Aircraft Structures-II A.Y:2015-2016 Course
Transcript of Aircraft Structures-II A.Y:2015-2016 Course
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING (Autonomous)
Department of Aerospace Engineering
Lesson plan
Course Name: Aircraft Structures-II SEM: VI
A.Y:2015-2016 Course: B.Tech Department: ASE
Sl.No Tentative
Date Topics to be covered
Actual
Date
No.
of
classes
Content
Delivery
Methods
Unit I- UNSYMMETRICAL BENDING
1 30-11-15 Introduction to Unsymmetrical Bending 1 DM1
2 1-12-15 Unsymmetrical Bending - General methods 2 DM1/DM2
3 3-12-15 Principal axis methods 1 DM1
4 4-12-15 neutral axis methods 1 DM1
5 5-12-15 Tutorial-1 1 DM1
6 7-12-15 Principal axis and neutral axis methods 2 DM1/DM2
7 8-12-15 Bending stresses in beams 1 DM1
8 10-12-15 Bending stresses in beams of symmetric sections 1 DM1
9 11-12-15 Bending stresses in beams of symmetric sections with
skew loads 1 DM1
10 14-12-15 Tutorial-2 2 DM1/DM2
11 15-12-15 Bending stresses in beams of symmetric sections with
skew loads 1 DM1
12 17-12-15 Bending stresses in beams of symmetric sections
problems 1 DM4
13 18-12-15 Bending stresses in beams of unsymmetrical sections. 1 DM1
14 19-12-15 Bending stresses in beams of unsymmetrical
sections-problems 1 DM1
15 21-12-15 Bending stresses in beams of unsymmetrical sections
with skew loads 1 DM1
16 22-12-15 Bending stresses in beams of unsymmetrical sections
with skew loads 1 DM1
Unit II- SHEAR FLOW IN OPEN SECTIONS
17 24-12-15 Introduction to shear flow in open sections 1 DM1
18 26-12-15 Thin walled beams 2 DM1/DM2
19 28-12-15 Concept of shear flow 1 DM1
20 29-12-15 Tutorial-3 1 DM1
21 31-12-15 Shear Centre 2 DM1/DM2
22 1-01-16 Elastic axis. With one axis of symmetry 1 DM1
23 2-01-16 Shear flow in open sections-problems 1 DM1
24 4-01-16 Elastic axis. With one axis of symmetry-problems 1 DM1/DM2
25 5-01-16 Tutorial-4 1 DM1
26 7-01-16 Shear flow in open sections-problems 1 DM1
27 8-01-16 Elastic axis. With one axis of symmetry, with wall
effective 1 DM1
28 18-01-16 One axis of symmetry, with wall effective and
ineffective in bending 1 DM1/DM2
29 19-01-16 Shear flow in symmetrical beam sections 1 DM1
30 21-01-16 Tutorial-5 1 DM4
31 22-01-16 Shear flow in unsymmetrical beam sections 1 DM1
32 23-01-16 Shear flow in unsymmetrical beam sections 1 DM1
1-02-16 Mid exam
2-02-16 Mid exam
4-02-16 Mid exam
5-02-16 Mid exam
6-02-16 Mid exam
Unit III- SHEAR FLOW IN CLOSED SECTIONS
33 8-02-16 Introduction to shear flow in closed sections 2 DM1/DM2
34 9-02-16 Bredt – Batho formula 1 DM1
35 11-02-16 Single and multi – cell structures 1 DM1
36 12-02-16 Shear flow in single structure under torsion 1 DM1
37 13-02-16 Tutorial-6 2 DM1/DM2
38 15-02-16 Shear flow in closed sections-problems 1 DM1
39 16-02-16 Shear flow in multicell structures under torsion 1 DM1
40 18-02-16 Shear flow in single under bending 1 DM1
41 19-02-16 Shear flow in single under bending with walls
effective 2 DM1/DM2
42 20-02-16 Tutorial-7 1 DM1
43 22-02-16 Shear flow in single and multicell under bending 1 DM4
44 23-02-16 Shear flow in single and multicell under bending with
walls effective 1 DM1
45 25-02-16 Shear flow in single and multicell under bending with
walls in effective 2 DM1/DM2
46 26-02-16 Tutorial-8 1 DM1
47 27-02-16 Shear flow in single and multicell under bending with
walls in effective 1 DM1/DM2
48 29-02-16 Shear flow in single and multicell under bending with
walls in effective 1
DM1
49 1-03-16 Shear flow in single and multicell under bending with
walls in effective 1
DM1
Unit IV- BUCKLING OF PLATES
50 3-03-16 Introduction to buckling of plates 1 DM1
51 4-03-16 Rectangular sheets under compression 1 DM1
52 5-03-16 local buckling stress of thin walled section 2 DM1/DM2
