Criterion VIII NewI

Criterion VIII: Program Educational Objectives – Their Compliance and OutcomesList all the course modules along with their PEOs (in Part III):

Programme Educational Objectives:

I. Fundamental Knowledge: To provide students with a solid foundation in the mathematical, scientific and engineering fundamentals to formulate, analyze and solve engineering problems.

II. Technical Knowledge: To develop the ability among students to synthesize data and technical concepts for application to product design.

III. Team Work: To provide opportunity for students to work as part of teams on multidisciplinary projects.

IV. Career Development: To prepare students to meet the needs of Indian and multinational companies for successful careers in industry.

V. Higher Studies and Entrepreneurship: To promote student awareness on life- long learning professional ethics and codes of practice and the spirit of entrepreneurship.

VI. Social Responsibilities: To prepare the students to relate engineering issues broadly to society and environment.

Programme Outcomes:

a. Graduates will demonstrate basic knowledge in mathematics, science and engineering. b. Graduates will demonstrate the ability to design and conduct experiments, interpret and

analyze data, and report results.c. Graduates will demonstrate the ability to design a mechanical system or a thermal system or a

process that meets desired specifications and requirements. d. Graduates will demonstrate the ability to function on engineering and science laboratory teams, as

well as on multidisciplinary design teams. e. Graduates will demonstrate the ability to identify, formulate and solve mechanical engineering

problems.f. Graduates will demonstrate an understanding of their professional and ethical responsibilities. g. Graduates will be able to communicate effectively in both verbal and written forms. h. Graduates will have the confidence to apply engineering solutions in global and societal contexts. i. Graduates should be capable of self-education and clearly understand the value of life-long

learning. j. Graduates will be broadly educated and have an understanding of the impact of engineering

on society and demonstrate awareness of contemporary issues. k. Graduates will be familiar with modern engineering software tools and equipment

VIII-P.1 Course objective and mapping (20)

Assessment is based on the PEOs defined for a course or a set of courses and their mapping with the content delivery and knowledge gain through theory classes, lab experiments, assignments and tests.

VIII-P.1

i. Table showing Mapping of Programme Education Objectives with Programme outcomesii. Table showing adequacy of specification of PEOs for each Course, additional content to meet PEOs and

methodology of assessment to meet the objectivesiii. Table showing Mapping of Programme Education Objectives with Content Delivery & Knowledge gainediv. Table showing Mapping of Programme Education Objectives with Evaluation Examinations / Tests /

Assignments)

v. Details showing Mechanism for ensuring Continuous Improvement in defining Programme Education Objectives

VIII-P.1 Course objective and mapping

i. Table showing Mapping of Programme Education Objectives with Programme outcomes

ProgrammeEducational Objectives

Programme Outcomes

a b c d e f g h i j k

I x x xII x xIII x xIV x x x xV x x x xVI x x x x


ii. Table showing adequacy of specification of PEOs for each Course, additional content to meet PEOs and methodology of assessment to meet the objectives

Course

Units/Experiments Quality of

PEOs specified?

Additional content to meet the PEOs through? Assessmen

t through course

files/lab and

assignment sheets and test papers

Theo

ry

Lab

Assi

gnm

ents

/

test

Theo

ry

Lab Poor/

Average/Good / Excellent

Technical English 5 Good Seminar 3/3 test papersEngineering Mathematics – I 5 Good PPT 3/3 test papersEngineering Physics 5 Good PPT 3/3 test papersEngineering Chemistry 5 Good PPT 3/3 test papersC Programming 5 Good Demo 3/3 test papersBasics of Electrical and Electronics

Engineering5 Good Seminar 3/3 test

papersEngineering Practices Laboratory (Electrical and Electronics and PC hardware)

12 GoodDem

o1

lab & test papers

Engineering Physics and Chemistry Laboratory

6/5 Good Demo

1 lab & test papers

Engineering Graphics 5 Good Model 3/3 lab & test papersC Programming Laboratory 10 Good Dem

o1 lab & test

papersCommunication Skills 5 Good Seminar 3/3 lab & test papers Engineering Mathematics – II 5 Good PPT 3/3 test papersMaterial Sciences 5 Good Seminar 3/3 test papersEnvironmental Science 5 Good PPT 3/3 test papers

