COURSE FILE
Department of Mechanical Engineering
COURSE FILE CONTENTS
PART 1 – COURSE DESIGN
1) Course Plan
2) Guide lines to Study the Course
3) Course Objectives
4) Course Outcomes
5) Mapping of Course Outcomes and Program
Outcomes
6) Course-Program Outcome (Course-PO) Matrix
7) Course Outcome-Program Outcome (CO-PO)
Matrix
8) Comprehensive Schedule of Instructions
9) Bridge Course Contents
10) Course Delivery Plan
11) Course Completion Status
12) Details of Tutorial Tests
13) Details of Assignments
14) Details of Best and Worst Case Marks
15) Details of Remedial Classes for Slow Learners
16) Details of Contents Delivered Beyond
Syllabus
17) Details of Self Learning Tools used
18) Any other related information by the
faculty
PART 2 - SUPPORTING ARTIFACTS
1) Academic Calendar
2) Syllabus Copy
3) Time Table
4) Nominal Rolls of the Students
5) Mid Term Exam Question Papers along
with scheme of evaluation
6) Marks Statements of Mid Term Exams
with analysis.
7) Photo copies of best case and worst
case answer scripts of Mid Term Exams.
8) Marks statements of Tutorial Tests and
Assignments with analysis.
9) Samples of Tutorial Tests and Assignments
Answer Scripts.
10) University Term End Exam Question
Papers
11) Marks Statements of University Term
End Exams with analysis.
12) Course Feed Back
13) Attainment of Course Outcomes and
Program Outcomes.
14) Identification of Gaps and Measures
for the next cycle
15) Course material including handouts, lecture
notes, Power point presentations, information of text books and web sites etc.
ANNEXURE
I:Program Specific Outcomes (PSOs)
ANNEXURE
II:Program Outcomes (POs) as per National
Board of Accreditation (NBA)
Department of Mechanical Engineering
COURSE FILE
Academic Year: 2019-2020 Branch/Year/Sem.: ME II-II
PART 1
COURSE DESIGN
Department of Mechanical Engineering
COURSE FILE
Academic Year: 2018-2019 Branch/Year/Sem.: ME II-II
Faculty Details
Name of the Faculty: K.Naga Gowri
Designation: Assistant Professor Department : ME
Email
ID: nagagowri.k82@gmail.com Contact
Number: +91 9848191609
Course
Coordinator: K.Naga Gowri Designation:
Assistant Professor Department : ME
Email
ID: nagagowri.k82@gmail.com Contact Number: +91 9848191609
Course Details
Name of the Course :
B.Tech. Batch : 2018
Branch : ME Regulations : R15
Year/Semester :
II /II Class
Strength : 59
Title of the Subject : THERMAL ENGINEERING-I Subject Code : 15A03403
Nature of the Subject: Core (Core/Interdisciplinary/Humanities and
Sciences)
No. of Weeks : 17 Weeks
Hours and Credits:
|
Theory Hours |
Lab Hours |
Credits |
|
3 |
3 |
3 |
Room Number
: 107
|
Attach
the following sheets. 1) Academic Calendar 2) Syllabus Copy 3) Time Table 4) Nominal Rolls of the Students 5) Mid Term Exam Question Papers along
with scheme of evaluation 6) Marks Statements of Mid Term Exams
with analysis. 7) Photo copies of best case and worst
case answer scripts of Mid Term Exams. 8) Marks statements of Tutorial Tests
and Assignments with analysis. 9) Samples of Tutorial Tests and Assignments
Answer Scripts. 10) University Term End Exam Question
Papers 11) Marks Statements of University Term
End Exams with analysis. 12) Course Feed Back 13) Attainment of Course Outcomes and
Program Outcomes. 14) Identification of Gaps and Measures
for the next cycle 15) Course material including handouts,
lecture notes, Power point presentations, information of text books and web
sites etc. ANNEXURE
I: Program Specific Outcomes (PSOs) ANNEXURE
II: Program Outcomes (POs) as per
National Board of Accreditation (NBA) |
Department of Mechanical Engineering
COURSE PLAN
Academic Year: 2019-2020 Branch/Year/Sem.: ME II-II
Subject: THERMAL ENGINEERING-I Subject
Code: 15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : K.NAGA GOWRI
1. Target:
1.1.