53 7-03-16 Tutorial-9 1 DM1
54 8-03-16 Buckling stress of thin walled section 1 DM1
55 10-03-16 Problems on Buckling of plates 1 DM1
56 11-03-16 Problems on Buckling of plates 2 DM1/DM2
57 12-03-16 Crippling stresses by Needham’s and Gerard’s
methods 1 DM1
58 14-03-16 Tutorial-10 1 DM4
59 17-03-16 Problems on Needham’s and Gerard’s methods 1 DM1
60 18-03-16 Thin walled column strength sheet stiffener panels 1 DM1
61 19-03-16 Thin walled column strength sheet stiffener panels-
Effective width. 1 DM1/DM2
62 21-03-16 Problems on stiffener panels 1 DM1
63 22-03-16 Tutorial-11 1 DM1
64 24-03-16 Thin walled column strength sheet stiffener panels-
Effective width. 1 DM1/DM2
65 25-03-16 Problems on stiffener panels 1 DM1
Unit V- STRESS ANALYSIS IN WING AND FUSELAGE
66 26-03-16 Introduction to stress analysis in wing and fuselage 1 DM1
67 28-03-16 Shear resistant web beams 1 DM1
68 29-03-16 Tension field web beams(Wagner’s) 1 DM1
69 31-03-16 Wagner’s beam problems 1 DM1
70 1-04-16 Tutorial-12 1 DM1/DM2
71 2-04-16 Shear and bending moment distribution for cantilever 1 DM1
72 4-04-16 Shear and bending moment distribution for semi-
cantilever 1 DM4
73 5-04-16 Types of beams-loads on aircraft 1 DM1
74 7-04-16 lift distribution-V-n diagram-Gust loads 1 DM1/DM2
75 8-04-16 Tutorial-13 1 DM1
76 9-04-16 lift distribution-V-n diagram-Gust loads 1 DM1
Mid exam
Revision
Revision
Total class 76
Total number of classes available as per academic
calendar 76
Number of classes required to complete the
syllabus 76
NOTE: DELIVERY METHODS (DM):
DM1: Lecture interspersed with discussions/BB
DM2: Tutorial
DM3: Lecture with a quiz
DM4: Assignment/Test
DM5: Demonstration (laboratory, fieldvisit)
DM6: Presentations/PPT
Signature
Name of the Faculty Name of Course Co-ordinator HOD
Nazumuddin Shaik Dr.P.Lovaraju
Cos and Pos Mapping
pos
COs a b c d e f g h i j k l
CO1
CO2
CO3
CO4
CO5
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING (Autonomous)
Department of Aerospace Engineering
Lesson plan
Course Name: Flight Dynamics SEM: VI
Course: B.Tech Department: ASE
S.N
o.
Tentative
Date Topics to be covered
Actual
Date
No.
of
classes
Content
Delivery
Methods
UNIT- I
1 30-11-15 Introduction to the course 1 DM1
2 01-12-15 Equations of motion of Steady level flight 1 DM1
3 02-12-15 Drag Polar 1 DM1
4 03-12-15 Thrust Required for Level Flight 1 DM1
5 04-12-15 Tutorial-1 1 DM2
6 07-12-15 Trust to weight ratio, Wing Loading, Lift to Drag
Ratio 1 DM1
7 08-12-15 Aerodynamic relations for lift to drag ratios 1 DM1
8 09-12-15 Power required for level flight 1 DM1
9 10-12-15 Thrust Available and Maximum Velocity 1 DM1
10 11-12-15 Tutorial-2 1 DM2
11 14-12-15 Power available and maximum velocity 1 DM1
12 15-12-15 Altitude effects 1 DM1
13 16-12-15 Drag divergence 1 DM1
14 17-12-15 Stall velocity, high lift devices 1 DM1
15 18-12-15 Tutorial-3 1 DM2
UNIT-II
16 21-12-15 Introduction, Equations of motion of an airplane in
flight 1
DM1
17 22-12-12 Rate of climb 1 DM1
18 23-12-15 Rate of climb 1 DM1
19 28-12-15 Rate of climb, Time to climb 1 DM1
20 29-12-15 Tutorial-4 1 DM2
21 30-12-15 Range 1 DM1
22 31-12-15 Range for propeller driven and jet propelled 1 DM1
23 04-01-16 Endurance, Endurance for propeller driven and jet
propelled 1 DM1
24 05-01-16 Gliding Flight 1 DM1
25 06-01-16 Tutorial-5 1 DM2
26 07-01-16 Gliding Flight 1 DM1,
DM6
27 08-01-16 Absolute and service ceiling 1 DM1
28 18-01-16 Take-off performance 1 DM1
29 19-01-16 Take-off performance 1 DM1,
DM6
30 20-01-16 Tutorial-6 1 DM2
31 21-01-16 Landing performance DM1,
DM6
32 22-01-16 Turning Flight DM1
33 25-01-16 Constraints on load factor DM1
34 27-01-16 V-n diagram, DM1
35 28-01-16 Accelerated flight of climb DM1
36 29-01-16 Revision DM6
Ist Mid (1/02/2016 to 6/02/2016)