Engineering Mechanics 5 Good Tutorial 3/3 test papersBasics of Civil Engineering & Information

Technology5 Good Model 3/3 test

papersEngineering Practices Laboratory Lab 12 Good Dem

o1 lab & test

papers Engineering Physics and Chemistry Laboratory (Annual Pattern)

6/5 Good Demo

1 lab & test papers

Computer Aided Drafting and Modeling Laboratory

5 Good Model 3/3 lab & test papers

Transforms and Partial Differential Equations

5 Good PPT 3/3 test papers

Manufacturing Technology – I 5 Good PPT 3/3 test papersEngineering Thermodynamics 5 Good Tutorial 3/3 test papersKinematics of Machinery 5 Good Tutorial 3/3 test papersFluid Mechanics and Machinery 5 Good Dem

o3/3 test

papers Electrical Drives Control 5 Good Seminar 3/3 test papersManufacturing Technology Lab – I 13 Good PPT 1 lab & test papersFluid Mechanics and Machinery

Laboratory11 Good PPT 1 lab & test

papersElectrical Engineering Laboratory 12 Good Demo

1 lab & test papersStatistics and Numerical Methods 5 Good Tutorial 3/3 test papersHeat and Mass Transfer 5 Good Tutorial 3/3 test papers Manufacturing Technology – II 5 Good PPT 3/3 test papersEngineering Materials and Metallurgy 5 Good PPT 3/3 test papersStrength of Materials 5 Good Tutorial 3/3 test papers Electronics and Microprocessors 5 Good PPT 3/3 test papersManufacturing Technology Lab – II 13 Good Demo 1 lab & test papersStrength of Materials Lab 17 Good Demo 1 lab & test papersComputer Aided Machine Drawing

Laboratory 11 Good Model 1lab & test papers

Environmental Science and Engineering 5 Good PPT 3/3 test papersThermal Engineering 5 Good Tutorial 3/3 test papers Dynamics of Machinery 5 Good Tutorial 3/3 test papers Computer Aided Manufacturing 5 Good Simulati

on3/3 test

papersDesign of Machine Elements 5 Good Tutorial 3/3 test papers Composite materials 5 Good PPT 3/3 test papersHydraulics & Pneumatics systems 5 Good Demo 3/3 test papersThermal Engineering Lab – I 11 Good Demo 1 lab & test papersKinematics & Dynamics Lab 17 Good Demo 1 lab & test papersElectronics & Microprocessor Lab 12 Good Demo 1 lab & test papersFinite Element Analysis 5 Good Tutorial 3/3 test papers Design of Transmission Systems 5 Good Tutorial 3/3 test papers Gas Dynamics and Jet Propulsion 5 Good Tutorial 3/3 test papers Automobile Engineering 5 Good Seminar Demo 3/3 test papersPower Plant Engineering 5 Good PPT 3/3 test papersEngineering Economics and Finance 5 Good Seminar 3/3 test papersSimulation and Analysis Lab 11 Good Demo 1 lab & test papersHeat Power Lab 14 Good Demo 1 lab & test papersComputer Aided Manufacturing Lab 17 Good Demo 1 lab & test papersBusiness Concepts 5 Good Seminar 3/3 test papersDesign of jigs, Fixtures Press Tools and

moulds5 Good Tutorial 3/3 test

papersMetrology and Measurements 5 Good Demo 3/3 test papersMechatronics 5 Good Demo 3/3 test papersUnconventional machining Process 5 Good PPT 3/3 test papers

Advanced IC Engines 5 Good PPT 3/3 test papersMechatronics Lab 12 Good Demo 1 lab & test papersMetrology and Measurements Lab 18 Good Demo 1 lab & test papersTotal Quality Management 5 Good Seminar 3/3 test papersAlternative Energy Sources 5 Good Seminar 3/3 test papersRapid prototyping and reengineering 5 Good Indl.

