Standard Location of Elements of a Welding Symbol, Gas Welding, Equipment for Oxy-acetylene Gas Welding, Welding Rods, Fluxes, Gas Flame, Gas Welding Technique, Gas or Oxygen Cutting of Metals, Cutting Machines, Oxygen Lance Cutting, Arc Cutting, Oxygen Arc Cutting Process, Welding of Various Metals, Testing of Welded Joints, Braze Welding, Soldering, Brazing.## 11. RECENT DEVELOPMENT IN MANUFACTURING PROCESSIntroduction, Working of NC Machines tools, Classification of NC Machines, Programming for NC Machines, Methods of Listing the Co-ordinates of points in NC System, Application of NC Machine, Advantages & Disadvantages, Computer Numerical Control & Direct Numerical Control.## UNIT 2 : ( ONLY FOR BF6 STUDENTS )## 12. FOUNDRY TOOLS AND EQUIPMENTSIntroduction, Foundry Tools and Equipments, Foundry Hand Tools, Moulding Boxes (Flasks), Moulding Machines, Melting Equipment, Pouring Equipment.## 13. HOT AND COLD WORKING PROCESSIntroduction, Objectives, Hot Working Process, Hot Rolling, Types of Rolling Mills, Hot Forging, Hot Spinning, Hot Extrusion, Hot Drawing or Cupping, Hot Piercing, Cold working process, Cold Rolling, Cold Forging, Cold Spinning, Cold Extrusion, Cold Drawing, Cold Bending, Shot Peening.## 14. POWDER METALLURGYIntroduction, Objectives, Characteristics of Metal Powders, Preparation of Metal Powders, Process used for Manufacturing parts from Metal Powders, Primary Processes, Secondary Processes, Advantages of Powder Metallurgy, Limitations of Powder Metallurgy, Design Considerations for Powder Metallurgy, Typical Applications of Powder Metallurgy.## 15. PLASTIC MANUFACTURING PROCESSIntroduction, Objectives, Types of Plastics - Thermosetting Resins & Thermoplastic Resins, Synthetic Rubber or Elastomers, Moulding Compounds, Fabrication of Plastics, Machining of Plastics, Joining of Plastics.## UNIT 3 : (ONLY FOR BSM5 STUDENTS)## 1. Metal Cutting and Cutting Tools## 2. Drilling Machines## 3. Shaper, Planner and Slotting Machine******************* |

COURSE STRUCTURE & SYLLABUS OF BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR SECOND SEMESTER |

SYLLABUS BF7 : MATHEMATICS II |

## 1. MATRICES## 2. FINITE DIFFERENCE & DIFFERENCE EQUATION & NUMERICAL METHODS:## 3. DIFFERENTIAL EQUATIONS:## 4. FUNCTIONS OF COMPLEX VARIABLE: |

## BF8 : APPLIED PHYSICS## UNIT – IInterference, Interference of wave , Interference due to thin films of uniform thickness, Interference due to thin films of non-uniform thickness, Newton’s ring, Michelson’s Interferometer, Engineering applications of Interference, Relativity, Relativity of mass: Time dilation, length contraction, mass and energy, Doppler’s effect. ## UNIT-II## A. Diffraction:## B. Ultrasonics:## C. Polarisation:## D. Nuclear Physics## UNIT-III.## A.Wave Particle Quality:## B. Wave Equation:## UNIT-IV## A. Laser## B.Magnetism## UNIT-V## A. Semiconductor Physics:## B. Modern Physics:## BF9 : PROGRAMMING AND DATASTRUCTURE## 1. Introduction To Computers:## 2. Number System:## 3. Binary Arithmetic :## 4. Computer Software :## 5. Computer Hardware :## 6. Memory Hierarchies :## 7. Processing Unit :## 8. Elements Of Programming Languages Fortran & C:## BF10 : BASIC ELECTRONICS## 1. ELECTRONIC COMPONENTS## 2. SEMICONDUCTOR THEORY AND P-N JUNCTION## 3. SPECIAL PURPOSE DIODE## 4. P-N-P AND N-P-N TRANSISTORS## 5. FIELD EFFECT TRANSISTOR (FET):-## 6. INTEGRATED CIRCUITS (IC’S):-## BF11 : ENGINEERING DRAWING AND GRAPHICS## 1. FUNDAMENTAL OF ENGINEERING DRAWING:## 2. ENGINEERING CURVES:## 3. ORTHOGRAPHIC PROJECTIONS:## 4. ORHTOGRAPHIC SECTIONAL VIEWS:## 5. ISOMETRIC PROJECTIONS:## 6. PROJECTIONS OF STRAIGHT LINES:## 7. PROJECTION OF PLANES:## 8. PROJECTION OF SOLIDS:## 9. SECTIONS OF SOLIDS:## 10. DEVELOPMENT OF SURFACES:## 11. FREE –HAND SKETCHES:## BF 12 : ENVIRONMENTAL STUDIES## UNIT 1## General Concepts :## UNIT 2## Natural Recourses :## UNIT 3## Ecosystems :## UNIT 4## Environmental Pollution :## UNIT 5## Human Population and the Environment :***************** |

