Lakireddy Balireddy College of Engineering College
Transcript of Lakireddy Balireddy College of Engineering College
Lakireddy Balireddy College of Engineering College L.B.Reddy Nagar, Mylavaram , Krishna District, A.P
FRESHMAN ENGINEERING DEPARTMENT
LESSON PLAN
Subject : English - II- S240 Academic Year : 2016-17 Semester : II Date: 08.12.2016
To 12.04.2017 Year : I Section : AE
S240 – ENGLISH - II
Lecture : 4 Periods/week Internal Marks : 25
Tutorial : External Marks : 75
Credits : 3 External Examination : 3 Hrs
------------------------------------------------------------------------------------------------------------
UNIT - I
Environment (Learning English)
The World of Figures and Physics – Satyendranath Bose (Master Minds)
Grammar: Correction of sentences
Analytical Writing: Report Writing
UNIT - II
Inspiration (Learning English)
The Institution Builders– Santi Swarup Bhatnagar (Masterminds)
Grammar: If-clause; Question tags
Vocabulary: Idioms and Phrases
Analytical Writing: Resume’; Statement of Purpose
UNIT - III
Human Interest (Learning English)
The institution builders – Meghanadh Saha (Master Minds)
Grammar: Direct & Indirect Speeches
Vocabulary: Phrasal Verbs
Analytical Writing: Memo Drafting
UNIT – IV
Media (Learning English)
The New Age – Homi Jehangir Bhabha (Master Minds)
Grammar: Concord
Vocabulary: Analogy
Analytical Writing: Information Transfer/ Data Interpretation (Tables, Pie charts, Bar graphs, Tree
diagrams, Pictograms, etc.)
UNIT – V
The New Age – Vikram Sarabhai (Master Minds)
Grammar: Gerunds & Infinitives; Correction of Sentences
Vocabulary: Words often confused
Analytical writing – Comprehension, Expansions (of a given topic/ proverbs)
TEXT BOOKS
1. “Learning English”, Orient Longman Private Limited.JNTU edition,2008
2. EnakshiChatterjee, “Masterminds”, Orient Longman Private Limited ,Reprint-2002
REFERENCES
1. KoneruAruna, “Professional Communication”, Tata McGraw-Hill, New Delhi, 2007.
2. Rizvi, “Effective Technical Communication”, Tata McGraw-Hills, New Delhi, 2009.
3. Andrea J. Rutherford, “Basic Communication Skills for Technology”, Pearson Education., 1st
edition, 2009
4. Kaplan and Baron's, “GRE and TOEFL’, Latest editions.2008
Course Educational Objectives
In this course, the students will learn
To write letters and reports effectively in formal and professional situations.
To speak and write effectively in English in real life situations.
To read speedily and meaningfully.
Both active and passive vocabulary.
The decision-making, while thinking logically and analyzing situations carefully.
Course Outcomes
After the completion of this course, prospective engineers will have the ability to
Use English language effectively in written and spoken English
Express the right ideas in right context
Manage the situation and negotiate business with good English communication
Think and analyze the situations and make good presentations of their work and decisions
prepare oneself to face interviews and also to participate in group discussions
S. No Teaching Learning Process
(TLP)
Delivery Methods
(DM)
Assessment Methods
(AM)
1 Solving Real world problem Chalk & Talk Assignments
2 Explaining application before theory ICT tools Quiz
3 Solving problems Group discussions Tutorials
4 Designing of experiments Industrial visit Surprise Tests
5 Problems on environmental, economics,
health & safety Field work Mid Exams
6 Problems on professional & ethics Case studies Model Exam
7 Seminar Mini Projects END Exams
8 Problems using software Numerical treatment
9 Self study Design / Exercises
Detailed Lesson Plan
S.NO TOPIC TO BE COVERED Date
TLP DM AM Tentative Actual
UNIT- I
1 Introduction 10.12.16 2 1
1,2,3,5,7
2 Environment 13.12.16 2 1,3
3 Environment 14.12.16 2 1,3
4 Environment 17.12.16 2 1,3
5 Correction of sentences 19.12.16 2 1,9
6 Correction of sentences - Quiz 20.12.16 3 1,9
7 Satyendranath Bose 21.12.16 2 1,9
8 Satyendranath Bose 24.12.16 2 1,9
9 Satyendranath Bose 26.12.16 3 1,9
10 Report Writing 27.12.16 2 1,9
11 Report Writing 28.12.16 2 1,9
12 Report Writing - Assignment 31.12.16 2 1,9
13 Inspiration 02.01.17 2 1, 3
UNIT- II
14 Inspiration 03.01.17 2 1,3
1,2,3,5,7
15 Inspiration - Tutorial 04.01.17 2 1,3