UNIT-III
37 08-02-16 Introduction 1 DM1
38 09-02-16 Moments on the airplane, Absolute angle of attack,
Criteria for Longitudinal Stability 1 DM1
39 10-02-16 Wing contribution for longitudinal static stability 1 DM1
40 11-02-16 Tail contribution for longitudinal static stability 1 DM1
41 12-02-16 Total pitching moment 1 DM1
42 15-02-16 Tutorial-7 1 DM2
43 16-02-16 Neutral point , Static margin 1 DM1
44 17-02-16 Stick fixed stability, Stick free stability 1 DM1
46 18-02-16 Longitudinal control and elevator angle to trim 1 DM1
47 19-02-16 Tutorial-8 1 DM2
48 22-02-16 Elevator hinge moment 1 DM1
49 23-02-16 Stick-free longitudinal static stability 1 DM1
50 24-02-16 Power effects 1 DM1
51 25-02-16 Tutorial-9 1 DM2
UNIT IV
52 26-02-16 Introduction 1 DM1
53 29-02-16 Dihedral effect 1 DM1
54 01-03-16 Lateral control - Coupling between rolling and
yawing moments 1 DM1
55 02-03-16 Adverse yaw effects 1 DM1
56 03-03-16 Tutorial-10 1 DM2
57 04-03-16 Aileron reversal 1 DM1
58 08-03-16 Static directional stability 1 DM1
59 15-03-16 Weather cocking effect 1 DM1
60 16-03-16 Rudder requirements, One engine inoperative
condition - Rudder lock 1
DM1,
DM6
61 17-03-16 Tutorial-11 1 DM2
62 18-03-16 Power Effects 1 DM1
UNIT-V
63 21-03-16 Introduction to dynamic longitudinal stability 1 DM1
64 22-03-16 Modes of stability 1 DM1
65 24-03-16 Routh's Discriminant 1 DM1
66 28-03-16 Effect of freeing the stick 1 DM1
67 29-03-16 Tutorial-12 1 DM2
68 30-03-16 Phugoid Motion 1 DM1,
DM6
69 31-03-16 Brief description of lateral and directional dynamic
stability 1 DM1
70 1-04-16 Spiral divergence 1 DM1
71 4-04-16 Dutch roll, auto rotation and spin 1 DM1,
DM6
72 5-04-16 Tutorial-13 1 DM2
73 6-04-16 ADVANCED TOPIC 1 DM6
74 7-04-16 Revision 1 DM6
Total class 74
Total number of classes available as per academic
calendar 74
Number of classes required to complete the
syllabus
NOTE: DELIVERY METHODS (DM):
DM1: Lecture interspersed with discussions/BB
DM2: Tutorial
DM3: Lecture with a quiz
DM4: Assignment/Test
DM5: Demonstration (laboratory, fieldvisit)
DM6: Presentations/PPT
At the End of the course, students attained the Course Outcomes:
Course Outcomes:
CO1. To understand the various aspects of motion of an airplane moving in the earth’s
atmosphere
CO2. To apply the analytical approaches to identify the various parameters dictating the
performance of an airplane
CO3: To apply the conditions in static longitudinal stability in the aircraft design
CO4: To apply the static lateral and directional stability condition s in the design of an aircraft
CO5: To analyze the dynamic modes of motion of an aircraft
TEXT BOOKS
1. Aircraft Performance and Design, J.D Anderson, Tata McGrawhill Edition
2. Perkins, C.D., and Hage, R.E., “Airplane Performance stability and Control”, John Wiley &
Son:, Inc, NY, 1988.
REFERENCES
1. Nelson, R.C. “Flight Stability and Automatic Control”, McGraw-Hill Book Co., 2004.
2. Etkin, B., “Dynamics of Flight Stability and Control”, Edn. 2, John Wiley, NY, 1982.
3. Babister, A.W., “Aircraft Dynamic Stability and Response”, Pergamon Press, Oxford, 1980.
4. Dommasch, D.O., Sherby, S.S., and Connolly, T.F., “Aeroplane Aero dynamics”, Third
Edition, Issac Pitman, London, 1981.
5. Mc Cornick B. W, “Aerodynamics, Aeronautics and Flight Mechanics”, John Wiley, NY, 1995.
Signature
Name of the Faculty Name of Course Co-ordinator HOD
Dr.P.Lovaraju Dr.P.Lovaraju
CO-PO MAPPING
PO
CO
a b c d e f g h i j k l
CO1
CO2
CO3
CO4
CO5
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING (Autonomous)
Department of Aerospace Engineering
Lesson plan
Course Name: FINITE ELEMENT METHOD (T203) SEM: VI
Course: B.Tech Department: ASE
Sl.
No.
Tentative
Date Topics to be covered
Actual
Date
No.
