Aerospace Engg-2018 Scheme 3rd & 4th Sem Syllabus PDF

Title Aerospace Engg-2018 Scheme 3rd & 4th Sem Syllabus
Author abhilash reddy
Course ballb
Institution RV Institute of Legal Studies
Pages 54
File Size 1.9 MB
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Summary

Download Aerospace Engg-2018 Scheme 3rd & 4th Sem Syllabus PDF


Description

RV COLLEGE OF ENGINEERING® (Autonomous Institution Affiliated to VTU, Belagavi) R.V. Vidyaniketan Post, Mysore Road Bengaluru – 560 059

Bachelor of Engineering (B.E.)

Scheme and Syllabus of III & IV Semesters

2018 SCHEME

AEROSPACE ENGINEERING

VISION Leadership in Quality Technical Education, Interdisciplinary Research & Innovation, with a Focus on Sustainable and Inclusive Technology

MISSION 1. To deliver outcome based Quality education, emphasizing on experiential learning with the state of the art infrastructure. 2. To create a conducive environment for interdisciplinary research and innovation. 3. To develop professionals through holistic education focusing on individual growth, discipline, integrity, ethics and social sensitivity. 4. To nurture industry-institution collaboration leading to competency enhancement and entrepreneurship. 5. To focus on technologies that are sustainable and inclusive, benefiting all sections of the society.

QUALITY POLICY Achieving Excellence

in

Technical

Education,

Research

and

Consulting through an Outcome Based Curriculum focusing on Continuous Improvement and Innovation by Benchmarking against the global Best Practices.

CORE VALUES Professionalism, Commitment, Integrity, Team Work, Innovation

RV COLLEGE OF ENGINEERING® (Autonomous Institution Affiliated to VTU, Belagavi) R.V. Vidyaniketan Post, Mysore Road Bengaluru – 560 059

Bachelor of Engineering (B.E.)

Scheme and Syllabus of III & IV Semesters

2018 SCHEME

DEPARTMENT OF

AEROSPACE ENGINEERING Department Vision Emerge as a centre of excellence in Aerospace Engineering, Imparting Quality Technical Education, Interdisciplinary Research & Innovation with a focus on Societal empowerment through Sustainable & Inclusive Technologies.

Department Mission 

Imparting Quality Technical Knowledge in Basic & Applied areas of Aerospace Engineering incorporating the principles of Outcome Based Education.



Provide state-of-the art laboratories and infrastructure facilities, conducive to motivate Interdisciplinary Research and Innovation in Aerospace Engineering.



Develop self-motivated engineers with a blend of Discipline, Integrity, Engineering Ethics and Social Responsibility.



Strengthening collaboration with industries, research organizations and institutes for Internships, Joint Research and Consultancy.



Focus towards Integrating Sustainable and Inclusive Technologies for Societal Symbiosis.

PROGRAM EDUCATIONAL OBJECTIVES (PEOs) PEO1: To provide opportunities for successful professional career with a sound fundamental knowledge in Mathematics, Physical Science & Aerospace Engineering. PEO2: Motivate innovative research in specialized areas of Aerospace Engineering viz Aerospace structural design, Aerodynamics, Aerospace Propulsion and Guidance & Control systems. PEO3: Promoting development of problem solving abilities by adopting analytical, numerical and experimental skills with awareness on societal impact. PEO4: Imbibing sound communication skills, team working ability, professional ethics and zeal for lifelong learning.

PROGRAM SPECIFIC OUTCOMES (PSOs) PSO PSO1 PSO2 PSO3 PSO4

Description Utilization of the fundamental knowledge and skills of Aerospace Engineering to develop pragmatic solutions for complex Aerospace Engineering problems. Apply Professional Engineering practices and strategies in the development of systems and subsystems for Aerospace Applications. Exhibit Effective Communication skills and a Zeal to function with multidisciplinary teams Demonstrate Professional Ethics and Responsibilities in Engineering practices

towards the achievement of societal symbiosis.

ABBREVIATIONS Sl. No.

Abbreviation

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22.

VTU BS CIE SEE CE GE HSS CV ME EE EC IM EI CH CS TE IS BT AS PHY CHY MAT

Meaning

Visvesvaraya Technological University Basic Sciences Continuous Internal Evaluation Semester End Examination Professional Core Elective Global Elective Humanities and Social Sciences Civil Engineering Mechanical Engineering Electrical & Electronics Engineering Electronics & Communication Engineering Industrial Engineering & Management Electronics & Instrumentation Engineering Chemical Engineering Computer Science & Engineering Telecommunication Engineering Information Science & Engineering Biotechnology Aerospace Engineering Physics Chemistry Mathematics INDEX III Semester

Sl. No.