16 If-Clause 07.01.17 3 1,3
17 Question Tags 09.01.17 2 1,9
18 If-Clause, Question Tags - Quiz 10.01.17 2 1,9
19 Idioms and Phrases 11.01.17 3 1,9
20 Idioms and Phrases 16.01.17 2 1,9
21 Santi Swarup Bhatnagar 17.01.17 2 1,9
22 Santi Swarup Bhatnagar 18.01.17 2 1,3
23 Santi Swarup Bhatnagar 21.01.17 2 1,3
24 Santi Swarup Bhatnagar - Tutorial 23.01.17 3 1,3
25 Resume 24.01.17 2 1,9
26 Resume 25.01.17 2 1,9
27 Statement of Purpose 28.01.17 2 1,9
28 Resume; Statement of Purpose- Assignment 01.02.17 2 1,9
M I D - I
02-02-
2017 T0
04-02-
2017
5
UNIT- III
29 Human Interest 06.02.17 2 1,3
1,2,3,5,7
30 Human Interest 07.02.17 2 1,3
31 Human Interest 08.02.17 2 1,3
32 Human Interest - Tutorial 11.02.17 3 1,3
33 Direct and Indirect Speeches 13.02.17 2 1,9
34 Direct and Indirect Speeches 14.02.17 2 1,9
35 Phrasal Verbs 15.02.17 2 1,9
36
Phrasal Verbs Direct and Indirect Speeches
- Quiz 18.02.17
3 1,9
37 Memo Drafting 20.02.17 2 1,9
38 Memo Drafting 21.02.17 2 1,9
39 Meghanadh Saha 22.02.17 2 1,3
40 Meghanadh Saha 25.02.17 2 1,3
41
Memo Drafting ; Meghanadh Saha -
Assignment 27.02.17
3 1,9
UNIT- IV
42 Information Transfer 28.02.17 2 1,9
1,2,3,5,7
43 Media 01.03.17 2 1,3
44 Media - Tutorial 04.03.17
2 1,3
45 Concord 06.03.17 2 1,9
46 Homi Jahagir Bhaba 07.03.17 2 1,3
47 Homi Jahagir Bhaba 08.03.17 2 1,3
48 Analogy 11.03.17 2 1,9
UNIT- V
49 Vikram Sarabhai 13.03.17 2 1,3
1,2,3,5,7
50 Vikram Sarabhai 14.03.17 3 1,3
51 Vikram Sarabhai - Tutorial 15.03.17 2 1,9
52 Gerunds and Infinitives 18.03.17 2 1,9
53 Gerunds and Infinitives 20.03.17 2 1,9
54 Correction of sentences 21.03.17 3 1,9
55 Words often confused 22.03.17 3 1,9
56 Words often confused 25.03.17 2 1,9
57
Words often confused; Correction of
sentences; Gerunds and Infinitives - Quiz 27.03.17
2 1,9
58 Expansions 28.03.17 2 1,9
59 Expansions 01.04.17 3 1,9
60 Comprehension 03.04.17 3 1,9
61 Comprehension; Expansions - Assignment 04.04.17 3 1,9
62 Comprehension; Expansions - Assignment 08.04.17 3 1,9
MID-II (10-04-2017
to 12-04-
2017)
5
Instructor Course
Coordinator Module Coordinator H O D
Name Mr. B. Sreenivasa
Reddy
Dr. B. Samrajya
Lakshmi
Mr. B. Srajya Lakshmi
Dr. A. Rami Reddy
Sign. with Date
LESSON PLAN
Course Code & Course Name:
S-133, Applied Mathematics II. SEM:II, A.Y.2016-17
Program: I B. Tech Department: Aerospace
S.
No.
Tentative Date
Topics to be covered Actual Date
Number of
Classes
Delivery Method
1 08-12-2016
Course Objective, introduction, their applications
1 DM1
UNIT I
2 09-12-2016 Laplace Transforms introduction 1 DM1
3 09-12-2016
Laplace Transforms of Standard
Functions
1 DM1
4 10-12-2016
Laplace Transforms of Standard
Functions
1 DM1
5 13-12-2016
First Shifting theorem, Change of
Scale
1 DM1
6 15-12-2016 Multiplication and division by t 1 DM1
7 16-12-2016 Derivatives and integrals 1 DM1
8 16-12-2016 Dirac’s Delta functions 1 DM1
9 17-12-2016 Unit Step function, Periodic function 1 DM1
10 19-12-2016 Inverse Laplace Transforms 1 DM1
11 20-12-2016 Multiplication and division by s 1 DM1
12 22-12-2016 Derivatives and integrals 1 DM1
13 23-12-2016 TUTORIAL 1 1 DM2
14 23-12-2016 Inverse L T using Partial Fractions 1 DM1
15 24-12-2016 Convolution Theorem 1 DM1
16 26-12-2016 Solving of O.D.E using L.T. 1 DM1
17 27-12-2016 Solving of O.D.E using L.T. 1 DM1
18 29-12-2016 TUTORIAL 2 1 DM2
19 30-12-2016 Application problems 1 DM1
UNIT II
20 30-12-2016 Introduction to Fourier series 1 DM1
21 31-12-2016 Determination of Fourier coefficients 1 DM1
22 02-01-2017 Fourier Series Problems 1 DM1
23 03-01-2017 TUTORIAL 3 1 DM2
24 05-01-2017 Fourier Series Problems 1 DM1
25 06-01-2017 Assignment UNIT I 1 DM4
26 06-01-2017 Quiz UNIT I 1 DM3
27 16-01-2017 Even and Odd Functions
28 17-01-2017 TUTORIAL 4 1 DM2
29 19-01-2017 Fourier Cosine and Sine Series 1 DM1
30 20-01-2017 Fourier Series in an arbitrary interval 1 DM1
31 20-01-2017 Fourier Series in an arbitrary interval 1 DM1
32 21-01-2017 TUTORIAL 5 1 DM2
33 23-01-2017 Half-range Sine and Cosine series 1 DM1
34 24-01-2017 Assignment UNIT II 1 DM4
35 26-01-2017 Quiz UNIT II 1 DM3
36 27-01-2017 Half-range Sine and Cosine series
Unit III
37 27-01-2017 Fourier Integral theorem 1 DM1
38 28-01-2017 Fourier Integral theorem 1 DM1