Pass Percentage: 100%
1.2.
1st Class Percentage:85%
2. Teaching
- Learning Methods/Tools:
(Please write how you intend to cover
the contents: i.e., coverage of units by lectures, guest lectures, design
exercises, solving numerical problems, demonstration of models, model
preparation, or by assignments etc.)
|
S No |
Method |
Tick |
|
S No |
Method |
Tick |
|
i |
Chalk and Talk |
ü |
|
Vi |
Assignment/Quiz |
ü |
|
Ii |
Tutorial Hours |
ü |
|
Vii |
Lab
Demos/Programming |
ü |
|
Iii |
Power Point
Presentations |
ü |
|
viii |
Seminars |
ü |
|
iv |
Video Based
Lectures |
|
|
Ix |
Group Discussion |
|
|
v |
Problem Solving |
|
|
x |
Project Based
Learning/ Case Study |
|
3 Prerequisite
for the Course
Knowledge of the following concepts
is essential: THYERMODYNAMICS
4. Course
Contents:
As Prescribed by JNTUA
Anantapuramu.
5. Contents beyond the syllabus:
6. Self-Learning
Resources: NPTEL Classes
7.
Method of Evaluation:
3.1
Continuous Assessment Examinations : Yes
3.2
Assignments / Seminars : Yes
3.3
Mini Projects : No
3.4
Subjective and Objective tests as per University Norms : Yes
3.5
Tutorial tests: Yes
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
GUIDE LINES TO STUDY THE COURSE
Academic Year: 2019-2020 Branch/Year/Sem.: ME II-II
Subject: THERMAL ENGINEERING-I Subject
Code: 15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : R.NARASAMMA
Following
are the guidelines to study the subject:
1. After Completion of all the units refer the textbook “Engineering Drawing”,
K.L. Narayana & P. Kannaih,”
2. Prepare solutions for each chapter in the textbook.
3. Refer the NPTEL video lectures for each concept.
4. Solve the Previous question papers.
5. Practice more number of problems using your drawing instruments.
Signature of HOD Signature of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE OBJECTIVES
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: THERMAL ENGINEERING-I Subject Code:
15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : R.NARASAMMA
|
S. No |
Objectives |
|
1.
|
The objective of this subject is to impart the knowledge of engine
components, working principles of IC engines, auxiliary systems, the
combustion aspects of SI and CI engines in addition to the methods of
improving performance. The students shall become aware on the latest
developments in the field of IC engines like MPFI , CRDI etc. and also shall
become familiar about the working of Reciprocating and Rotary Compressors.
The student also shall apply the thermodynamic concepts in IC engines and
compressors. |
|
2.
|
principles of IC
engines, auxiliary systems . |
|
3.
|
Teach the practices for accuracy and clarity in
presenting the technical information . |
|
4.
|
Develop
the engineering imagination essential for successful design. |
|
5.
|
Instruct the utility of drafting
& modeling packages in orthographic and isometric drawings. |
|
6.
|
Train the usage of 2D and 3D modeling |
|
7.