1. 2. 3. 4. 5. 6. 7. 8.

Course Code 18MA31C 18ME32 18AS33 18AS34 18AS35 18AS36 18DMA37 18HS38

Course Title Engineering Mathematics - III Engineering Materials Introduction to Aerospace Engineering Thermodynamics Mechanics of Fluids Structural Mechanics Bridge Course Mathematics Kannada Course

Page No. 1 3 5 7 10 13 16 18

IV Semester Sl. No.

1. 2. 3. 4. 5. 6. 7. 8.

Course Code 18MA41A 18BT42A

Course Title Engineering Mathematics-IV Environmental Technology

18AS43 18AS44 18AS45 18AS46

Aerodynamics Aerospace Structures Electronics & Communication Systems Aerospace Manufacturing Technology

18AS47 18DCS48

Design Thinking lab Bridge Course C Programming

Page No. 21 23 25 28 30 33 36

9.

18HS49

Professional Practice-I Communication Skills

40

RV COLLEGE OF ENGINEERING® (Autonomous Institution Affiliated to VTU, Belagavi)

AEROSPACE ENGINEERING THIRD SEMESTER CREDIT SCHEME Sl. No.

Course Code

Course Title

Credit Allocation

BoS

L

T

P

Total Credits

1.

18MA31C*

Engineering Mathematics - III

MA

4

1

0

5

2.

18ME32**

Engineering Materials

ME

2

0

0

2

3.

18AS33

Introduction to Aerospace Engineering

AS

3

0

0

3

4.

18AS34

Thermodynamics

AS

3

0

1

4

5.

18AS35

Mechanics of Fluids

AS

4

0

1

5

6.

18AS36

Structural Mechanics

AS

3

0

1

4

7.

18DMA37*** Bridge Course Mathematics

MA

2

0

0

0

8.

18HS38#

HSS

1

0

0

0

19 19+3*

1 2

3 7.5

23

Kannada Course Total Number of Credits Total number of Hours/Week

*Engineering Mathematics - III Sl.N COURSE TITLE o Linear Algebra, Laplace Transform and 1. Combinatorics Discrete and Integral Transforms 2.

3. ** Sl.N o

Engineering Mathematics -III

COURSE TITLE

COURSE CODE

PROGRAMS

18MA31A

CS & IS

18MA31B

EC, EE, EI & TE

18MA31C

AS, BT, CH, CV, IM & ME

COURSE CODE

PROGRAMS

1.

Environmental Technology

18BT32A

EE, EC, EI, CS, TE & IS

2.

Biology for Engineers

18BT32B

BT

3.

Engineering Materials

18ME32

ME, IM &AS

*** Bridge Course: Audit course for lateral entry diploma students Sl.N COURSE TITLE COURSE CODE o

PROGRAMS

1 2

Bridge Course Mathematics Bridge Course C Programming

# Mandatory audit course for all students

18DMA37 18DCS37

AS, BT,CH, CV, EC, EE, EI, IM, ME &TE CS & IS

RV COLLEGE OF ENGINEERING® (Autonomous Institution Affiliated to VTU, Belagavi)

AEROSPACE ENGINEERING Sl. No 1. 2. 3. 4. 5. 6. 7. 8. 9.

Course Code

FOURTH SEMESTER CREDIT SCHEME Credit Allocation Course Title BOS L T P

18MA41C*

Engineering Mathematics-IV

MA

4

1

0

5

18BT42A**

Environmental Technology

BT

2

0

0

2

18AS43

Aerodynamics

AS

3

0

1

4

18AS44

Aerospace Structures

AS

3

0

1

4

18AS45

Electronics & Communication Systems

AS

3

0

0

3

18AS46

Aerospace Manufacturing Technology

AS

3

0

1

4

18AS47

Design Thinking lab

AS

0

0

2

2

CS

2

0

0

0

HSS

0

0

1

1

18 18+2*

1 2

6 15

25

18DCS48*** Bridge Course : C Programming 18HS49

Professional Practice-I Communication Skills Total Number of Credits Total number of Hours/Week

Sl.N o

*Engineering Mathematics – IV COURSE TITLE

COURSE CODE

Graph Theory, Statistics and Probability Theory Linear Algebra, Statistics and Probability Theory Engineering Mathematics -IV

1. 2. 3.