39 30-01-2017 Fourier sine and cosine integrals 1 DM1
40 31-01-2017 Fourier Transform 1 DM1
41 06-02-2017 Fourier Transform 1 DM1
42 07-02-2017 Sine and cosine transforms 1 DM1
43 09-02-2017 Sine and cosine transforms 1 DM1
44 10-02-2017 TUTORIAL 6 1 DM2
45 10-02-2017 Inverse Transform 1 DM1
46 13-02-2017 Inverse Transform 1 DM1
47 14-02-2017 Finite Fourier Transforms 1 DM1
48 16-02-2017 TUTORIAL 7 1 DM2
UNIT IV
49 17-02-2017 Introduction to Z-Transform 1 DM1
50 17-02-2017 Properties 1 DM1
51 18-02-2017 Damping Rule 1 DM1
52 20-02-2017 Shifting Rule 1 DM1
53 21-02-2017 Initial and Final Value Theorems 1 DM1
54 23-02-2017 Problems 1 DM1
55 24-02-2017 Inverse Z-Transform 1 DM1
56 24-02-2017 Convolution theorem 1 DM1
57 25-02-2017 TUTORIAL 8 1 DM2
58 27-02-2017 Convolution theorem 1 DM1
59 28-02-2017 Assignment UNIT III 1 DM4
60 02-03-2017 Quiz UNIT III 1 DM3
61 03-03-2017
Sol. of difference equation by Z-
Transform
1 DM1
62 03-03-2017 Sol. of difference equation by Z- 1 DM1
Transform
63 04-03-2017 TUTORIAL 9 1 DM2
UNIT V
64 06-03-2017 Multiple Integrals 1 DM1
65 07-03-2017 Double integrals-Cartesian 1 DM1
66 09-03-2017 Double integrals-Polar 1 DM1
67 10-03-2017 Triple integrals-Cartesian 1 DM1
68 10-03-2017 Triple integrals-Polar 1 DM1
69 14-03-2017 TUTORIAL 10 1 DM2
70 16-03-2017 Triple integrals-Spherical 1 DM1
71 17-03-2017 Assignment UNIT IV 1 DM4
72 17-03-2017 Quiz UNIT IV DM3
73 18-03-2017 Change of order of Integration 1 DM1
74 20-03-2017 TUTORIAL 11 1 DM2
75 21-03-2017 Change of order of Integration 1 DM1
76 23-03-2017 Change of order of Integration 1 DM1
77 24-03-2017 Applications to Areas 1 DM1
78 24-03-2017 Applications to Areas 1 DM1
79 27-03-2017 Applications to Volumes 1 DM1
80 30-03-2017 TUTORIAL 12 1 DM2
81 31-03-2017 Applications to Volumes 1 DM1
82 31-03-2017 Assignment UNIT V 1 DM4
83 01-04-2017 Quiz UNIT V 1 DM3
84 03-04-2017 Revision 1
85 04-04-2017 Revision 1
86 06-04-2017 Revision 1
87 07-04-2017 Revision 1
88 07-04-2017 Beyond the Syllabus
89 08-04-2017 Beyond the Syllabus
Total Number of classes available as per academic calendar
89
Total Number of classes required to complete the syllabus
80
Signature
Name of the Faculty Name of the Course Coordinator HOD
CH.CHAITANYA Dr. A. RAMIREDDY
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING, (AUTONOMOUS)
L.B.Reddy Nagar, Mylavaram – 521 230. Andhra Pradesh, INDIA Department of Freshman Engineering
COURSE : B.Tech, (II - Sem.,) FACULTY : Dr. T. Vasantha Rao
BRANCH : AEROSPACE Academic Year : 2016 – 2017
SUBJECT : Engineering Physics SUBJECT CODE : S- 238
=========================================================================
Contents of the Course File (Bottom to Top)
1. Attendance Registers
2. Syllabus Copy
3. Previous Semester (Old) Question Papers
4. Course Outcomes
5. Lesson Plan
6. UNIT I: Descriptive Questions, Quiz Questions, Tutorials
7. UNIT II: Descriptive Questions, Quiz Questions, Tutorials
8. I-MID Examination Question Paper with Scheme of Valuation
9. UNIT III: Descriptive Questions, Quiz Questions, Tutorials
10. UNIT IV: Descriptive Questions, Quiz Questions, Tutorials
11. UNIT V: Descriptive Questions, Quiz Questions, Tutorials
12. II-MID Examination Question Paper with Scheme of Valuation
13. End Examination Question Paper with Scheme of Valuation
14. Assessment and Evaluation of Attainment of COs and POs
Note: Conduct minimum of 12 tutorials per course ( 2 tutorials per unit)
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING, (AUTONOMOUS)
L.B.Reddy Nagar, Mylavaram – 521 230. Andhra Pradesh, INDIA Department of Freshman Engineering
COURSE : B.Tech, (II - Sem.,) FACULTY : Dr. T. Vasantha Rao
BRANCH : AEROSPACE Academic Year : 2016 – 2017
SUBJECT : Engineering Physics SUBJECT CODE : S- 238
=========================================================================
COURSE OUTCOMES
At the end of this course students will be able to:
S- 238.1: Identify the nature of Interference, Diffraction and Polarization.
S- 238.2: Analyze the dual nature of particle and significance of the wave function.
S- 238.3: Identify the principle of LASER and Optical fibers, types of lasers and their
applications.
S- 238.4: Analyze the different types of magnetic materials and their uses.