|
Instruct graphical representation of
machine components |
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE OUTCOMES
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: THERMAL ENGINEERING-I Subject
Code: 15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : R.NARASAMMA
Upon
completion of the course students will be able to
|
Course Outcomes |
|
|
CO1 |
Interpretation
and construction of scales and various curves which include ellipse, parabola, hyperbola and cycloids. |
|
CO2 |
Analyze and draw the orthographic projections of points, lines,
planes and solids. |
|
CO3 |
Sketch the sections of solids. |
|
CO4 |
Development
of Surfaces of Right Regular Solids. |
|
CO5 |
Translate 2D objects into 3D objects and 3D
objects into 2D objects . |
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
MAPPING OF COURSE OUTCOMES AND PROGRAMME OUTCOMES
Academic Year: 2019-2020 Branch/Year/Sem.: ME
II-II
Subject: THERMAL ENGINEERING-I Subject
Code: 15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : R.NARASAMMA
|
Course Outcome |
POs |
Class Sessions |
|
|
CO1 |
Interpretation
and construction of scales and various curves which include ellipse, parabola, hyperbola and cycloids. |
PO1 & PO2 |
24 |
|
CO2 |
Analyze and draw the orthographic projections of points, lines,
planes and solids. |
PO1 & PO2 |
24 |
|
CO3 |
Sketch the sections of solids. |
PO2 & PO3 |
12 |
|
CO4 |
Development
of Surfaces of Right Regular Solids. |
PO3 |
09 |
|
CO5 |
Translate 2D objects into 3D objects and 3D
objects into 2D objects . |
PO7 |
01 |
|
Total
Hours of instruction |
70 |
Signature of HOD Signature of
Faculty
Date: Date:
Department of Mechanical Engineering
COURSE-PROGRAMME OUTCOME (COURSE-PO) MATRIX
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: THERMAL ENGINEERING-I Subject
Code: 15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : R.NARASAMMA
24 of 70 (34.28%) sessions are contributed to PO1. Course Level PO1 mapping strength is 3
30 of 70 (42.85%) sessions are contributed to PO2. Course Level PO2 mapping strength is 3
15 of 70 (21.42%) sessions are contributed to PO3. Course Level PO3 mapping strength is 2
Mapping
Strength Scale:
|
=>40% |
=>20% & <40% |
=>5% & <20% |
<5% |
|
3 |
2 |
1 |
0 |
Course and
POs/PSOs mapping strengths table:
|
Course |
PO1 |
PO2 |
PO3 |
PO4 |
PO5 |
PO6 |
PO 7 |
PO8 |
PO9 |
PO10 |
PO 11 |
PO 12 |
|
COs |
2 |
3 |
2 |
0 |
0 |
0 |
1 |
0 |
0 |
0 |
0 |
0 |
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE OUTCOME-PROGRAMME OUTCOME (CO-PO) MATRIX
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: THERMAL ENGINEERING-I Subject
Code: 15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : R.NARASAMMA
|
Cos |
PO 1 |
PO 2 |
PO 3 |
PO 4 |
PO 5 |
PO 6 |
PO 7 |
PO 8 |
PO 9 |
PO 10 |
PO 11 |
PO 12 |
|
CO1 |
1 |
1 |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
|
CO2 |
1 |
1 |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
|
CO3 |
- |
1 |
1 |
- |
- |
- |
- |
- |
- |
- |
- |
- |
|
CO4 |
- |
- |
1 |
- |
- |
- |
- |
- |
- |
- |
- |
- |
|
CO5 |
- |
- |
- |
- |
- |
- |
1 |
- |
- |
- |
- |
- |
|
course |
3 |
3 |
3 |
- |
- |
- |
2 |
- |
- |
- |
- |
- |
Explanation:
|
PO1 Values: Total number of
Sessions assigned to PO1: 24 Contributors of
PO1 are CO1 (12 sessions) and CO2 (24 sessions). Contribution of
CO1 to PO1 is 12/24=50%. Mapping strength is 1. Contribution of
CO2 to PO1 is 24/24=50%. Mapping Strength is PO2 Values: Total number of
Sessions assigned to PO1: 24 Contributors of
PO2 are CO1 (12 sessions), CO2 (12 sessions) and CO3 (12 sessions). Contribution of
CO1 to PO1 is 12/36=33.33%. Mapping strength is 1 Contribution of
CO2 to PO1 is 12/36=33.33%. Mapping strength is 1. Contribution of
CO3 to PO1 is 24/36=33.33%. Mapping Strength is 1 |
PO3 Values: Total
number of Sessions assigned to PO3: 21 Contributors of
PO2 are CO3 (12 sessions), and CO4 (12 sessions). Contribution of
CO3 to PO3 is 12/21=33.33%. Mapping strength is 1 Contribution of
CO4 to PO1 is 12/21=33.33%. Mapping strength is 1. PO7 Values: Total
number of Sessions assigned to PO7: 01 Contributors of
PO2 are CO5 (1 session), and CO5 (1 sessions). |
Mapping Strength Scale:
|
=>40% |
=>20%
&<40% |
=>5%
&<20% |
<5% |
|
|
|
|
|
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COMPREHENSIVE SCHEDULE OF INSTRUCTIONS
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: K.NAGA GOWRI
Course Coordinator : R.NARASAMMA
Expected date of completion of the whole
Subject / Course and remarks, if any:
|
S.No |
Unit No |
Description |
Duration (Dates) |
Total No. of Periods |
|
|
From |
To |
||||
|
1.