COURSE STRUCTURE & SYLLABUS OF
BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR THIRD SEMESTER |

SYLLABUS |

BSAE1 : MATHEMATICS III |

COURSE STRUCTURE & SYLLABUS OF BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR FOURTH SEMESTER |

SYLLABUS BSAE6 : SOCIETY ENVIRONMENT & ENGINEERING |

## 1.DEFINITION AND SCOPE OF SOCIOLOGY:## 2. BASIC SOCIOLOGICAL CONCEPT:## 3. SOCIAL INSTITUTION:## 4.SOCIAL CHANGE## 5.SOCIAL CONTROL:## 6. SOCIAL PROBLEMS:## 7. CULTURE:## 8. CAPITALISM , MARXISM AND SOCIALISM:## 9.SOCIALOGY AND TECHNICAL CHANGES:## 10. HISTORICAL PERSPECTIVE:## 11.TECHNOLOGY ASSESSMENT AND TRANSFER:## 12.CYBERNETICS:## 13.ENGINEER IN SOCIETY:## 14.INFLATION AND POVERTY:## 15.ENVIRONMENTAL DEGRADATION AND CONTROL:## 16.PLANT LAYOUT AND SITE SELECTION:## 17. PERSONAL MANAGEMENT:## 18.INDUSTRIAL ACTS:## 19.STANDARDS:## 20.FUNCTIONS OF MANAGEMENT:## BSAE7 : INTRODUCTION TO AERODYNAMICS## 1. BASIC FLUID MECHANICS II## 2. THE ELEMENTS OF TWO-DIMENSIONAL WING THEORY## 3. FINITE WING THEORY## 4. VISCOUS FLOW AND BOUNDARY LAYERS## BSAE8: DYNAMICS FOR AEROSPACE ENGINEERS## 1. WAVE MOTION## 2. FLOW WITH OBLIQUE SHOCK WAVES## 3. FLOW IN CONSTANT AREA DUCTS WITH FRICTION## 4. FLOW IN CONSTANT AREA DUCTS WITH HEAT TRANSFER## 5. MULTI-DIMENSIONAL FLOW## 6. AIRCRAFT PROPULSION## 7. ROCKET PROPULSION## BSAE9 : SPACE DYNAMICS## 1. AIR AND AIRFLOW – SUBSONIC SPEEDS## 2. AEROFOILS – SUBSONIC SPEEDS## 3. THRUST## 4. LEVEL FLIGHT## 5. GLIDING AND LANDING## 6. PERFORMANCE## 7. MANOEUVRES## 8. STABILITY AND CONTROL## 9. A TRIAL FLIGHT## 10. FLIGHT AT TRANSONIC SPEEDS## 11. FLIGHT AT SUPERSONIC SPEEDS## BSAE10 : INTRODUCTION TO PROPULSION SYSTEM## 1. CONCEPTS OF GAS DYNAMICS:## 2. FUNDAMENTAL EQUATIONS OF THE STEADY FLOW:## 3. ISENTROPIC FLOW:## 4. ADIABATIC FLOW:## 5. FLOW WITH FRICTION AND NO HEAT TRANSFER (ADIABATIC FLOW):## 6. WAVE PHENOMENA:## 7. VARIABLE AREA FLOW:## 8.HISTORICAL REVIEW:## 9.THERMODYNAMIC OF GAS TURBINE:## 10.AXIAL FLOW TURBINE## 11. BLADES:## 12. CENTRIFUGAL COMPRESSORS:## 13.AXIAL FLOW COMPRESSORS:## 14. MATCHING OF COMPONENTS:## 15.COMBUSTION, FUEL SYSTEMS AND FUELS:## 16.AEROFOIL THEORY:## 17.JET PROPULSION:## 18.GAS TURBINE STARTING AND IGNITION SYSTEMS:*************** |