S- 238.5: Identify the phenomenon of superconductivity on different materials.
Dr. T. Vasantha Rao Dr. T. Vasantha Rao Dr. T. Vasantha Rao Prof.A. Rami Reddy
Subject Teacher Course Coordinator Module Coordinator HOD
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING, (AUTONOMOUS)
L.B.Reddy Nagar, Mylavaram – 521 230. Andhra Pradesh, INDIA Department of Freshman Engineering
=========================================================================
COURSE : B.Tech, (II - Sem.,) FACULTY : Dr. T. Vasantha Rao
BRANCH : AEROSPACE Academic Year : 2016 – 2017
SUBJECT : Engineering Physics SUBJECT CODE : S- 238
=========================================================================
LESSON PLAN
Process of Teaching, Learning, Delivery and Assessment Methods:
S.No Teaching Learning Process (TLP) Delivery Methods (DM) Assessment Methods (AM)
1 Solving Real world problem Chalk & Talk Assignments
2 Explaining application before theory ICT tools Quiz
3 Solving problems Group discussions Tutorials
4 Designing of experiments Industrial visit Surprise Tests
5 Problems on environmental,
economics, health & safety Field work Mid Exams
6 Problems on professional & ethics Case studies Model Exam
7 Seminar Mini Projects QAs
8 Problems using software Numerical treatment
9 Self study Design / Exercises
UNIT-I : INTERFERENCE,DIFFRACTION AND POLARIATION
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP
D
M AM
1. General introduction
1 08-12-16
2,3 1 1,2,5
2. General introduction
1 09-12-16
2,3 1 1,2,5
3. INTERFERENCE: Introduction
1 10-12-16
2,3 1 4,5
4. Superposition of waves
1 13-12-16
2,3 1 3,5
5. Coherent sources
1 14-12-16
2,3 1 3,5
6. Interference from thin films
1 15-12-16
2,3 1 1,2,5
7. Tutorial
1 16-12-16
2,3
1 3,4
8. Wedge shaped film
1 17-12-16
2,3
1 1,2,5
9. Newton’s rings,
1 20-12-16
2,3
1 1,2,3,5
10. DIFFRACTION: Introduction –
Diffraction and wave theory of light 1 21-12-16
2,3 1 1,2,3,5
11. Comparison between Fresnel and
Fraunhofer’s diffractions, differences 1
22-12-16 1,2,3 1 1,2,3,5
between interference and diffraction,
12. Tutorial
1 23-12-16
1,2 1 1,2,3,5
13. Fraunhofer’s Single slit diffraction
1 24-12-16
1,2,3 1 1,2,5
14. Intensity in single slit diffraction,
calculating the intensity 1 27-12-16
2,3 1 1,2,3,4,5
15. Double slit diffraction , Double slit
interference and diffraction combined 1 28-12-16
1,2,3 1 3,4
16. Diffraction grating- Grating spectrum
1 29-12-16
1,2,3 1 1,2,5
17. Tutorial
1 30-12-16
1,2,3 1 1,2,3,5
18. POLARISATION: Introduction plane of
vibration and plane of polarization. 1 31-12-16
1,2,3 1 1,2,5
19. polarization by reflection, Brewster’s law
1 03-01-17
1,2,3 1 1,2,3,4
20. Geometry of Calcite crystal, Double
refraction 1
04-01-17 1,2,3 1 1,2,3,4
21. Nicol prism
1 05-01-17
1,2,3 1 1,2,5
22. Tutorial
1 06-01-17
1,2,3 1 1,2,3,5
23. Quarter wave and half wave plates.
1 07-01-17
1,2,3 1 3,4
24. Assignment
1 17-01-17
2,3 1 1,2,3,4
No. of classes required to complete UNIT-I 22 No. of classes taken
UNIT-II: PRINCIPLES OF QUANTUM MECHANICS
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
25. Introduction to quantum mechanics
1 18-01-17
1,2,3 1 1,2,3,4
26. de-Broglie hypothesis- Matter waves
1 19-01-17
1,2 1 1,2,3,4
27. Tutorial
1 20-01-17
1,2,3 1 1,2,3,5
28. Davison and Germer experiment
1 21-01-17
1,2,3 1 1,2,5
29. G.P Thomson experiment
1 24-01-17
1,2,3 1 1,2,3
30. Heisenberg’s Uncertainty principle
1 25-01-17
1,2 1 1,2,3,5
31. Schrödinger time independent wave
equation 1
27-01-17
1,2 1 1,2,5
32. Tutorial
1 28-01-17
1,2 1 1,2,3,4
33. Physical significance of wave function
1 31-01-17
1,2 1 1,2,3,4,5
34. particle in a box
1 01-02-17
1,2,3 1 1,2,3,5
35. Mid-1
1 02-02-17
1,2,3 1 1,2,3,5
36. Mid-1
1 03-02-17
1,2,3 1 1,2,3,5
37. Mid-1
1 04-02-17
1,2,3 1 1,2,3,5
No. of classes required to complete UNIT-II 10 No. of classes taken
UNIT-III: LASERS & FIBER OPTICS
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
38. LASERS: Introduction – characteristics of
Lasers 1 07-02-17
1,2,3 1 3,4
39. Principle of laser (Absorption, Spontaneous
and stimulated emission of radiation) 1 08-02-17
1,2,3 1 3,4
40. Einstein coefficients
1 09-02-17
1,2,3 1 1,2,5
41. Population inversion, three and four level
schemes 1 10-02-17
1,2,3 1 1,2,3,5
42. Pumping schemes, block diagram of laser
1 11-02-17
1,2,3 1 1,2,3,5
43. Ruby laser
1 14-02-17
1,2,3 1 1,2,3,5
44. He-Ne gas laser
1 15-02-17
1,2 1 1,2,3,5
45. Applications of laser
1 16-02-17
1,2 1 1,2,3,5
46. Tutorial
1 17-02-17
1,2 1 1,2,3,5
47. FIBER OPTICS Introduction- principle of
optical fibre 1 18-02-17
1,2 1 1,2,3,5
48. Acceptance angle –acceptance cone-
numerical aperture 1 21-02-17
1,2 1 1,2,5
49. Types of optical fibres
1 22-02-17
1,2 1 1,2,5
50. optical fibres based on refractive index
profile. 1 23-02-17
1,2,3 1 3,4
51. Applications of optical fibers
1 25-02-17
1,2,3 1 1,2,5
52. Tutorial
1 28-02-17
1,2 1 1,2,3,5
53. Assignment
1 01-03-17
1,2 1 1,2,5
No. of classes required to complete UNIT-III 16 No. of classes taken
UNIT-IV: MAGNETIC MATERIALS
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
54. Magnetic parameters-
1 02-03-17
1,2 1 1,2,5
55. origin of magnetic moment.