of
classes
Content
Delivery
Methods
Unit I 1 01-12-15 Introduction to Finite Element Method 1 DM1
2 02-12-15 Stress and Equilibrium 1 DM1
3 03-12-15 Strain – Displacement relations 1 DM1
4 04-12-15 Stress – strain relations 1 DM1
5 05-12-15 One Dimensional problem: FEM coordinates 1 DM2
6 08-12-15 Shape functions 1 DM1
7 09-12-15 Potential Energy approach 1 DM1
8 10-12-15 Assembly of Global stiffness matrix 1 DM1
9 11-12-15 Assembly of load vector 1 DM1
10 15-12-15 Finite element equations 1 DM1
11 16-12-15 Treatment of boundary conditions 1 DM1
12 17-12-15 Elimination Approach 1 DM1
13 18-12-15 Penalty Approach 1 DM1
14 19-12-15 Problems 1 DM2
15 22-12-15 Pascal triangle –Pascal pyramid 1 DM1
16 23-12-15 Stress and Equilibrium 1 DM4
Unit II 17 26-12-15 Introduction to Analysis of Beams 1 DM1
18 29-12-15 Strain displacement matrix 1 DM1
19 30-12-15 Hermite shape functions 1 DM1
20 31-12-15 Element stiffness matrix for two nodes 1 DM1
21 02-01-16 Problems on matrices 1 DM2
22 05-01-16 Force vector, Traction 1 DM1
23 06-01-16 Two degrees of freedom per node beam element 1 DM1
24 07-01-16 Finite element modeling of two dimensional 1 DM1
25 08-01-16 Problems on two elements 1 DM1
26 19-01-16 stress analysis with constant strain triangles 1 DM1
27 20-01-16 Strain displacement matrix 1 DM1
28 21-01-16 Element stiffness matrix for CST 1 DM1
29 22-01-16 Treatment of boundary conditions. 1 DM1
30 23-01-16 Problems on CST 1 DM2
31 27-01-16 CST problems 1 DM1
32 28-01-16 Analysis of Beams 1 DM4
Unit III 33 29-01-16 Introduction to Axisymmetric solids 1 DM1
34 30-01-16 Finite element modeling of Axisymmetric solids 1 DM1
35 09-02-16 Potential energy approach, body force term 1 DM1
36 10-02-16 Rotating fly wheel, surface traction 1 DM1
37 11-02-16 Stress calculation 1 DM1
38 12-02-16 Potential energy approach 1 DM2
39 15-02-16 Problems on triangular elements 1 DM1
40 16-02-16 Two dimensional four noded isoparametric elements 1 DM1
41 17-02-16 Shape function, Element stiffness matrix 1 DM1
42 18-02-16 Element force vector 1 DM1
43 19-02-16 Numerical integration- Gauss quadrature 1 DM1
44 20-02-16 Gauss quadrature 1 DM2
45 23-02-16 Problems on Gauss quadrature 1 DM1
46 24-02-16 Finite element modeling of Axisymmetric solids 1 DM4
Unit IV 47 25-02-16 1-D steady state heat transfer-Introduction 1 DM1
48 26-02-16 Steady state heat transfer analysis of a fin 1 DM1
49 27-02-16 Element conductivity matrix 1 DM1
50 01-03-16 Element Convection matrix 1 DM1
51 02-03-16 Heat rate vector 1 DM1
52 03-03-16 Two dimensional analysis of thin plate 1 DM1
53 04-03-16 Analysis of thin plate 1 DM2
54 05-03-16 2-D analysis of thin plate with triangular elements 1 DM1
55 08-03-16 Element conductivity matrix 1 DM1
56 09-03-16 Element Convection matrix 1 DM1
57 10-03-16 Heat rate vector 1 DM1
58 11-03-16 Analysis of thin plate with triangular elements 1 DM2
59 14-03-16 Heat transfer analysis of a fin 1 DM4
Unit V 60 15-03-16 Dynamic Analysis-Introduction 1 DM1
61 16-03-16 Dynamic Analysis 1
62 17-03-16 Formulation of finite element model 1 DM1
63 18-03-16 Element matrices 1 DM1
64 19-03-16 Solid body with distributed mass 1 DM1
65 22-03-16 Element mass matrices-bar 1 DM1
66 24-03-16 Element mass matrices-bar problems 1 DM
67 26-03-16 Element mass matrices-beam 1 DM1
68 29-03-16 Element mass matrices-CST 1 DM1
69 30-03-16 Eigen values and Eigen vectors for a stepped bar. 1 DM1
70 31-03-16 Eigen values and Eigen vectors for a beam. 1 DM1
71 01-04-16 Dynamic Analysis 1 DM4
72 02-04-16 Revision 1 DM1
73 05-04-16 Revision 1 DM1
74 06-04-16 Advanced Topics 1 DM1
75 07-04-16 Advanced Topics 1 DM1
Total class 75
Total number of classes available as per academic
calendar 75
Number of classes required to complete the
syllabus 71
NOTE: DELIVERY METHODS (DM)
DM1: Lecture interspersed with discussions/BB
DM2: Tutorial
DM3: Lecture with quiz
DM4: Assignment/Test
DM5: Demonstration (laboratory, field visit)
DM6: Presentation/PPT
TEXT BOOK
Introduction to Finite Elements in Engineering / Chandraputla, Ashok and Belegundu / Prentice – Hall
REFERENCES
1. An introduction to Finite Element Method / JN Reddy / Me Graw Hill
2. The Finite Element Methods in Engineering / SS Rao / Pergamon
3. The Finite Element Method for Engineers – Kenneth H. Huebner, Donald L. Dewhirst, Douglas
E Smith and Ted G. Byrom / John Wiley & sons (ASIA) Pte Ltd.
4. Finite Element Analysis/ C.S.Krishna Murthy
Signature
Name of the Faculty Name of Course Co-ordinator HOD
S.Indrasena Reddy Dr.P.Lovaraju
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING (Autonomous)
Department of Aerospace Engineering
Lesson plan
Course Name: PROPULSION – II SEM: VI
Course: B.Tech Department: ASE
S.N
o.