Visit3/3 test

papersProject Work Good Indl. Visit

3 review

Presentation


iii. Table showing Mapping of Programme Education Objectives with Content Delivery & Knowledge gained

PEO

Content Delivery Knowledge Gained(Bloom’s taxonomy)

Chalk and

Board

PowerPoint

Presentation

Problem Solving

Show and Tell

Quiz Role Play

Under-standing

Applying Evaluating Creating

I √ √ √ √ √ √ √ √II √ √ √ √ √ √ √ √ √ √III √ √ √ √ √ √ √ √IV √ √ √ √ √ √ √V √ √ √ √ √VI √ √ √ √ √ √ √


iv. Table showing Mapping of Programme Education Objectives with Evaluation (Examinations / Tests / Assignments)

PEO

Evaluation Methods to check achievement of PEOs

Test Assignment Examination Motivated work

Tutorial Quiz Case study

Seminar

I √ √ √ √ √ √ √II √ √ √ √ √ √ √ √III √ √ √ √ √IV √ √ √ √ √ √V √ √ √ √VI √ √ √


vi. Details showing Mechanism for ensuring Continuous Improvement in defining Programme Education Objectives

Internal Quality Assurance Cell (IQAC) is formed to carry out the ISO audit, Academic audit, NAAC and NBA work.

ISO Quality Audit is conducted twice in a year for continuous review and outcome measurements. ISO External surveillance audit is conducted once in a year by TUV Rheinland. ISO - Management Review Meeting is conducted twice in a year.

Autonomous Academic council, Board of studies periodically reviews the academic activities. Board of Studies meeting is conducted with expert members(External industry, Academic experts, Alumni, Senior students, internal academic experts as members) for the review and improvement in the curriculum

Academic audit is conducted every year to measure the performance about the results, Placement, co-curricular and extracurricular activities

HoDs Meeting is conducted by principal once in fifteen days Departmental review meeting is conducted to review the departmental activities Result analysis meeting is conducted end of semester to monitor the Continuous Review and

Outcome Measurements Class committee meeting is conducted periodically, in which HOD, Academic coordinator,

Programme coordinator, Faculty advisor, Staff members handling the class and class students participate to improve their academic performance. Counselor, Mentor, Faculty Advisor ,Program Coordinator, Academic coordinator meetings are conducted for the review, Measurement and improvement

Periodical student interaction with Secretary, Director (Academic) and Principal is conducted. Students feedback about faculty is obtained every semester for the for the review and improvement

Club activities are conducted to improve the Competence and Character Development of the students.

Parents, alumni meetings are conducted to get the feedbacks for the improvement of academic systems.

Course committee meetings are conducted among the staff members handling the same course for different disciplines to discuss on the common issues.

Lab stock verification is conducted every year and new equipments are added based on the need.

Placement and training meetings conducted periodically for the Continuous Review and Outcome Measurements

VIII-P.2 Assessment outcomes (20)

Assessment is based on the feasibility, applicability and quality of the PEOs’ with the course delivery. Assessment is also based on the methodologies for outcome measurements from the stake-holders including industry, alumni, and professional bodies.

Stakeholders : Students, industry, Alumni, Professional bodies, Society in general

i. Table showing the methodologies for outcome measurements from the Students performanceii.a. Table showing the methodologies for outcome measurements from industry with the placement

offered

ii.b. Detail showing mechanism for outcome measurements from industry interaction thru BoSiii. Detail of mechanism for outcome measurements from Alumniiv. Detail of mechanism for outcome measurements from Professional bodies v. Detail of mechanism for dissemination knowledge / information to Society

VIII-P.2 Assessment outcomes

i. Table showing the methodologies for outcome measurements from the Students performance

Academic and professional achievements by students in terms of a-to-k outcomes is evaluated out as per documented processes

Activities a b c d e f g h i j KUniversity Results √ √ √ √ √ √ √ √ √ √ √Scholarships for students √ √ √ √ √ Placement √ √ √ √ √ √ √ √ √ √Higher studies √ √ √ √ √ √ √ √Technical Competition – Inter/IntraCollege Level

√ √ √ √ √ √ √ √Project Work √ √ √ √ √ √ √ √ √ √Mini-Project work √ √ √ √ √ √ √ √ √ √Industrial Visit / Industrial Tour √ √ √ √ In-Plant Training √ √ √ √ √ √ √ √ √Membership in professional Bodies √ √ √ √ √ Student Association activities √ √ √ √ √ Student clubs activities √ √ √ √ Value added course certification √ √ √ √ √ √ √Students Guild of Services(SGS) √ √ √Extracurricular inter/intra college level √ √ √ Sports achievement √NCC Activities √ √ √NSS Activities √ √ √


ii.a. Table showing the methodologies for outcome measurements from industry with the placement offered

Many students were placed in different software companies and public sectors. The following provides details regarding number of students placed in the past four academic years.