1 03-03-17
1,2 1 1,2,3,5
56. Classification of magnetic materials-Dia,
para , ferro magnetic materials 1
04-03-17 1,2,3 1 1,2,3,5
57. Anti ferromagnetic, ferrimagnetic materials
1 07-03-17
1,2,3 1 1,2,3,5
58. domain theory of ferro magnetism
1 08-03-17
1,2,3 1 1,2,3,5
59. Hysteresis curve-soft and hard magnetic
materials,. 1
09-03-17 1,2,3 1 1,2,3,5
60. applications of magnetic materials
1 10-03-17
1,2,3 1 1,2,3,5
61. Tutorial
1 11-03-17
1,2 1 1,2,3,5
62. Assignment
1 14-03-17
1,2 1 1,2,3,5
No. of classes required to complete UNIT-IV 09 No. of classes taken
UNIT-V: SUPERCONDUCTIVITY:
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
63. Phenomenon, Critical Parameters
1 15-03-17
1,2 1 1,2,3,5
64. Meissner Effect
1 16-03-17
1,2 1 1,2,3,5
65. Type I, Type II Super conductors
1 17-03-17
1,2 1 3,4,5
66. BCS theory of Super Conductivity
1 18-03-17
1,2,3 1 1,2,3,5
67. Flux quantization
1 21-03-17
1,2,3 1 1,2,3,5
68. London equations, penetration depth
1 22-03-17
1,2 1 1,2,3,5
69. Josephson effects
1 23-03-17
1,2 1 1,3,4,5
70. Applications of Super Conductors.
1 24-03-17
1,2 1 1,2,3,5
71. Tutorial
1 25-03-17
1,2 1 1,2,3,5
72. Assignment
1 29-03-17
1,2 1 1,2,3,5
73. Revision
1 30-03-17
1,2 1 1,2,3,5
74. Revision
1 31-03-17
1,2,3 1 3,4
75. Revision
1 01-04-17
1,2,3 1 3,4
76. Revision
1 04-04-17
1,2,3 1 1,2,5
77. Revision
1 06-04-17
1,2,3 1 1,2,3,5
78. Revision
1 07-04-17
1,2,3 1 1,2,3,5
79. Revision
1 08-04-17
1,2,3 1 3,4,5
No. of classes required to complete UNIT-V 10 No. of classes taken
Dr. T. Vasantha Rao Dr. T. Vasantha Rao Dr. T. Vasantha Rao Prof. A. Rami Reddy
Subject Teacher Course Coordinator Module Coordinator HOD
Assessment Summary:
Assessment Task Weight age
(Marks) Course Outcomes
CO1 CO2 CO3 CO4 CO5
Attendance/Assignments/Quiz’s 05
Mid Exams 20
End Exam 75
Total 100
Mapping of Course Outcomes (COs) with Programme Outcomes (POs):
CO Program Outcomes
Program Specific
Outcomes
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4
S 313.1
S 313.2
S 313.3
S 313.4
S 313.5
ACADEMIC YEAR : 2016-17 COURSE : B.Tech., (II-Sem.,)
BRANCH : Aerospace Engineering
SUBJECT : Basic Electronics Engineering (Code: S 145) FACULTY : Mr. K. Ravi Kumar
Contents of the Course File (Bottom to Top)
1. Attendance Registers
2. Syllabus Copy
3. Previous Semester (Old) Question Papers
4. Course Outcomes
5. Lesson Plan
6. UNIT I: Descriptive Questions, Quiz Questions, Tutorials
7. UNIT II: Descriptive Questions, Quiz Questions, Tutorials
8. I-MID Examination Question Paper with Scheme of Valuation
9. UNIT III: Descriptive Questions, Quiz Questions, Tutorials
10. UNIT IV: Descriptive Questions, Quiz Questions, Tutorials
11. UNIT V: Descriptive Questions, Quiz Questions, Tutorials
12. II-MID Examination Question Paper with Scheme of Valuation
13. End Examination Question Paper with Scheme of Valuation
14. Assessment and Evaluation of Attainment of COs and POs
Note: Conduct minimum of 12 tutorials per course ( 2 tutorials per unit)
ACADEMIC YEAR : 2016-17 COURSE : B.Tech., (II-Sem.,)
BRANCH : Aerospace Engineering
SUBJECT : Basic Electronics Engineering (Code: S 145) FACULTY : Mr. K. Ravi Kumar
COURSE OUTCOMES (COs)
At the end of the course, student will be able to
CO 1 : Apply various semiconductor devices in Engineering fields.