Tentative
Date Topics to be covered
Actual
Date
No.
of
classes
Content
Delivery
Methods
UNIT- I
1 30-11-15 Introduction to Ramjet & Scramjet 1 DM1
2 01-12-15 Operating Principle of Ramjet 1 DM1
3 02-12-15 Subcritical, critical & supercritical operation 1 DM1
4 03-12-15 Combustion in Ramjet engine 1 DM1
5 04-12-15 Tutorial -I 1 DM2
6 07-12-15 Operating Envelop of Ramjet Engine 1 DM1
7 08-12-15 Ramjet Performance 1 DM1
8 09-12-15 Ramjet design calculations 1 DM1
9 10-12-15 Preliminary concepts in supersonic
combustion 1 DM1
10 11-12-15 Tutorial -II 1 DM2
11 14-12-15 Tutorial -III 1 DM1
12 15-12-15 Components & Principle of SCRAMJET 1 DM1
13 16-12-15 Types of Combustion Chambers in
SCRAMJET 1 DM1
14 17-12-15 Mixing Process in SCRAMJET 1 DM1
15 18-12-15 Tutorial -IV 1 DM2
UNIT-II Revision of UNIT- I 16 21-12-15 Introduction to Rocket Propulsion 1 DM1
17 22-12-12 Operating Principle of Rocket 1 DM1
18 23-12-15 Specific Impulse of Rocket 1 DM1
19 28-12-15 Effective jet velocity of rocket 1 DM1
20 29-12-15 Effective jet velocity of rocket 1 DM2
21 30-12-15 Tutorial-V 1 DM1
22 31-12-15 Rocket propulsion Characteristics 1 DM1
23 04-01-16 Rocket propulsion Characteristics 1 DM1
24 05-01-16 Rocket Performance Considerations 1 DM1
25 06-01-16 Rocket Performance Considerations 1 DM2
26 07-01-16 Rocket propulsion requirements 1 DM1,
DM6
27 08-01-16 Rocket propulsion requirements 1 DM1
28 18-01-16 Equations of motion of Accelerating Rocket 1 DM1
29 19-01-16 Equations of motion of Accelerating Rocket 1 DM1,
DM6
30 20-01-16 Tutorial-VI 1 DM2
31 21-01-16 Multistage rockets DM1,
DM6
32 22-01-16 Classifications of Nozzle DM1
33 25-01-16 Nozzle design considerations DM1
34 27-01-16 Nozzle design considerations DM1
35 28-01-16 Revision of UNIT- II DM1
36 29-01-16 Revision of UNIT- II DM6
Ist Mid (1/02/2016 to 6/02/2016)
UNIT-III
37 08-02-16 Introduction to the Liquid propulsion Rockets 1 DM1
38 09-02-16 Propellant feed Systems 1 DM1
39 10-02-16 Liquid Propellants 1 DM1
40 11-02-16 Combustion Process of Liquid Propellants 1 DM1
41 12-02-16 Tutorial- VIII 1 DM1
42 15-02-16 Combustion instability 1 DM2
43 16-02-16 Propellant tanks 1 DM1
44 17-02-16 Tank Pressurization 1 DM1
46 18-02-16 Maneuvering, Orbit Adjustment, Altitude
control 1 DM1
47 19-02-16 Tutorial- IX 1 DM2
48 22-02-16 Thrust Augmentation 1 DM1
49 23-02-16 Cooling of Liquid Rocket Thrust Chamber 1 DM1
50 24-02-16 Cooling of Liquid Rocket Thrust Chamber 1 DM1
51 25-02-16 Revision of UNIT- III 1 DM2
UNIT IV
52 26-02-16 Introduction to solid propellant rockets 1 DM1
53 29-02-16 Types of solid Propellants 1 DM1
54 01-03-16 Combustion process in solid rockets 1 DM1
55 02-03-16 Propellant burning rate 1 DM1
56 03-03-16 Tutorial- X 1 DM2
57 04-03-16 Selection criteria of solid propellants 1 DM1
58 08-03-16 Propellant grain & its configuration 1 DM1
59 15-03-16 Propellant grain Stress & strain 1 DM1
60 16-03-16 Introduction to Hybrid Rockets 1 DM1,
DM6
61 17-03-16 Thrust vector control methods 1 DM2
62 18-03-16 Tutorial- XI 1 DM1
Revision of UNIT- IV
63 21-03-16 Introduction to Advanced Propulsion Systems 1 DM1
64 22-03-16 Electric Propulsion 1 DM1
65 24-03-16 Electro thermal Rockets 1 DM1
66 28-03-16 Non- Electro thermal Rockets 1 DM1
67 29-03-16 Tutorial- XII 1 DM2
68 30-03-16 Electrostatic 1 DM1,
DM6
69 31-03-16 Ion Propulsion Techniques 1 DM1
70 1-04-16 Electro Magnetic Thrusters 1 DM1
71 4-04-16 Magneto Plasma Accelerators 1 DM1,
DM6
72 5-04-16 Tutorial- XIII 1 DM2
73 6-04-16 Nozzle-less Propulsion 1 DM6
74 7-04-16 Nuclear Rockets 1 DM6
Solar sail 74
Total number of classes available as per academic
calendar 74
Number of classes required to complete the
syllabus
NOTE: DELIVERY METHODS (DM):
DM1: Lecture interspersed with discussions/BB
DM2: Tutorial
DM3: Lecture with a quiz
DM4: Assignment/Test
DM5: Demonstration (laboratory, fieldvisit)
DM6: Presentations/PPT
Signature
Name of the Faculty Name of Course Co-ordinator HOD
Dr.P.Lovaraju
Course Code& Course Name: SPACE MECHANICS SEM: VI
Programme: B.Tech Department: ASE
LESSON PLAN
S NO. TENTATIVE
DATE TOPICS TO BE COVERED ACTUAL
DATE
NO.