Activities a b c d e f g h i j K

Placement offered by Software companies √ √ √ √ √ √ √ √ √ √

Placement offered by Service sectors √ √ √ √ √ √ √ √ √ √ √

Placement in Research oriented jobs √ √ √ √ √ √ √ √

Interdisciplinary jobs √ √ √ √ √ √ √ √


ii.b. Detail of mechanism for outcome measurements from industry interaction thru BoS

Evaluation is done based on documented processes for repeatedly assessing the outcomes by the relevant industries.

Industry experts in Board of Studies (BoS) assess our curriculum and provide feedback Industry feedback is collected periodically Sending students for project/internship and getting feedback/assessment from industries.


ii. Detail of mechanism for outcome measurements from Alumni

Alumni meet is organized periodically by the college MCET has Various Alumni chapters such as Parent Alumni Chapter (at MCET), Chennai Alumni

Chapter and Bangalore Alumni chapter to strengthen the alumni involvement.

Department invites alumni members frequently though the students association to have the interaction

Alumni member added as Member in Board of Studies (BoS) to bridge the gap between industry and institute.

MCET Alumni chapter maintains Alumni website, and provides information related to placement opportunities, higher studies, alumni interaction, alumni activities, etc.

Reputed alumni members are honored during the college events. Alumni feedback is taken into the consideration for the department development. An alumnus is a member in result passing board of autonomous examination.


iii. Detail of mechanism for outcome measurements from Professional bodies

To Bring about effective linkage between technical institutions industry and society Technology updates through conferences, seminars, tutorials and workshop at discounted rates A Forum for activities like paper presentation, Quiz, Competitions and Exhibitions Opportunity to interact with industry professionals and chalk out a career path Ability to interact with distinguished speakers on different technology areas Opportunity to attend National and state level annual conventions Short term industrial exposure programmes for students organized by industries at their premises.


iv. Detail of mechanism for dissemination of knowledge / information to Society

Activities a b c d e f g h i j K

Knowledge dissemination thru Workshop, Seminar, Exhibitions, Intra College competitions

√ √ √ √

NCC , NSS Activities √ √ √

Student clubs activities (YRC, Energy Club., Youth Parliament)

√ √ √ √

VIII P.3. Mapping with faculty expertise (20)

It has been ensured that for all the courses the Specialization matches with staff who actually handled the course.

Sl

Sem

este

r

Course

Units Area of specializationNeeded to achievePEOs

Name of the faculty whose expertise matched with the specializationTh

eory

Lab

1 I Technical English –I 5 Business English M.P.Karpagam

2 I Engineering Mathematics – I 5 Mathematics N.PankajamK.Rameswari

3 I Engineering Physics –I 5 Physics Dr. R. Jayaraman

4 I Engineering Chemistry – I 5 Chemistry R.Makesh

5 I Engineering Graphics 5 Mechanical Engg.

D.ShanmugamS.Thirumurugan S.MadhusuthananT.Kasirajan N.ShanmugasundaramLiju.C.JM.Padmanaban

6 I Fundamentals of computing and computer programming

5 Computer Engineering Dept.

K.Balasamy

7 I Computer practice laboratory –I 12 Computer Engineering Dept.

J.Ramprasath

8 IEngineering Practices Laboratory (Civil &Mechanical) 12

Production Engineering

Dr. R. RavindranA.R.SureshR.Bupathi D.Shanmugam T.Kasirajan M.PadmanabanK.Vijayakkannan

9 IEngineering Physics and Chemistry Laboratory (Annual Pattern)

6/5 PhysicsDr. R. JayaramanR.Makesh

10 II Technical English II 5 Business English M.P.Karpagam

11 II Engineering Mathematics – II 5 Mathematics N.PankajamK.Rameswari

12 II Engineering Physics -II 5 Physics Dr. R. Jayaraman

13 II Engineering Chemistry – II 5 Chemistry R.Makesh

14 II Engineering Mechanics 5 Design Engg

Dr. RamaThirumurugan R.BupathiM.Selvakumar T.Kasirajan N.ShanmugasundaramC.Selvasenthilprabhu G.Rakesh

15 IIBasic Electrical & Electronics Engineering 5

Electrical & Electronics Engineering Dept.