CO 2 : Analyze the operation and structure of various electronic circuits.
CO 3 : Examine the parameters and characteristics related to OP-AMP.
CO 4 : Apply the techniques of data conversion & Timer operation.
CO 5 : Analyze the basic Digital electronic circuits..
Subject Teacher Course Coordinator Module Coordinator HOD
LESSON PLAN
ACADEMIC YEAR : 2016-17 COURSE : B.Tech., (II-Sem.,)
BRANCH : Aerospace Engineering
SUBJECT : Basic Electronics Engineering (Code: S 145) FACULTY : Mr. K. Ravi Kumar
Process of Teaching, Learning, Delivery and Assessment Methods:
S.No Teaching Learning Process (TLP) Delivery Methods (DM) Assessment Methods (AM)
1 Solving Real world problem Chalk & Talk Assignments
2 Explaining application before theory ICT tools Quiz
3 Solving problems Group discussions Tutorials
4 Designing of experiments Industrial visit Surprise Tests
5 Problems on environmental,
economics, health & safety Field work Mid Exams
6 Problems on professional & ethics Case studies Model Exam
7 Seminar Mini Projects QAs
8 Problems using software Numerical treatment
9 Self study Design / Exercises
UNIT-I : Electronic Devices
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
1. Introduction to course 1 8-12-16
2. Syllabus and Course outcomes 1 9-12-16
3. Introduction and overview of Unit-I 1 10-12-16
4. Basics of Atom and Energy of electrons in an Atom
1 10-12-16
5. Introduction to Semiconductor 1 12-12-16
6. Intrinsic and Extrinsic Semiconductors 1 14-12-16
7. Concept of Hole 1 15-12-16
8. Tutorial-1 1 16-12-16
9. P-N diode and Depletion region 1 17-12-16
10. Operation of diode and its V-I characteristics, Breakdown
1 17-12-16
11. Problems on Diode 1 19-12-16
12. Zener Diode and its Characteristics 1 21-12-16
13. Photo Diode, LED 1 22-12-16
14. Assignment-1 and Exam 1 23-12-16
15. Introduction to BJT 1 24-12-16
16. BJT working 1 24-12-16
17. CE Charcteristics 1 26-12-16
18. Tutorial-2 1 28-12-16
19. BJT Vs Field Effect Transistor, Introduction to FET
1 29-12-16
20. n-channel FET construction and characteristics
1 30-12-16
21. Problems on BJT, FET 1 31-12-16
22. Assignment-2 and Exam 1 31-12-16
No. of classes required to complete UNIT-I 22 No. of classes taken
UNIT-II : Basic Electronic circuits
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
23. Introduction to Unit-II 1 2-1-17
24. PN junction diode as Halfwave rectifier 1 4-1-17
25. PN diode as Fullwave Rectifier 1 5-1-17
26. Center tapped Full wave rectifier 1 6-1-17
27. Problems on Rectifiers 1 7-1-17
28. Tutorial-3 1 7-1-17
29. Diode Clippers 1 16-1-17
30. Clampers 1 18-1-17
31. Problems on clippers and clampers 1 19-1-17
32. Assignment-3 and Exam 1 20-1-17
33. Zener diode as voltage regulator 1 21-1-17
34. BJT as amplifier 1 21-1-17
35. Sillicon Controlled Rectifier 1 23-1-17
36. Tutorial-4 1 25-1-17
37. UJT transistor 1 26-1-17
38. Assignment-4 and Exam 1 27-1-17
39. Doubts clarification in Unit-I and Unit-II. 1 28-1-17
40. Revision on Unit-1 1 28-1-17
41. Revision on Unit-2 1 30-1-17
42. Revision on Problems of Unit-1 & 2 1 1-2-17
No. of classes required to complete UNIT-II 20
No. of classes taken
UNIT-III : Operational Amplifiers
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
43. Introduction to Op-Amp
1 6-2-17
44. Op-Amp Block Diagram
1 8-2-17
45. Packages Types and Temperature ranges
1 9-2-17
46. Features of IC 741
1 10-2-17
47. Power supply requirements to operate IC
741 1 11-2-17
48. Ideal and practical Characteristics
1 11-2-17
49. Tutorial-5
1 13-2-17
50. DC characteristics
1 15-2-17
51. AC characteristics
1 16-2-17
52. Assignment-5 and Exam
1 17-2-17
53. Specifications of Op-Amp
1 18-2-17
54. Measurement of Slew Rate
1 18-2-17
55. Tutorial-6
1 20-2-17
56. CMRR
1 22-2-17
57. Continue of CMMR
1 23-2-17
58. Assignment-6 and Exam 1 24-2-17
No. of classes required to complete UNIT-III 16 No. of classes taken
UNIT-IV : Timers and Data Converters
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
59. Introduction to timers and converters
1 25-2-17
60. 555 timer functional, Pin diagram
1 25-2-17
61. Monostable operation
1 27-2-17
62. Astable operation
1 1-3-17
63. Tutorial-7
1 2-3-17