|
PART - A |
Introduction to Engineering graphics: Principles of Engineering Graphics and their significance-Conventions in drawing-lettering - BIS conventions. a) Conic sections including the rectangular hyperbola- general method only, b) Cycloid, epicycloids and hypocycloid c)
Involutes |
|
|
11 |
|
2.
|
PART - A |
Projection
of points, lines and planes: Projection of points in any quadrant, lines inclined to one or both planes, finding true lengths, angle made by line. Projections of regular plane surfaces. Projections of solids: Projections of regular solids inclined to one or both planes by rotational or auxiliary views method. Sections of solids: Section planes and sectional view of right regular solids- prism, cylinder, pyramid
and cone. True shapes of the sections. Development of surfaces: Development of surfaces of right regular solids-prism, cylinder, pyramid,
cone and their sectional parts. |
|
|
37 |
|
3.
|
PART - B |
Introduction to AutoCAD: Basic drawing and editing commands: line, circle, rectangle, erase, view, undo, redo, snap, object editing, moving, copying, rotating, scaling, mirroring, layers, templates, polylines, trimming, extending, stretching, fillets, arrays, dimensions. Dimensioning principles and conventional
representations |
|
|
4 |
|
4.
|
PART - B |
Orthographic Projections: Systems of projections,
conventions and application to orthographic projections |
|
|
9 |
|
5.
|
PART - B |
Isometric Projections: Principles of isometric projection- Isometric scale; Isometric views: lines, planes, simple solids. |
|
|
9 |
Remarks (if any):
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE DELIVERY PLAN
Academic Year: 2019-2020 Branch/Year/Sem:
ECE I-II & EEE I-II
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA & K.