OF
CLAS
SES
CONTENT
DELIVERY
METHODS
UNIT-I: INTRODUCTION TO SPACE MECHANICS : BASIC CONCEPTS
1 30/11/15 Overview of the course 1 DM1
2 1/12/15 Basic concepts 1 DM1/DM6
3 4/12/15 Sun, The Solar System, 1 DM1
4 5/12/15 Planets, Reference Frames and
Coordinate systems 1 DM6
5 7/12/15 Tutorial 1 DM2/DM6
6 8/12/15 The Celestial Sphere 1 DM1
7 10/12/15 The Elliptic 1 DM1
8 11/12/15 Motion of the Equinox 1 DM1
9 13/12/15 Sidereal Time 1 DM3
10 14/12/15 Tutorial 1 DM4
11 15/12/15 Solar Time 1 DM1
12 17/12/15 Standard Time 1 DM1
13 18/12/15 The Earth’s Atmosphere. 1 DM1/ DM6
14 19/12/15 Geometric reference frames 1 DM1
15 20/12/15 Tutorial 1 DM1/DM6
16 21/12/15 The velocity vector 1 DM1
17 22/12/15 Heliocentric reference frames 1 DM4
18 23/12/15 The ionosphere, thermosphere, and
exosphere 1 DM1
19 26/12/15 Tutorial 1 DM2
20 28/12/15 UNIT- II Introduction to the General
N-Body Problem 1 DM1
21 29/12/15 Newton’s Laws 1 DM1
22 30/12/15 Lagrange Jacobian Identity 1 DM1
23 31/12/15 The circular Restricted Three body 1 DM1
Course Code& Course Name: SPACE MECHANICS SEM: VI
Programme: B.Tech Department: ASE
LESSON PLAN
Problem
24 2/1/16 Tutorial 1 DM2/DM6
25 4/1/16 Libration Points 1 DM1
26 5/1/16 Relative motion in the N-body
problem 1 DM1
27 7/1/16 Two Body Problem 1 DM1
28 8/1/16 Satellite Orbits 1 DM1/DM6
29 19/1/16 Tutorial 1 DM4
30 21/1/16 Relation between position and time 1 DM 1
31 22/1/16 Discussion continued. 1 DM2/ DM5
32 23/1/16 Orbital Elements 1 DM1
33 25/1/16 Tutorial 1 DM1/DM6
34 28/1/16 Libration points 1 DM1
35 29/1/16 Tutorial 1 DM2
36 30/1/16 Revision of first two units 1 DM1
37 8/2/16 Introduction to Satellite Injection –
UNIT-III 1 DM1
38 9/2/16 Satellite orbit perturbations 1 DM1/DM6
39 11/2/16 General aspects of satellite injections 1 DM1
40 12/2/16 Tutorial 1 DM6
41 13/2/16 Satellite Orbit transfer 1 DM2/DM6
42 15/2/16 Various cases 1 DM1
43 16/2/16 Orbit Deviations due to injection
Errors. 1 DM1
44 18/2/16 Special and General Perturbations 1 DM1
45 19/2/16 Tutorial 1 DM3
46 20/2/16 Cowell’s Method 1 DM4
47 22/2/16 Encke’s method 1 DM1
48 23/2/16 Method of vibrations of orbital 1 DM1
Course Code& Course Name: SPACE MECHANICS SEM: VI
Programme: B.Tech Department: ASE
LESSON PLAN
Elements
49 25/2/16 General Perturbations Approach 1 DM1/ DM6
50 26/2/16 Introduction to Interplanetary
Trajectories – IV 1 DM1
51 27/2/16 Tutorial 1 DM1
52 28/2/16 Two Dimensional Interplanetary
trajectories 1 DM1/DM6
53 29/2/16 Discussion Continued 1 DM1
54 1/3/16 Discussion Continued 1 DM6
55 3/3/16 Tutorial 1 DM2/DM6
56 4/3/16 Fast Interplanetary Trajectories 1 DM1
57 5/3/16 Discussion Continued 1 DM1
58 8/3/16 Discussion Continued 1 DM1
59 9/3/16 Tutorial 1 DM3
60 10/3/16 Three Dimensional Interplanetary
Trajectories 1 DM4
61 11/3/16 Discussion Continued 1 DM1
62 12/3/16 Launch if interplanetary Spacecraft 1 DM1
63 14/3/16 Tutorial 1 DM1/ DM6
64 15/3/16 Trajectory about the Target Planet. 1 DM1
65 17/3/16 Introduction to Ballistic Missile
Trajectories & Materials – UNIT- V 1 DM1
66 18/3/16 The boost Phase 1 DM1/DM6
67 19/3/16 Tutorial 1 DM1
68 21/3/16 The Ballistic Phase 1 DM6
69 22/3/16 Trajectory Geometry 1 DM2/DM6
70 28/3/16 Optimal Flights, Time of Flight 1 DM1
71 29/3/16 Re-entry phase, The position of the
impact point 1 DM1
72 30/3/16 Influence coefficients, Space 1 DM1
Course Code& Course Name: SPACE MECHANICS SEM: VI
Programme: B.Tech Department: ASE
LESSON PLAN
Environment
73 31/3/16 Tutorial 1 DM3
74
2/4/16 Effect of Space Environment on the
selection of Spacecraft Material 1 DM4