64. Applications of 555 timer
1 3-3-17
65. Assignment-7 and Exam
1 4-3-17
66. Introduction to DAC
1 4-3-17
67. Weighted Resistor DAC
1 6-3-17
68. R-2R ladder
1 8-3-17
69. Inverter R-2R ladder
1 9-3-17
70. Problems on DAC
1 10-3-17
71. Tutorial-8
1 11-3-17
72. Introduction to ADC
1 11-3-17
73. Flash type
1 13-3-17
74. Counter type ADC
1 15-3-17
75. Doubts clarification
1 16-3-17
76. Assignment-8 and Exam
1 17-3-17
No. of classes required to complete UNIT-IV 18 No. of classes taken
UNIT-V : Basic Digital Electronics
S.No. Topics to be covered No. of
Classes
Tentative
Date
Actual
Date TLP DM AM
77. Introduction to Number Systems
1 18-3-17
78. Code conversion
1 18-3-17
79. Binary codes
1 20-3-17
80. BCD, Excess-3 codes, Gray code
1 22-3-17
81. Tutorial-9
1 24-3-17
82. Demorgans Theorem
1 25-3-17
83. K-Map
1 25-3-17
84. Assignment-9
1 27-3-17
85. Logic gates – Xor, XNor
1 29-3-17
86. Introduction to Combinational circuits
1 30-3-17
87. Continue of combinational circuits
1 31-3-17
88. Introduction to Sequential circuits
1 1-4-17
89. Continue of sequential circuits
1 1-4-17
90. Tutorial-10
1 3-4-17
91. Introduction to microprocessor,
Controller 1 5-4-17
92. Assignment-10 and Exam
1 6-4-17
93. Doubts Clarification
1 7-4-17
No. of classes required to complete UNIT-V 13
No. of classes taken
Total Classes 89
Introduction to Differential Amplifiers
6-2-17
Boolean simplification using Quine-Mccluesky
Method
27-3-17
Subject Teacher Course Coordinator Module Coordinator HOD
Assessment Summary:
Assessment Task Weight age
(Marks) Course Outcomes
CO1 CO2 CO3 CO4 CO5
Attendance/Assignments/Quiz’s 05
Mid Exams 20
End Exam 75
Total 100
Mapping of Course Outcomes (COs) with Programme Outcomes (POs): POs
COs PO-a PO-b PO-c PO-d PO-e PO-f PO-g PO-h PO-i PO-j PO-k
CO1
CO2
CO3
CO4
CO5
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING(AUTONOMOUS) L.B.Reddy Nagar, Mylavaram – 521 230.Andhra Pradesh, INDIA Affiliated to JNTUK, Kakinada & Approved by AICTE New Delhi
Accredited by NBA, New Delhi & certified by ISO 9001:2008
Department of Aerospace Engineering
Course: B.Tech (II sem) AY:2016-17
Lesson Plan for Introduction to Engineering Mechanics (S282)
Sl.
No.
Tentative
Date Topics to be covered
Actual
Date
No.
of
classes
Content
Delivery
Methods
Unit I- RESULTANT OF FORCE SYSTEM AND EQUILIBIUM OF SYSTEM OF FORCES
1 09-12-15 Introduction to Engg. Mechanics, Basic Concepts 1 DM1
2 12-12-15 Resultant of Forces, Coplanar Concurrent Forces 1 DM1/DM2
3 12-12-15 Coplanar Concurrent Forces problems 1 DM1
4 14-12-16 Resultant of Coplanar Non-Concurrent Forces. 1 DM1
5 16-12-16 Tutorial 1 DM2
6 19-12-16 Coplanar Non-Concurrent Forces problems, Moment 1 DM1/DM2
7 19-12-16 Moment of Force and its Applications 1 DM1
8 20-12-16 Couples and Resultant of Force Systems 1 DM1
9 20-12-16 Couples and Resultant of Force Systems 1 DM1
10 21-12-16 Tutorial 1 DM2
11 23-12-16 Introduction to Equilibrium of Systems of Forces 1 DM1
12 26-12-16 Free Body Diagrams, Exercises 1 DM4
13 26-12-16 Equations of Equilibrium of Coplanar Systems 1 DM1
14 27-12-16 Equations of Equilibrium of Coplanar Systems 1 DM1/DM2
16 27-12-16 Tutorial 1 DM2
16 28-12-16 Lami’s Theorem 1 DM1
17 30-12-16 Lami’s Theorem Problems 1 DM1/DM2
18 02-01-17 Equilibrium of connected bodies 1 DM1
UNIT-II FRICTION
19 02-01-17 Introduction to Friction 1 DM1
20 03-01-17 Types of friction 1 DM1
21 03-01-17 Classification of friction 1 DM2
22 04-01-17 Law of Friction, Angle of Friction, Repose angle 1 DM1
23 06-01-17 Tutorial 1 DM1
24 16-01-17 Friction on bodies resting on horizontal plane 1 DM1/DM2
25 16-01-17 Friction on bodies resting on horizontal plane 1 DM1
26 17-01-17 Friction on bodies resting on horizontal plane 1 DM2
27 17-01-17 Friction on bodies resting on Inclined plane 1 DM1
28 18-01-17 Tutorial 1 DM1/DM2
29 20-01-17 Friction on bodies resting on Inclined plane 1 DM1
30 23-01-17 Friction on bodies resting on Inclined plane 1 DM1
31 23-01-17 Friction on bodies resting on Inclined plane 1 DM2
32 24-01-17 Wedge friction 1 DM1/DM2
33 24-01-17 Wedge friction 1 DM1
34 25-01-17 Roller Friction 1 DM1
35 27-01-17 Roller Friction 1 DM1