Sagar Kumar
Course Coordinator: R.NARASAMMA
|
PART - A |
|||||||
|
S. No |
Topic |
No. Of Classes Required |
Course Outcome |
Tentative Date of Completion |
Actual Date of Completion |
Teaching Learning Method |
Remarks if any. |
|
1 |
Introduction to
Engineering graphics: Principles of Engineering Graphics and their significance-Conventions
in drawing-lettering - BIS conventions. |
2 |
CO1 |
22/02/2020 |
22/02/2020 |
Chalk and Talk |
|
|
2 |
Conic sections including the rectangular hyperbola-
general method only |
5 |
CO1 |
29/02/2020 |
29/02/2020 |
Chalk and PPTs |
|
|
3 |
Cycloid, epicycloids and hypocycloid c)
Involutes |
4 |
CO1 |
04/02/2020 |
04/02/2020 |
Chalk and Talk |
|
Remarks (if any):
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE DELIVERY PLAN
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator: R.NARASAMMA
|
PART - A |
|||||||
|
S. No |
Topic |
No. Of Classes Required |
Course Outcome |
Tentative Date of Completion |
Actual Date of Completion |
Teaching Learning Method |
Remarks if any. |
|
1 |
Projection of points,
lines and planes: Projection of points in
any quadrant |
3 |
|
|
|
Chalk and Talk |
|
|
2 |
lines inclined to one or both planes, finding true lengths, angle made by line. |
9 |
|
|
|
Chalk and Talk |
|
|
3 |
Projections of regular plane surfaces. |
6 |
|
|
|
Chalk and Talk |
|
|
4 |
Projections of solids: Projections of regular solids inclined to one or both planes by rotational or auxiliary views method. |
9 |
|
|
|
Chalk and Talk |
|
|
5 |
Sections of solids: Section planes and sectional view of right regular solids- prism, cylinder, pyramid
and cone. True shapes of the sections. |
6 |
|
|
|
Slip test |
|
|
6 |
Development of surfaces: Development of surfaces of right regular solids-prism, cylinder, pyramid, cone and their sectional parts |
4 |
|
|
|
Chalk and Talk |
|
Remarks (if any):
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE DELIVERY PLAN
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
PART - B |
|||||||
|
S. No |
Topic |
No. Of Classes Required |
Course Outcome |
Tentative Date of Completion |
Actual Date of Completion |
Teaching Learning Method |
Remarks if any. |
|
1 |
Computer
Aided Drafting: Introduction to AutoCAD: Basic drawing and editing
commands: line, circle, rectangle, erase,view, undo, redo, snap, |
1 |
|
|
|
Chalk and Talk |
|
|
2 |
object editing, moving, copying, rotating, scaling, mirroring, layers, templates |
1 |
|
|
|
Chalk and Talk |
|
|
3 |
polylines, trimming, extending, stretching, fillets, arrays, dimensions. |
1 |
|
|
|
Chalk and Talk |
|
|
4 |
Dimensioning principles and conventional representations. |
1 |
|
|
|
Chalk and Talk |
|
Remarks (if any):
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE DELIVERY PLAN
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
PART - B |
|||||||
|
S. No |
Topic |
No. Of Classes Required |
Course Outcome |
Tentative Date of Completion |
Actual Date of Completion |
Teaching Learning Method |
Remarks if any. |
|
1 |
Orthographic Projections: Systems of projections, conventions and application to orthographic projections. . |
3 |
|
|
|
Chalk and Talk |
|
|
2 |
Systems of projections, conventions and application to
orthographic projections |
3 |
|
|
|
Chalk and Talk |
|
|
3 |
Systems of projections, conventions and application to
orthographic projections |
3 |
|
|
|
Chalk and Talk |
|
Remarks (if any):
Signature of HOD Signature
of Faculty
Date:
Date:
Department of Mechanical Engineering
COURSE DELIVERY PLAN