A.Balamanikandan

16 II Computer practice laboratory –II 12Computer Engineering Dept. J.Ramprasanth

17 IIEngineering Physics and Chemistry Laboratory (Annual Pattern) 6/5 Physics

Dr. R. JayaramanR.Makesh

18 II Computer Aided Drafting and Modeling Laboratory

12 Engineering Design CAD/CAM

Dr. RamaThirumuruganS.Madhusuthanan N.ShanmugasundaramT.KasirajanM.GiridharadayalanM.Padmanaban

19 IIITransforms and Partial Differential Equations 5 Mathematics

N.PankajamK.Rameswari

20 III Manufacturing Technology – I 5 Machine Tool Engg. Industrial Engg.

K.S.RamkumarA.R.Suresh M.PadmanabanK.Vijayakkannan Sreejith.S.NairP.Anbarasu

21 III Engineering Thermodynamics 5 Thermal Sciences

S.Ayyappan.Dr. D.SenthilkumarS.ThirumuruganM.Chandrasekaran

22 III Kinematics of Machinery 5Machine Tool Engineering

K.S.RamkumarDr. RamaThirumurugan

23 III Fluid Mechanics and Machinery 5 Thermal Sciences

Dr. D.Senthilkumar S.ThirumuruganK.Vijayakkannan M.Chandrasekaran

24 III Electrical Drives And Control 5Electrical & Electronics Engineering Dept.

A.Balamanikandan

25 III Manufacturing Technology Lab – I 13

Machine Tool Engineering Production Engineering

K.S.RamkumarA.R.SureshR.Bupathi M.PadmanabanK.Vijayakkannan P.Anbarasu

26 III Fluid Mechanics and Machinery Laboratory

11 Thermal Sciences

Dr. D.Senthilkumar S.ThirumuruganK.Vijayakkannan M.Chandrasekaran

27 III Electrical Engineering Laboratory 12Electrical & Electronics Engg. Dept.

A.Balamanikandan

28 IV Statistics and Numerical Methods 5 Mathematics N.PankajamK.Rameswari

29 IV Heat and Mass Transfer 5 Thermal sciences

S.AyyappanDr. D.SenthilkumarS.ThirumuruganM.Chandrasekaran

30 IV Manufacturing Technology – II 5 Machine Tool Engg.Industrial Engg.

K.S.RamkumarA.R.Suresh M.PadmanabanK.Vijayakkannan Sreejith.S.Nair P.Anbarasu

31 IV Engineering Materials and Metallurgy

5 Materials Engg .

Dr. R. RavindranD.ShanmugamM.SelvakumarM.PadmanabanSreejith.S.Nair P.Anbarasu

32 IV Strength of Materials 5 Product Design

Dr.RamaThirumuruganM.SelvakumarT.Kasirajan N.ShanmugasundaramLiju.C.J M.PadmanabanK.Vijayakkannan G.Rakesh M.Chandrasekaran

33 IV Electronics And Microprocessor 5

Electrical & Electronics Engineering Deportment

Ms.E.Kamalavathi

34 IV Manufacturing Technology Lab – II 13

Machine Tool Engineering Production Engineering

K.S.RamkumarA.R.SureshR.Bupathi M.PadmanabanK.Vijayakkannan P.Anbarasu

35 IV Strength of Materials Lab 17

Engineering DesignProduct designProduction Engineering

Dr.I.RajendranR.BupathiA.R.SureshT.Kasirajan M.PadmanabanK.Vijayakkannan

36 IV Computer Aided Machine Drawing Laboratory

11CAD/CAMProduct design

Dr. RamaThirumurugan S.MadhusuthananN.ShanmugasundaramT.KasirajanM.GiridhardayalanM.Padmanaban

37 V Thermal Engineering 5 Thermal Sciences S.Ayyappan

Dr. D.SenthilkumarS.ThirumuruganM.Chandrasekaran

38 V Computer Aided Manufacturing 5CAD/CAMMechatronics

K.S.Ramkumar Dr.RamaThirumuruganN.ShanmugasundaramC.Selvasenthilprabhu M.PadmanabanK.VijayakkannanP.Anbarasu

39 V Design of Machine Elements 5 Engineering Design

Dr.S.VijayaranganDr.RamaThirumurugan R.BupathiD.ShanmugamS.Madhusuthanan N.Shanmugasundaram T.KasirajanG.Rakesh