Total Credits

18MA41A 18MA41B 18MA41C

PROGRAMS CSE & ISE ECE, EEE, EI, TE ASE, CH, CV, ME

** Sl.N o

1. 2. 3. Sl.N o 1 2

COURSE TITLE Engineering Materials Biology for Engineers Environmental Technology

COURSE CODE

PROGRAMS

18EC42 18BT42B 18BT42A

EC, EE, EI, TE Circuit branches (CS, IS) CV, ME, IM, CH, BT & AS

*** Bridge Course: Audit course for lateral entry diploma students COURSE TITLE COURSE CODE Bridge Course Mathematics Bridge Course C Programming

18DMA48 18DCS48

PROGRAMS

CS & IS AS, BT, CH,CV,EC, EE,EI,IM,ME & TE

Note: Internship to be taken up during the vacation (After 4 th semester)

RV College of Engineering® – Bengaluru - 59

Semester: III ENGINEERING MATHEMATICS – III (Theory) (Common to AS, BT, CH, CV, IM, ME) Course Code : 18MA31C CIE : 100 Marks Credits: L:T:P : 4:1:0 SEE : 100 Marks Hours : 52L+13T SEE Duration : 3.00 Hours Course Learning Objectives: The student will be able to 1 Understand variation and extremal of functionals. 2 Analyze the concept of periodic phenomena and develop Fourier series. 3 Solve initial value problems using Laplace transform. 4 Determine the approximate solutions of algebraic/transcendental and partial differential equations using numerical methods. 5 Use mathematical IT tools to analyze and visualize various concepts. Unit-I Calculus of Variations: Introduction to variation of functionals, extremal of a functional, Euler’s equation – special cases, problems. Geodesics, Hanging cable and Brachistochrone problems. Exploring geodesics graphically using MATLAB. Unit – II Fourier Series: Introduction, periodic function, even and odd functions. Dirichlet’s conditions, Euler’s formula for Fourier series, complex Fourier series, problems on time periodic signals (square wave, half wave rectifier, saw-tooth wave and triangular wave), Fourier sine series, Fourier cosine series. Exploring Fourier series using MATLAB. Unit –III Laplace and Inverse Laplace Transform: Existence and uniqueness of Laplace Transform (LT), transform of elementary functions, region of convergence. Properties - Linearity, scaling, s – domain shift, differentiation in the s – domain, division by t, differentiation and integration in the time domain. Transform of periodic functions (square wave, saw-tooth wave, triangular wave, full and half wave rectifier). Inverse Laplace transform – properties, evaluation using different methods. Convolution theorem (without proof), problems. Solution of ordinary differential equations. Exploring Laplace and inverse Laplace transform using MATLAB commands. Unit –IV Numerical Methods – I: Roots of algebraic and transcendental equations. Fixed point iteration method, NewtonRaphson method for multiple roots. Solution to system of linear equations – LU decomposition method, partition method. Sparse linear systems ¬– Thomas algorithm for tridiagonal matrices. Computing numerical solutions using MATLAB Unit –V Numerical Methods – II: Numerical solutions to partial differential equations – Finite difference approximation to derivatives, solution of Laplace equation in two dimension, heat and wave equations in one dimension (explicit methods). Exploring solution of PDE using MATLAB.

10 Hrs

11 Hrs

11 Hrs

10 Hrs

10 Hrs

Course outcomes: On completion of the course, the student should have acquired the ability to CO1 Understand the fundamental concepts of variation of functionals, periodic phenomena, Laplace and inverse Laplace transforms and numerical techniques. : CO2 Solve the problems on extremal of functional, Fourier series, Laplace and inverse Laplace Aerospace Engineering Page | 1

RV College of Engineering® – Bengaluru - 59

: CO3 : CO4 :

transforms and basics of numerical methods. Apply the acquired knowledge to solve variational problems, half range series, differential equations using Laplace transform, system of linear equations and PDEs using finite difference technique. Analyze and interpret applications of functionals, complex Fourier series, IVP and BVP using LT, sparse linear systems and PDEs occurring in Engineering problems.