COURSE STRUCTURE & SYLLABUS OF BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR FIFTH SEMESTER |

SYLLABUS BTAE1 : THEORY OF JET PROPULSION |

## BTAE2 : AVIONICS I## PRINCIPLES## Information:## Information:## Modulation:## Pulse modulation:## Transmission:## Channel Performance:## RADIO & TELEVISION ENGINEERING## Radiation:## Propagation:## Television Waveforms:## Circuits:## Systems:## Special Systems (Principles):## BTAE3 : ADVANCE STRENGTH OF MATERIAL## CHAPTER 1 : INTRODUCTION## CHAPTER 2: SIMPLE STRESSES AND STRAINS## CHAPTER 3 : SHEAR FORCE AND BENDING MOMENT DIAGRAMS IN STATICALLY DETERMINATE BEAMS## CHAPTER 4 : STRESSES IN BEAMS## CHAPTER 5: DEFLECTIONS OF BEAMS BY DOUBLE INTEGRATION METHOD## CHAPTER 6: TORSION## CHAPTER 7: COMPOUND STRESSES## CHAPTER 8: THIN AND THICK CYLINDERS AND SPHERES## CHAPTER 9: COLUMNS AND STRUTS## CHAPTER 10: THEORIES OF FAILURES## BTAE4 : THEORY OF VIBRATION – I## 1. FUNAMENTAL OF VIBRATION## 2. UNDAMPED FREE VIBRATIONS OF SINGLE DEGREE OF FREEDOM SYSTEM## 3. DAMPED FREE VIBRATIONS OF SINGLE DEGREE OF FREEDOM SYSTEM## 4. FORCED VIBRATIONS WITH CONSTANT HARMONIC EXCITATION## 5. TWO DEGREE OF FREEDOM SYSTEMS## BTAE5 : OPERATIONS RESEARCH## 1. CLASSIFICATION OF O.R. MODELS## 2. LINEAR PROGRAMMING FORMULATION & GRAPHICAL METHOD## 3. TRANSPORTATION## 4. SOME SPECIAL CASES## 5. LINEAR PROGRAMMING## 6. STEPS OF THE SIMPLEX METHOD## 7. LINEAR PROGRAMMING, DUALITY## 8. TRANSPORTATION PROBLEM## 9. HUNGARIAN METHOD OF ASSIGNMENT PROBLEM## 10. NETWORK MODELS : PERT & CPM## 11. FLOAT OF AN ACTIVITY## 12. QUEUING MODELS## 13. INVENTORY CONTROL MODELS## 14. SYSTEM TERMINOLOGY## BTAE1P - THEORY OF JET PROPULSION PRACTICAL## 1. Types of gas turbine engines.## 2. Study of simple fuel supply system for jet engine.## 3. Study of ale fuel pump, and its working.## 4. Study of ale Hydraulic pump and its working.## 5. Study of different types of gas turbine compressors.## 6. Various parameters adjustments on fuel regulation and temperature control system.## 7. Study of different types of gas turbine combustion chambers.## 8. Study of turbine assemblies.## 9. Study of gas turbine engine exhaust unit.## 10. Study of jet pipe and propelling nozzle.## 11. Study of engine R.P.M. gauge.## 12. Study of exhaust gas temperature gauge.## 13. Study of oil pressure/temp. gauge.## BTAE2P- AVIONICS I PRACTICAL## 1. Study of analog to digital and digital to analog conversion.## 2. Amplitude modulation.## 3. Amplitude demodulation.## 4. Pulse modulation.## 5. Determination of parameters in transmission lines.## 6. Antenna measurements.## 7. Study of channel performance.## 8. Study and operation of test and measuring electronic instruments. -CRG, Frequency counter.## 9. To calculate selectivity and sensitivity in an AM radio receiver. To calculate fidelity in an AM radio receiver.## 10. Study of tuning stages in a TV receiver.## 11. Study of audio and video stages in a TV receiver.## 12. Study of scanning, interlacing and resolution in TV.## 13. Study of typical circuits of TV transmitters.## 14. Study of unipole & dipole aerials.********************* |