40 V Dynamics of Machinery 5 Engineering DesignCAD/CAM

Dr.I.RajendranDr. RamaThirumurugan D.ShanmugamM.SelvakumarLiju.C.J M.Chandrasekaran

41 V Hydraulics & Pneumatics systems 5Product designMechatronics

S.ThirumuruganT.KasirajanC.Selvasenthilprabhu

42 V Composite materials 5Engineering Design Production Engineering

Dr.I.Rajendran R.BupathiD.ShanmugamM.GiridharadayalanSreejith.S.Nair P.Anbarasu

43 V Thermal Engineering Lab – I 11 Thermal Sciences

S.AyyappanDr. D.SenthilkumarS.ThirumuruganM.Chandrasekaran

44 V Kinematics & Dynamics Lab 17 Design

Dr. RamaThirumurugan,D.ShanmugamM.SelvakumarLiju.C.J

45 V Electronics & Microprocessors Laboratory

12Electronics and Communication Engineering

Ms.E.Kamalavathi

46 VI Finite Element Analysis 5 Engineering DesignCAD/CAM

Dr.S.VijayaranganDr.I.RajendranDr.RamaThirumuruganM.SelvakumarS.Madhusuthanan T.Kasirajan

K.Vijayakkannan

47 VI Design of Transmission Systems 5 Engineering Design

Dr.S.VijayaranganDr.RamaThirumuruganR.BupathiS.MadhusuthananN.ShanmugasundaramT.KasirajanG.Rakesh P.Anbarasu

48 VI Automobile Engineering 5Automobile EnggIndustrial Engg

Dr.S.Vijayarangan D.ShanmugamM.PadmanabanK.Vijayakkannan Sreejith.S.Nair P.Anbarasu

49 VI Power Plant Engineering 5 Thermal Sciences

S.AyyappanDr. D.SenthilkumarS.Thirumurugan M.Chandrasekaran

50 VI Gas Dynamics and Jet Propulsion 5 Thermal Sciences S.ThirumuruganM.Chandrasekaran

51 VI Engineering Economics and Finance 5Quality Assurance Technology Industrial Engg

Dr. R. RavindranP.Shivaranjani

52 VI Simulation and Analysis Lab 11

DesignProduct design CAD/CAM

Dr. RamaThirumurugan,S.MadhusuthananN.ShanmugasundaramT.Kasirajan

53 VIComputer Aided Manufacturing Lab 17

CAD/CAMProduct design

Dr.RamaThirumuruganD.ShanmugamN.ShanmugasundaramT.Kasirajan C.SelvasenthilprabhuM.Giridharadayalan M.Padmanaban K.VijayakkannanP.Anbarasu

54 VI Heat Power Lab 14 Thermal sciences


55 VII Business Concepts 5Quality Assurance Technology Industrial Engg

Dr. R. RavindranP.Shivaranjani

56 VII Design of jigs, Fixtures Press Tools and moulds

5 CAD/CAMDesign Engg

R.Bupathi D.Shanmugam N.ShanmugasundaramM.Giridharadayalan

57 VII Metrology and Measurements 5 Machine Tool Engineering Design Engg

K.S.RamkumarA.R.Suresh R.Bupathi

M.PadmanabanSreejith.S.Nair

58 VII Mechatronics 5 Mechatronics C.Selvasenthilprabhu

59 VII Internal Combustion Engines 5 Thermal sciences


60 VII Unconventional machining Process 5 Materials Engineering

Dr. R. RavindranD.ShanmugamP.Anbarasu

61 VII Metrology and Measurements Lab 18Design EnggIndustrial Engineering

A.R.SureshR.BupathiM.Padmanaban P.Anbarasu

62 VII Mechatronics Lab 12 Mechatronics C.Selvasenthilprabhu

63 VIII Total Quality Management 5

Quality Assurance TechnologyProduction EngineeringIndustrial Engg

Dr. R. RavindranA.R.SureshR.BupathiP.Shivaranjani Sreejith.S.Nair

64 VIII Alternative Energy Sources 5 Thermal sciences

Dr.V.V.SreenarayananS.AyyappanS.ThirumuruganM.Chandrasekaran

65 VIII Rapid prototyping and reengineering

5Machine Tool Engineering CAD/CAM

K.S.Ramkumar M.SelvakumarS.Madhusuthanan T.KasirajanC.Selvasenthilprabhu Sreejith.S.Nair

VIII-P.4 Mapping with outcomes (20)Assessment is based on what extent the PEOs/curriculum map with the outcomes

The following table shows mapping of the courses with the outcome ‘a’

Graduates will demonstrate basic knowledge in mathematics, science and engineering.