36 30-01-17 Tutorial 1 DM1/DM2
37 30-01-17 Ladder Friction 1 DM1
38 31-01-17 Ladder Friction 1 DM4
39 31-01-17 Revision of First Unit 1 DM1
40 01-02-17 Revision of Second Unit 1 DM1/DM2
Unit III- CENTROID AND AREA MOMENT OF INERTIA
41 06-02-17 Introduction to Centriod 1 DM1
42 06-02-17 Use of Axis of Symmetry 1 DM1
43 07-02-17 Determination of centriod for Triangle, semicircle 1 DM1
44 07-02-17 Determination of centriod for quarter circle, parabola 1 DM1/DM2
45 08-02-17 Tutorial 1 DM1
46 10-02-17 centriod for ellipse, composite sections 1 DM1
47 13-02-17 Area Moment of Inertia 1 DM1/DM2
48 13-02-17 Theorems of AMOI 1 DM1/DM2
49 14-02-17 AMOI of circle, Rectangle 1 DM1
50 14-02-17 Tutorial 1 DM1
51 15-02-17 AMOI of hallow circle, Semicircle 1 DM1/DM2
52 17-02-17 AMOI of Quarter of a circle, Triangle 1 DM1
53 20-02-17 AMOI of Composite areas 1 DM2
54 20-02-17 AMOI of Composite areas 1 DM1
55 21-02-17 Tutorial 1 DM1/DM2
56 21-02-17 AMOI of Composite areas 1 DM1
57 22-02-17 AMOI of Composite areas 1 DM1
Unit IV- CENTER OF GRAVITY AND MASS MOMENT OF INERTIA
58 27-02-17 Centre of gravity 1 DM1
59 27-02-17 Determination of centre of gravity from first principles 1 DM1
60 28-02-17 CG For basic bodies 1 DM1
61 28-02-17 CG For basic bodies 1 DM1/DM2
62 01-03-17 Tutorial 1 DM1
63 03-03-17 Mass Moment of Inertia, Introduction 1 DM2
64 06-03-17 MMOI of Uniform Rod, Rectangular Plate 1 DM1
65 06-03-17 MMOI of Circular Ring, Solid Cylinder 1 DM1/DM2
66 07-03-17 MMOI of Prism, 1 DM1
67 07-03-17 Tutorial 1 DM1
68 08-03-17 MMOI of cone 1 DM2
69 10-03-17 MMOI of Solid Sphere 1 DM1/DM2
70 13-03-17 Radius of Gyration 1 DM1
71 13-03-17 MMOI of composite bodies 1 DM6
72 14-03-17 Tutorial 1 DM1
73 14-03-17 MMOI of composite bodies 1 DM1
Unit V- KINEMATCA AND PROJECTILES
74 15-03-17 Types of motion, Rectilinear motion, Motion curves 1 DM1/DM2
75 17-03-17 Motion with uniform Acceleration (Derivation) 1 DM1
76 20-03-17 Problems on Uniform acceleration DM2
77 20-03-17 Problems on Uniform acceleration 1 DM1
78 21-03-17 Tutorial 1 DM1/DM2
79 21-03-17 Problems on Varying acceleration 1 DM1
80 22-03-17 Problems on Varying acceleration 1 DM1
81 24-03-17 Projectiles Definitions and derivations 1 DM1
82 27-03-17 Horizontal Projection 1 DM1/DM2
83 27-03-17 Tutorial 1 DM1
84 29-03-17 Inclined Projection 1 DM2
85 31-03-17 Inclined Projection 1 DM1
86 03-04-17 Inclined projection with point of projection and point
of strike at different levels. 1 DM1/DM2
87 03-04-17 Inclined projection with point of projection and point
of strike at different levels. 1
DM1
88 04-04-17 Revision 1 DM1
89 04-04-17 Revision 1 DM1
90 05-04-17 Revision 1 DM1/DM2
91 07-04-17 Revision
Total class 91
Total number of classes available as per academic
calendar 91
Number of classes required to complete the
syllabus 88
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
Course Outcomes:
To understand different types of force systems and to understand the equilibrium of bodies
with the help of free body diagrams and with some theorems.
To acquire knowledge about importance and influence of friction on different bodies at
static state.
Applying the symmetry principles to find centriod and centre of gravity and also to apply
some theorems to find area and mass moment of inertia.
To analyze, motion of bodies (with uniform and varying accelerations) and motion of
projectiles.
TEXT BOOKS
1. S.S. Bhavikatti, Engineering Mechanics, New Age International (P) Ltd.
2. N.H.Dubey, McGraw Hill, Engineering Mechanics,
REFERENCE BOOKS
1 Fedinand, L. Singer, Harper – Collins, Engineering Mechanics.
2 B.Bhattacharya, Engineering Mechanics, Oxford University Press
3. A.K.Tayal, Engineering Mechanics, Umesh Publications
4. R.K.Bansal, Engineering Mechanics, Laxmi Publications
5. Manoj K Harbola, Cengage Learning ,Engineering Mechanics.
PO's Mapping With CO's:
Mapping of Course Outcomes (COs) with Programme Outcomes (POs) IEM - S 282
POs
a b c d e f g h i j k l
CO
s
CO1 1 1 1 2 1 1 1 2
CO2 1 1 1 1 2 2 1 1
CO3 1 1 1 2 2 1 2 1
CO4 1 1 1 1 2 2 3 1
CO5 1 1 1 1 2 2 3 1
Signature
Name of the Faculty Name of Course Co-ordinator HOD
I. Dakshina Murthy Dr.P.Lovaraju