COURSE STRUCTURE & SYLLABUS OF BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR SIXTH SEMESTER |

SYLLABUS BTAE6 : AVIONICS - II |

## Chapter 1 – Single-sideband Techniques:## Chapter 2 – Antennas :## Chapter 3 – Waveguides, Resonators and Components:## Chapter 4 – Microwave Tubes and Circuits:## Chapter 5 – Semiconductor Microwave Devices and Circuits :## Chapter 6 – Broadband Communications Systems:## BTAE7 : THEORY OF VIBRATION - II## Chapter 1 - Multi-Degree of Freedom Systems-Exact Analysis:## Chapter 2 - Multi-Degree of Freedom Systems-Numerical Methods :## Chapter 3 - Critical Speeds of Shafts :## Chapter 4 - Transient Vibrations:## Chapter 5 - Non-Linear Vibrations:## BTAE8 : MACHINE DRAWING## Chapter 1 - Principles of Projection :## Chapter 2 - Sheet Layout and Sketching :## Chapter 3 - Lines, Lettering and Dimensioning :## Chapter 4 - Conversion of Pictorial views into orthographic views :## Chapter 5 - Sectional Views :## Chapter 6 - Orthographic reading or interpretation of views :## Chapter 7 - Screw Threads :## Chapter 8 - Screwed Fastenings :## Chapter 9 - Keys, Cotter-joints, Pin-joints :## Chapter 10 - Pipe joints :## Chapter 11 - Valves :## Chapter 12 - Riveted joints and welded joints :## Chapter 13 - Shaft Bearings, Brackets and Hangers :## Chapter 14 - Shaft Couplings, Clutches and Brakes :## Chapter 15 - Pulleys :## Chapter 16 - Spur Gearing :## Chapter 17 - Engine Parts :## Chapter 18 - Elements of Production Drawing :## Chapter 19 - Assembly Drawings :## Chapter 20 - Elements of Computer-Aided Drafting :## >BTAE9 : AIRCRAFT STABILITY & CONTROL## Chapter 1 - Experimental Methods :## Chapter 2 – Aircraft Stability and Control :## Chapter 3 – Elementary Theory of Propellers :## BTAE10: INDUSTRIAL ECONOMICS AND MANAGEMENT## Chapter 1 - Nature and Significance of Economics :## Chapter 2 - Demand and Supply Analysis :## Chapter 3 - Function of Money :## Chapter 4 - Functions of Commercial Bank :## Chapter 5 - Central Banking :## Chapter 6 - Sources of Public Revenue :## Chapter 7 - Theory of International Trade :## Chapter 8 - New Economics Policy :## Chapter 9 - Causes of Underdevelopment :## Chapter 10 - Management Functions :## Chapter 11 - Nature of Planning :## Chapter 12 - Organization :## Chapter 13 - Communication Process :## Chapter 14 - Theory of Motivation :## Chapter 15 - Production Management :## Chapter 16 - Project Management :## Chapter 17 - Cost Accounting and Finance :## Chapter 18 - Marketing Functions :## Chapter 19 - Human Resource Management :## Chapter 20 - Engineering Economics :******************* |