Semester Subject Code Subject

Sem - I

080030001 Engineering Mathematics – I

080040001 Engineering Physics –I

080010001 Engineering Chemistry – I

080120001 Engineering Graphics

080230001 Fundamentals of computing and computer programmingSem - II 080030004 Engineering Mathematics – II

080040002 Engineering Physics –II

080010002 Engineering Chemistry – II

080120002 Engineering Mechanics

080280011 Basic Electrical & Electronics Engineering

BCE

Sem - III080100008 Transforms and Partial Differential Equations

080120013 Electrical Drives And Control

Sem - IV

080120014 Statistics and Numerical Methods

080120017 Engineering Materials and Metallurgy

080120019 Electronics And Microprocessor

The following table shows mapping of the courses with the outcome ‘b’

Graduates will demonstrate the ability to design and conduct experiments, interpret and analyze data, and report results.


Sem – I


080230001 Fundamentals of computing and computer programming

080510001 Engineering Practices Laboratory (Civil &Mechanical)

080640001 Engineering Physics and Chemistry Laboratory (Annual Pattern)

Sem - II 080120002 Engineering Mechanics

Sem - VII 080120065 project work –Phase I

The following table shows mapping of the courses with the outcome ‘c’

Graduates will demonstrate the ability to design a mechanical system or a thermal system or a process that meets desired specifications and requirements.


Sem-I 080120001 Engineering Graphics

Sem-II 080120002 Engineering Mechanics

Sem-III

080120005 Manufacturing Technology – I

080190005 Engineering Thermodynamics

080180007 Fluid Mechanics and Machinery

080120010 Kinematics of Machinery

Sem-IV

080120015 Heat and Mass Transfer

080120016 Manufacturing Technology – II


Sem-V

080120023 Thermal Engineering

080120024 Computer Aided Manufacturing

080120025 Design of Machine Elements

080120026 Dynamics of Machinery

080120027 Hydraulics & Pneumatics systems

080120028 Composite materials

080120029 Thermal Engineering Laboratory

080120030 Kinematics & Dynamics Laboratory

Sem-VI

080120032 Finite Element Analysis

080120034 Design of Transmission Systems

080120035 Automobile Engineering

080120036 Power Plant Engineering

080120037 Gas Dynamics and Jet Propulsion

080120041 Heat Power Laboratory

Sem-VII

080120043 Design of jigs, Fixtures Press Tools and moulds

080120044 Metrology and Measurements

080120045 Mechatronics

080120052 Internal Combustion Engines

080120059 Unconventional machining Process

Sem-VIII

080120068 Alternative Energy Sources

080120078 Rapid prototyping and reengineering

080120067 Project Work

The following table shows mapping of the courses with the outcome ‘d’

Graduates will demonstrate the ability to function on engineering and science laboratory teams, as well as on multidisciplinary design teams.


Sem-I 080510001 Engineering Practices Laboratory (Civil &Mechanical)

Sem-II 080640001 Engineering Physics and Chemistry Laboratory (Annual Pattern)

Sem-III

080120005 Manufacturing Technology – I

080120007 Fluid Mechanics and Machinery Laboratory

080120012 Electrical Engineering Laboratory

Sem-IV

080120016 Manufacturing Technology – II

080120021 Strength of Materials Laboratory

080120022 Computer Aided Machine Drawing Laboratory

Sem - V

080120029 Thermal Engineering Laboratory

080120030 Kinematics & Dynamics Laboratory

080120031 Electronics & Microprocessors Laboratory

Sem - VI

080120039 Simulation and Analysis Laboratory

080120040 Computer Aided Manufacturing Laboratory

080120041 Heat Power Laboratory

No code Comprehension

Sem - VII

080120046 Metrology and Measurements Laboratory

080120047 Mechatronics lab

080120065 Project work –Phase I

Sem - VIII 080120067 Project Work

The following table shows mapping of the courses with the outcome ‘e’

Graduates will demonstrate the ability to identify, formulate and solve mechanical engineering problems.