75 3/4/16 Spacecraft Material 1 DM1
76 4/4/16 Advance Topics 1 DM1
77 5/4/16 Advance Topics 1 DM1/ DM6
78 6/4/16 Revision 1 DM2
79 7/4/16 Revision 1 DM2
80 9/4/16 Revision
Total 80
Total number of classes required to complete the syllabus 75
Total number of classes available as per Schedule 80
NOTE: DELIVERY METHODS (DM):
DM1: Lecture interspersed with discussions/BB
DM2: Tutorial
DM3: Lecture with a quiz
DM4: Assignment/Test
DM5: Demonstration (laboratory, field visit)
DM6: Presentations/PPT
At the End of the course, students attained the Course Outcomes: CO1, CO2, CO3,
CO4, CO5 & sample proofs are enclosed in Course file.
CO1: Students will understand system simulation of orbits.
CO2: Students will understand the basic assumptions upon which spacecraft dynamics
models are based.
CO3: Students will understand the fundamentals of two-body orbits; are familiar with
multi-body orbits.
CO4: Students will understand the spacecraft attitude concepts and rotational concepts.
CO5: Conceptualize and visualize the 3 – D objects and to make designs
systematically.
TEXT BOOK
1. Cornelisse, J.W., “Rocket Propulsion and Space Dynamic”, W.H. Freeman & Co.,
1984.
REFERENCE BOOKS
1. Cornelisse, J.W., “Rocket Propulsion and Space Dynamic”, W.H. Freeman & Co., 1984.
Course Code& Course Name: SPACE MECHANICS SEM: VI
Programme: B.Tech Department: ASE
LESSON PLAN
2. Sutton, G.P., “Rocket Propulsion Elements”, John Wiley, 1993.
3. Van de Kamp, P., “Elements of Astro-mechanics”, Pitman, 1979.
4. Parker E.R., “Materials for Missiles and Spacecraft”, McGraw-Hill Book Co. Inc.,1982.
Signature
Name of the Faculty Name of Course Co-
ordinator
HOD
P.SUDHEER BABU Dr.P. LOVARAJU Dr.P.LOVARAJU
Course Code& Course Name:T325 SEM: VI Programme: B.Tech Department: AEROSPACE ENGINEERING
LESSON PLAN
S No. Tentative
Date
Topics to be covered Actual
Date
Num.
of
classes
Content
Delivery
Methods
UNIT-I: MECHANISMS
1. 30/11/15 Introduction to Theory of machines 1 DM1,DM6
2. 1/12/15 Kinematic link ,types of links, types of joints 1 DM1 DM5
3. 4/12/15 Kinematic pairs, classification of kinematic pairs 1 DM1 DM5
4. 5/12/15 Mechanism, machine, structure, types of constrained motion
1 DM1 DM5
5. 7/12/15 Degrees of freedom, grueblers, kutczbecks criteria
1 DM1
6. 8/12/15 Crank, lever, inversion, 4-bar chain 1 DM1,DM5,DM6
7. 10/12/15 Inversions of 4-bar chain, single slider
crank chain 1 DM1,DM5,DM6
8. 11/12/15 Inversions of single slider crank chain
methods 1 DM2 DM5 DM6
9. 13/12/15 Inversions of double slider crank chain
methods 1 DM1,DM5 DM6
10. 14/12/15 TUTORIAL-1 1 DM1, DM6
11. 15/12/15 Concept of relative velocity and velocity images 1 DM1
12. 17/12/15 Velocity analysis of 4-bar mechanism 1 DM1, DM5
13. 18/12/15 Velocity analysisof single slider mechanism 1 DM1, DM5
14. 19/12/15 Acceleration analysis of 4-bar mechanism and single slider mechanism
1 DM2
15. 20/12/15 problems 1 DM1
16. 21/12/15 TUTORIAL-2 1 DM1
UNIT-II: FRICTION
17. 22/12/15 Introduction to friction and types of friction 1 DM1
18. 23/12/15 Limiting friction, angle friction ,coefficient of friction and angle of repose
1 DM1
19. 26/12/15 Friction in screw and nut 1 DM1 DM5
20. 28/12/15 torque required to raise the load and lower the load
1 DM1, DM5
21. 29/12/15 problems 1 DM1
22. 30/12/15 TUTORIAL-3 1 DM2
23. 31/12/15 Pivot and collar bearings(uniform pressure
condition and wear condition)
1 DM1 DM5
24. 2/1/16 problems 1 DM1
25. 4/1/16 problems 1 DM1, DM6
26. 5/1/16 Introduction to Plate and disc clutches 1 DM1, DM5