COURSE STRUCTURE & SYLLABUS OF BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR SEVENTH SEMESTER |

SYLLABUS BEAE1 : MAINTANANCE OF AIR FRAME SYSTEM |

## Chapter 1 : Aircraft Electrical Systems## Chapter 2 : Aircraft Fuel Systems## Chapter 3 : Cabin Atmosphere Control Systems## Chapter 4 : Aircraft Instrument Systems## Chapter 5 : Communication and Navigation Systems## Chapter 6 : Ice and Rain Control System## Chapter 7 : Fire Protection Systems## Chapter 8 : Airframe Inspection## BEAE2 : AIRCRAFT POWER PLANT AND SYSTEMS -I## DEVELOPMENT OF AIRCRAFT POWERPLANTS / RECIPROCATING ENGINES## Chapter 1 : Development of Aircraft Powerplants## Chapter 2: Theory & Construction## Chapter 3: Lubrication Systems## Chapter 4: Fuel Metering & Induction System## Chapter 5 : Ignition Systems## Chapter 6 : Exhaust Systems## Chapter 7 : Cooling System## Chapter 8 : Starting Systems## Chapter 9 : Operation & Maintenance## BEAE3: AIRCRAFT ELECTRICAL SYSTEMS## An Introduction to Aircraft Electrical Systems## Aircraft Electrical Power Circuits## Aircraft Electrical Power Circuits (Continued)## Aircraft Electrical Load Circuits## Electrical Power Systems fro Large Aircraft## Aircraft Electrical System Installation## Electrical System Troubleshooting## BEAE4 : AIRCRAFT STRUCTURE – I## Chapter 1 : Elasticity## Chapter 2 : Two –dimensional problems in elasticity## Chapter 3 : Torsion of solid sections## Chapter 4: Energy methods of structural analysis## Chapter 5 : Bending of thin plates## Chapter 6 : Structural instability |

## Elective – I |

## BEAE5-I : AIR NAVIGATION## Chapter 1 : Mathematics Reminders## Chapter 2 : Form of the Earth, Linear Distance and Departure## Chapter 3 : Convergency and conversion Angle## Chapter 4 : Magnetism : General and Terrestrial## Chapter 5 : Directions## Chapter 6 : Map Projections in General## Chapter 7 : The Standard Mercator Projection## Chapter 8 : Transverse and Oblique Mercators## Chapter 9 : Lambert’s Conformal Conic Projection## Chapter 10: Polar Stereographic Projection## Chapter 11: The Use of current Aeronautical charts## Chapter12 : The Velocity Triangle## Chapter 13 : Using the Navigation Circular Slide Rule## Chapter 14 : The Dalton Navigational Computer## Chapter 15 : Temperatures, Airspeeds and Altitudes## Chapter 16 : DR Navigation## Chapter 17: Maximum Range, Radius of Action and Point of No Return## Chapter 18 : Point of Equal Time or Critical Point## Chapter 19 : Visual Navigation## Chapter 20 : Navigation in Climb and Descent## Chapter 21 : Navigation in the cruise; Use of Fixes## Chapter 22: Practical Plotting and the Flight log## Chapter 23 : The Flight Management System## Chapter 24: Inertial Navigation Systems (INS)## Chapter 25 : The Solar System and Time## Chapter 26 : Phenomena## Chapter 27 : Aircraft Magnetism## Chapter 28 : Compass Swinging and Associated Problems## BEAE5-III : AERODYNAMICS DESIGN AND TESTING## Chapter 1 : The Philosophy of Airplane Design## Chapter 2: Design of a Propeller – Driven Airplane## Chapter 3: Design of Jet-Propeller Airplanes |

COURSE STRUCTURE & SYLLABUS OF BACHELOR OF TECHNOLOGY (B.TECH) FIRST YEAR EIGHTTH SEMESTER |

SYLLABUS BEAE6 : AIRCRAFT STRUCTURE-II |

## CHAPTER 1 : PRINCIPLES OF STRESSED SKIN CONSTRUCTION## CHAPTER 2 : AIRWORTHINESS AND AIRFRAMES LOADS## CHAPTER 3 : BENDING, SHEAR AND TORSION OF OPEN AND CLOSED, THIN – WALLED BEAMS## CHAPTER 4 : STRESS ANALYSIS OF AIRCRAFT COMPONENTS## CHAPTER 5 : STRUCTURAL CONSTRAINT## CHAPTER 6 : MATRIX METHODS OF STRUCTURAL ANALYSIS## BEAE7 : MAINTENANCE OF POWER PLANT AND SYSTEM -II## TURBINE ENGINES## Chapter 1 : Theory of Construction## Chapter 2 : Lubrication & Cooling Systems## Chapter 3 : Fuel Metering Systems## Chapter 4 : Ignition & Starting Systems## Chapter 5 : Exhaust Systems## Chapter 6 : Operation & Maintenance## Chapter 7 : Instrument Systems## Chapter 8 : Electrical Systems## Chapter 9 : Fire Protection Systems## Chapter 10 : Propellers |