Sem – I 080120001 Engineering Graphics

Sem – II 080120002 Engineering Mechanics

Sem – III080120010 Kinematics of Machinery

080180007 Fluid Mechanics and Machinery

Sem - IV

080120014 Statistics and Numerical Methods

080120015 Heat and Mass Transfer


080120018 Strength of Materials

Sem - V

080120023 Thermal Engineering





080120028 Composite materials

Sem - VI





080120037 Gas Dynamics and Jet Propulsion



Sem - VII

080120043 Design of jigs, Fixtures Press Tools and moulds

080120044 Metrology and Measurements

080120045 Mechatronics

080120047 Mechatronics Laboratory

080120052 Internal Combustion Engines

Sem - VIII 080120068 Alternative Energy Sources

The following table shows mapping of the courses with the outcome ‘f’

Graduates will demonstrate an understanding of their professional and ethical responsibilities.


Sem – VII 080190028 Business Concepts

Sem - VIII 080120066 Total Quality Management

The following table shows mapping of the courses with the outcome ‘g’

Graduates will be able to communicate effectively in both verbal and written forms.

Semester Subject Code SubjectSem – I 080020001 Technical English –I

Sem - II 080020003 Technical English –II

Sem - VII No code Technical Seminar

The following table shows mapping of the courses with the outcome ‘h’

Graduates will have the confidence to apply engineering solutions in global and societal contexts.


Sem – V 080120028 Composite materials

Sem - VI




Sem - VIII 080120068 Alternative Energy Sources

The following table shows mapping of the courses with the outcome ‘i’

Graduates should be capable of self-education and clearly understand the value of life-long learning.


Sem – VII No code Technical Seminar

Sem - VIII 080120066 Total Quality Management

The following table shows mapping of the courses with the outcome ‘j’

Graduates will be broadly educated and have an understanding of the impact of engineering on society and demonstrate awareness of contemporary issues.


Sem – V 080120028 Composite materials

Sem - VI080120036 Power Plant Engineering

080120038 Engineering Economics and Finance

Sem - VII

080190028 Business Concepts

No code Technical Seminar

080120065 Project Work-Phase I

Sem - VIII

080120066 Total Quality Management

080120067 Project Work

080120068 Alternative Energy Sources

The following table shows mapping of the courses with the outcome ‘k’

Graduates will be familiar with modern engineering software tools and equipment


Sem - I


080230001 Fundamentals of computing and computer programming

080230002 Computer practice laboratory –I

Sem - II080230006 Computer practice laboratory –II

080120008 Comp Aided Modeling Draft Laboratory

Sem - IV

080120018 Strength of Materials

080120019 Electronics Micro Processor

080120022 Computer Aided Machine Drawing Laboratory

Sem - V





080120031 Electronics Micro Processor Laboratory

Sem - VI





Sem - VII080120045 Mechatronics

080120047 Mechatronics Laboratory

VIII P.5 Significant Achievement (20)

List of significant achievements, in respect of curriculum, stated PEOs and their outcomes, in CAY,CAYm1 and CAYm2.

In CAYm2 (2009-2010)

ProjectAgency / Amount Guide Beneficiary

Outcome/Achievement

Improved coconut postharvest technology

DST /

Rs. 10 LakhsDr.V.V.Sreenarayanan

Students / Institution

Students project / Research

Wear and friction monitorAICTE / Rs.5.65 Lakhs M.Selvakumar

In CAYm1 (2010-2011)


Outcome/Achievement

Development of vacuum frying technology

TNSCST / 1.54 Lakhs

Dr.V.V.SreenarayananStudents / Institution


Modernisation of Dynamics Lab AICTE / Rs.11 Lakhs

Dr.I.Rajendran

In CAY (2011-2012)


Outcome/Achievement

Investigation on machining of metals under dry machining conditions

AICTE / 2 LAKHS

Dr.I.RajendranStudents / Institution


Popularization of solar tunnel dryer in Pollachi region

Seeds Division,

DST /36.19 LAKHS

Dr.V.V.Sreenarayanan

Students / Institution /

coconut farmer community/

women SHG’S

Documents

Criterion VIII NewI