Reference Books 1 Higher Engineering Mathematics, B.S. Grewal, 44 th Edition, 2015, Khanna Publishers, ISBN: 81-7409-195-5. 2 Higher Engineering Mathematics, B.V. Ramana, 11 th Edition, 2010, Tata McGraw-Hill, ISBN: 13-978-07-063419-0; ISBN: 10-0-07-063419-X. 3 Advanced Engineering Mathematics, Erwin Kreyszig, 9 th Edition, 2007, John Wiley & Sons, ISBN: 978-81-265-3135-6. 4 Numerical methods for scientific and engineering computation, M.K. Jain, S.R.K. Iyenger and R.K. Jain, 6th Edition, 2012, New Age International Publishers, ISBN: 9788122433234, 8122433235. Continuous Internal Evaluation (CIE); Theory (100 Marks) CIE is executed by way of quizzes (Q), tests (T) and experiential learning (EL). A minimum of three quizzes are conducted and each quiz is evaluated for 10 marks adding up to 30 marks. All quizzes are conducted online. Faculty may adopt innovative methods for conducting quizzes effectively. The number of quizzes may be more than three also. The three tests are conducted for 50 marks each and the sum of the marks scored from three tests is reduced to 50. The marks component for experiential learning is 20. Total CIE is 30(Q) +50(T) +20(EL) =100 Marks. Semester End Evaluation (SEE); Theory (100 Marks) SEE for 100 marks is executed by means of an examination. The Question paper for the course contains two parts, Part – A and Part – B. Part – A consists of objective type questions for 20 marks covering the complete syllabus. Part – B consists of five main questions, one from each unit for 16 marks adding up to 80 marks. Each main question may have sub questions. The question from Units I, IV and V have no internal choice. Units II and III have internal choice in which both questions cover entire unit having same complexity in terms of COs and Bloom’s taxonomy level. CO/PO CO1 CO2 CO3 CO4

PO1 3 3 1 -

PO2 2 2 2 1

PO3 2 1

PO4 3

CO-PO Mapping PO5 PO6 PO7 -

PO8 -

PO9 -

PO10 -

PO11 -

PO12 1 1 1 1

High-3 : Medium-2 : Low-1

Aerospace Engineering Page | 2

RV College of Engineering® – Bengaluru - 59

Semester: III ENGINEERING MATERIALS (Theory) (Common to ME, CH, IM & AS) Course Code : 18ME32 CIE Credits: L:T:P : 2:0:0 SEE Total Hours : 28L+0T+0P SEE Duration Course Learning Objectives: 1 Understand the behavior of materials for different loading conditions 2 Analyze different phase diagrams, related composition and microstructure 3 Understand heat treatment methods of steel and their properties 4 Understand solidification process in casting and material degradation 5 Discuss Non Destructive methods of testing materials

: 100 Marks : 100 Marks : 3.00 Hours

UNIT-I Mechanical behavior of Materials: Plastic deformation of metals, Mechanism of plastic deformation, role of dislocation in plastic deformation and Work Hardening. Fracture06 hrs mechanism of Ductile and brittle fracture, Ductile to brittle transition, Fatigue- Types of loading, S-N curve UNIT-II Phase Diagram and Fe-C equilibrium diagram: Phase, Gibbs phase rule, Solid solutions, Hume Rothery Rules, Isomorphous alloy system, Binary eutectic and Eutectoid system (Problems to find chemical composition and relative amount of phases present). Iron-Iron 07 hrs carbide phase diagram- Invariant reactions, Development of microstructure in iron carbon alloys (Slow cooling of steels). Steel & Cast Iron- composition, properties and applications. UNIT-III Phase transformation in steel: Heat treatment of steel, Annealing-Full annealing, spheroidizing, process annealing, Normalizing, Hardening, TTT diagram of eutectoid steel and 07 hrs its phase transformation. Tempering, austempering, martempering, Hardenability, Jominy End quench test. Surface Heat treatment methods- Carburizing, Nitriding and Flame hardening. UNIT-IV Foundry Metallurgy: Casting and Solidification process, Nuclei, Dendrite and grain, Nucleation: Homogeneous and Heterogeneous Nucleation, Dendritic growth and Cast structure. Shrinkage of liquids and metals. 04 hrs Environmental Degradation of Materials: Different forms of environmental degradation, forms of corrosion- Galavanic, Intergranular, pitting, stress related corrosion. Corrosion control- Materials selection, protective coating. UNIT-V Non Destructive Testing: Non Destructive Testing basic principles and testing method for Radiographic testing, Ultrasonic testing, Magnetic particle inspection and Liquid penetrant 04 hrs inspections Course Outcomes: After completing the course, the students will be able to 1 2 3 4

Understand behavior of various materials such as metals, composites and special materials Analyze materials, composition and their phase transformation Investigate solidification process during casting and materials degradation Recognize different types of Nondestructive testing methods to find subsurface defects in the materials.

Aerospace Engineering Page | 3

RV College of Engineering® – Bengaluru - 59

Reference Books 1. William D Callister, “Material Science and Engineering”, John Wiley and Sons, 1997 6 th edition, ISBN 9812-53-052-5 2. Sydney H Avner, “Introduction to Physical Metallurgy” Mc Graw Hill Book Company, 1994, ISBN 0-07-Y85018-6 3. William F Smith, “Material Science and Engineering”, Mc Graw Hill Book Company, 2008, 4 th edition, ISBN0-07-066717-...


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