27. 7/1/16 Introduction to belt and rope drives,
selection of belt drives 1 DM1 DM5
28. 8/1/16 Velocity ratio of belt drives, slip of belt 1 DM1
29. 19/1/16 Creep off belt, length of open belt drive and
cross belt drive 1 DM1
30. 21/1/16 TUTORIAL-4 1 DM2
31. 22/1/16 Ratios of driving tensions for flat belt drive
and angle of contact 1 DM1
32. 23/1/16 Centrifugal tension ,maximum tension
maximum power transmission 1 DM1
Course Code& Course Name:T325 SEM: VI Programme: B.Tech Department: AEROSPACE ENGINEERING
LESSON PLAN
UNIT-III:GEARING AND CAMS
33. 25/1/16 Introduction to CAMS and types 1 DM1 DM5
34. 28/1/16 Types of followers and terminology 1 DM1
35. 29/1/16 Types of follower motions 1 DM1 DM5
36. 30/1/16 Follower with uniform acceleration &SHM 1 DM1,
37. 8/2/16 Cam profiles with knife edge and follower with offset
1 DM1 DM5
38. 9/2/16 Cam profiles with flat faced follower, roller follower
1 DM1 DM5
39. 11/2/16 TUTORIAL-5 1 DM2
40. 12/2/16 Introduction to gears and types 1 DM1 DM5
41. 13/2/16 Gear profile and geometry 1 DM1
42. 15/2/16 Gears : terminology-law of gearing 1 DM1
43. 16/2/16 In volute gearing-velocity of sliding 1 DM1
44. 18/2/16 Interference and undercutting 1 DM1
45. 19/2/16 Contact ratios-basics of helical, bevel gears 1 DM1
46. 20/2/16 Basics of worm, rack and pinion gears DM1,DM5
47. 22/2/16 TUTORIAL-6 1 DM2
48. 23/2/16 Gear trains: introduction 1 DM1,DM5
49. 25/2/16 Types of gears trains 1 DM1,DM5
50. 26/2/16 Epicyclic gear trains 1 DM1
51. 27/2/16 Problems on gear trains 1 DM1
52. 28/2/16 Problems on gear trains 1 DM1
53. 29/2/16 TUTORIAL-7 1 DM2
UNIT-IV: PRECESSION
54. 1/3/16 Introduction to Gyroscope 1 DM1,DM5
55. 3/3/16 Effect of precision on stability of moving vehicles as aeroplanes
1 DM1,DM5
56. 4/3/16 problems 1 DM1
57. 5/3/16 Effect of precision on stability of moving vehicles as motor car
1 DM1
58. 8/3/16 problems DM1
59. 9/3/16 Effect of precision on stability of moving vehicles as ships
1 DM1
60. 10/3/16 problems DM1
61. 11/3/16 Static and dynamic forces generated due to in precision in moving mechanisms such as motor car aeroplanes and ships including gyroscopic motion
1 DM1,DM5
62. 12/3/16 problems 1 DM1
63. 14/3/16 problems 1 DM1
64. 15/3/16 TUTORIAL-8 1 DM2
UNIT-V:BALANCING
65 17/3/16 Introduction to balancing, Static balancing and dynamic balancing
1 DM1,DM5
66 18/3/16 Single and several masses in different planes 1 DM1,DM5
67 19/3/16 problems 1 DM1,DM5
68 21/3/16 Balancing of reciprocating masses 1 DM1
69 22/3/16 Primary balancing and balancing 1 DM1,DM5
70 28/3/16 TUTORIAL-9 1 DM1 DM5
71 29/3/16 Concepts of secondary balancing 1 DM1,DM5
Course Code& Course Name:T325 SEM: VI Programme: B.Tech Department: AEROSPACE ENGINEERING
LESSON PLAN
72 30/3/16 Problems 1 DM1
73 31/3/16 Single and multi cylinders engines (inline) 1 DM1,DM5
74 2/4/16 problems 1 DM1
76 3/4/16 Balancing of radial V Engine 1 DM1
77 4/4/16 TUTORIAL-10 1 DM2
78 5/4/16 Beyond syllabus
79 6/4/16 Beyond syllabus
80 7/4/16 Beyond syllabus
81 9/4/16 Beyond syllabus
Total 81
Total number of classes required to complete the syllabus 75
Total number of classes available as per Schedule 81
NOTE: DELIVERY METHODS : DM1: Lecture interspersed with discussions/BB, DM2: Tutorial,
DM3: Lecture with a quiz, DM4: Assignment/Test, DM5: Demonstration ( laboratory, field visit ),
DM6: Presentations/PPT
At the End of the course, students attained the Course Outcomes:CO1,CO2,CO3,CO4,CO5 & sample proofs
are enclosed in Course file.
Signature
Name of the Faculty Name of Course Co-ordinator HOD