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
PART - B |
|||||||
|
S. No |
Topic |
No. Of Classes Required |
Course Outcome |
Tentative Date of Completion |
Actual Date of Completion |
Teaching Learning Method |
Remarks if any. |
|
1 |
Isometric
Projections: Principles of isometric projection- |
1 |
|
|
|
Chalk and Talk |
|
|
2 |
Isometric scale; |
2 |
|
|
|
Chalk and Talk |
|
|
3 |
Isometric views: lines, |
2 |
|
|
|
Chalk and Talk |
|
|
4 |
Isometric views: planes |
2 |
|
|
|
Chalk and Talk |
|
|
5 |
Isometric views: simple solids |
2 |
|
|
|
Chalk and Talk |
|
Remarks (if any):
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
COURSE COMPLETION STATUS
Academic Year: 2019-2020 Branch/Year/Sem.:
CSE I-I & ME I-I
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
S.No |
Unit No |
Description |
Duration (Dates) |
Total No. of Periods |
|
|
Proposed Date of Completion |
Actual Date of Completion |
||||
|
1 |
|
|
|
|
|
|
2 |
|
|
|
|
|
|
3 |
|
|
|
|
|
|
4 |
|
|
|
|
|
|
5 |
|
|
|
|
|
|
6 |
|
|
|
|
|
Remarks (if any):
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
DETAILS OF TUTORIAL TESTS
Academic Year: 2019-2020 Branch/Year/Sem.:
ME II-II
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
This Tutorial is concerned to Unit Number/s:
(Please write the Questions/ Problems/
Exercises. Which you would like to give to the students)
|
Question Number |
Date |
Tutorial Question |
Mapping of Course Outcomes |
||
|
1 |
5/07/18 |
|
CO 1 |
||
|
2 |
12/07/18 |
|
CO 2 |
||
|
3 |
18/07/18 |
|
CO 3 |
||
|
4 |
27/09/18 |
|
CO 4 |
||
|
5 |
4/10/18 |
|
CO 5 |
||
|
6 |
25/10/18 |
|
CO 6 |
||
|
5 |
4/10/18 |
|
CO 7 |
Remarks (if any):
Signature of HOD Signature
of Faculty
Date:
Date:
Department of Mechanical Engineering
DETAILS OF ASSIGNMENTS
Academic Year: 2019-2020
Branch/Year/Sem.: ME II-II
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
S.No. |
UNIT |
Date |
Assignment Question |
Course Outcomes |
|
1 |
I |
03/07/18 |
(a)Derive the expression by which the mean square error can be
evaluated. (b) Differentiate orthogonal signal space and orthonormal signal
space. Discuss clearly their applications with regard to representing an
unknown time varying signal. |
CO1 |
|
2 |
I |
21/07/18 |
Explain how a function can be approximated by a set of
orthogonal functions. |
CO1 |
|
3 |
II |
10/08/18 |
Explain the conditions under which
any periodic waveform can be expressed using Fourier series. |
CO2,
CO3 |
|
4 |
II |
28/08/18 |
Find the cosine Fourier series of a
half wave rectified sine function. |
CO2,
CO3 |
|
5 |
III |
9/09/18 |
Show that the Fourier transform of a Sinc function; y(t) = A
Sinc(2wt) is a gate function. Also sketch both the functions. |
CO3 |
|
6 |
III |
23/09/18 |
Determine DTFT of the following
signal: x(n) = 4(2n ) u(n).Find the magnitude. |
CO4 |
|
7 |
IV |
8/10/18 |
The input and output of a causal LTI
system are related by the differential equation: d2 y(t)/dt2 + 6dy(t)/dt +
8y(t) = 2x(t) |
CO4,
CO5 |
|
8 |
IV |
17/10/18 |
(i)
Find the impulse response of the system. (ii) What is the
response of this system if x(t) = t e-2t u(t) |
CO5,
CO6 |
|
9 |
V |
10/11/18 |
The system function of the LTI
system is given as H(Z) = (3-4(Z-1 )) / (1 - 3.5Z-1 + 1.5Z-2 ). Specify the
ROC of H(Z) and determine h(n) for the following condition: (i) Stable
system. (ii) Causal system. |
CO6 |
|
10 |
V |
24/11/18 |
A system is described by the differential
equation: d2 y(t)/dt2 +3dy(t)/dt + 2y(t) = dx(t)/dt if y(0) = 2; dy(0)/dt = 1
and x(t) = e-t u(t) Use Laplace transform to determine the response of the
system to a unit step input applied at t = 0. |
CO7 |
Remarks (if any):
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
DETAILS OF BEST AND WORST CASE MARKS
Academic Year: 2019-2020 Branch/Year/Sem.:
ME II-II
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
S.No. |
Mid Exams |
Maximum Marks |
Best Marks |
Worst Marks |
Remarks |
|
1 |
Descriptive Test 1 |
20 |
18 |
11 |
|
|
2 |
Descriptive Test 2 |
20 |
19 |
10 |
|
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
DETAILS OF REMEDIAL CLASSES FOR SLOW LEARNERS
Academic Year: 2019-2020 Branch/Year/Sem.:
ME II-II
Subject: ENGINEERING GRAPHICS
Subject Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
S. No |
Date |
No. of Periods |
Subject Topics / Sub-Topics |
Course Outcome |
Remarks if any. |
|
1 |
2/11/18 |
1 |
Classification of
signals, energy and power signals |
CO1 |
|
|
2 |
2/11/18 |
1 |
Mean square error |
CO2 |
|
|
3 |
3/11/18 |
1 |
Properties of Fourier transform |
CO3 |
|
|
4 |
4/11/18 |
1 |
Sampling theorem of low
pass signals |
CO4 |
|
|
5 |
5/11/18 |
1 |
LTI system |
CO5 |
|
|
6 |
5/11/18 |
1 |
Continuous and / or
discrete time systems |
CO6 |
|
|
7 |
6/11/18 |
1 |
DTFT and Z-transform |
CO7 |
|
|
Total No. of Periods |
7 |
Course Outcomes Addressed |
CO1, CO 2, CO 3, CO 4, CO 5, CO 6,
CO 7 |
||
Signature of HOD
Signature of Faculty
Date: Date:
Department of Mechanical Engineering
DETAILS OF CONTENTS DELIVERED BEYOND SYLLABUS
Academic Year: 2019-2020 Branch/Year/Sem.:
ME II-II
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
S. No |
Date |
No. of Periods |
Subject Topics / Sub-Topics |
Course Outcome |
Remarks if any. |
|
1 |
1/11/18 |
1 |
Difference between power
and energy of a signal |
CO1 |
|
|
2 |
2/11/18 |
1 |
Convolution integral for
CT LTI systems |
CO2 |
|
|
3 |
2/11/18 |
1 |
DTFS coefficient for the
signal |
CO3 |
|
|
4 |
3/11/18 |
1 |
Impulse response of a CT
system |
CO4 |
|
|
5 |
3/11/18 |
1 |
What is the DT signal
obtained after sampling at Nyquist rate |
CO5 |
|
|
6 |
4/11/18 |
1 |
DTFT phase spectrum |
CO6 |
|
|
7 |
5/11/18 |
1 |
Frequency response of
the CT system |
CO7 |
|
|
Total No. of Periods |
7 |
Course Outcomes Addressed |
CO1, CO 2, CO 3, CO 4, CO 5, CO 6,
CO 7 |
||
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
DETAILS OF SELF LEARNING RESOURCES
Academic Year: 2019-2020 Branch/Year/Sem.:
ME II-II
Subject: ENGINEERING GRAPHICS Subject
Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator: R.NARASAMMA
|
S.No. |
Resource
Name |
Information |
|
1 |
NPTEL
VIDEO COURSES |
|
|
2 |
ONLINE
RESOURCES |
1. |
|
3 |
REFERENCE
MATERIALS |
After Completion of all the units refer
the textbook “Engineering Drawing”, K.L. Narayana & P.
Kannaih,” Prepare solutions for each chapter in the
textbook. Refer the NPTEL video lectures for each
concept. Solve the Previous question papers. Practice more number of problems using
your drawing instruments. |
Signature of HOD Signature
of Faculty
Date: Date:
Department of Mechanical Engineering
ANY OTHER RELATED INFORMATION BY THE FACULTY
Academic Year: 2019-2020 Branch/Year/Sem.:
ME II-II
Subject: ENGINEERING GRAPHICS Subject Code: 15A03403
Name of the Faculty: R.NARASAMMA
Course Coordinator:R.NARASAMMA
|
|
Signature of HOD Signature
of Faculty
Date: Date
Department of Mechanical Engineering
Academic Year:2018-2019 Branch/Year/Sem.:ECE
I-II & EEE I-II
PART 2
SUPPORTING ARTIFACTS
Comments
Post a Comment