Week LESSON PLAN Name of Faculty Discipline Semester Subject Lesson Plan Duration: Work Load (Lecture/Practical) per week(in hours) Sh. Ravikant Mechanical Engineering 6th Semester Entrepreneurship Development and Management 15 Weeks 3 Hrs. Lecture Theory Practical Lecture Day Topic(Including Assignement/Test) Practical Day Topic 1 Introduction to Entrepreneurship Development and Management 1 Concept /Meaning and its need 1 2 3 Qualities and functions of entrepreneur and barriers in entrepreneurship 2 4 Sole proprietorship and partnership forms of business organisations 3 2 5 Schemes of assistance by entrepreneurial support agencies at National, State, District level Organisation: NSIC, NRDC 4 6
Organisation: DC, MSME 7 5 3 8 Organisation: SIDBI, NABARD, Commercial Banks, 9 Organisation: SFC s TCO, KVIB, DIC 6 10 Technology Business Incubators (TBI) and Science and Technology Entrepreneur Parks 7 4 11 Problems from the unit 12 Introduction to Market Survey and Opportunity Identification 8 Scanning of the business environmen 13 9 5 14 Salient features of National and State industrial policies and resultant business opportunities 15 Types and conduct of market survey Assessment of demand and supply in potential areas of growth 10 6 16 Identifying business opportunity Considerations in product selection 11
17 Problems from the unit 18 Test : Unit 1 & 2 12 Introduction to Project report Preparation 19 13 Preliminary project report 7 20 21 Detailed project report including technical, economic and market feasibility 14 22 Common errors in project report preparations 15 8 23 Exercises on preparation of project report 24 Problems from the unit 16 9 25 26 Introduction to Management: Definitions and importance of management Functions of management: Importance and process of planning, organising, staffing, directing and controllin 17 18
27 Principles of management (Henri Fayol, F.W. Taylor) Concept and structure of an organisation 28 19 10 29 Types of industrial organisations a) Line organisation b) Line and staff organisation c) Functional Organisation 30 a) Leadership Definition and Need 20 31 Qualities and functions of a leader Manager Vs leader Types of leadership 21 11 32 Motivation Definitions and characteristics 33 Factors affecting motivation Theories of motivation (Maslow, Herzberg, Douglas, McGregor) 22 34 Problems from the unit 23 12 35 Test : Unit 3, 4 & 5 36 Human Resource Management : Introduction and objective 24
37 Introduction to Man power planning, recruitment and selection 25 13 38 Introduction to performance appraisal methods Material and Store Management : Introduction functions, and objectives ABC Analysis and EOQ 39 Marketing and sales: Introduction, importance, and its functions Physical distribution 26 40 Introduction to promotion mix Sales promotion 27 14 41 Financial Management :Introductions, importance and its functions, Elementary knowledge of income tax, sales tax, excise duty, custom duty and VAT 42 Customer Relation Management (CRM) Definition and need Types of CRM 28 43 Total Quality Management (TQM) : Statistical process control Total employees Involvement Just in time (JIT) 29 15 44 Intellectual Property Right (IPR) : Introductions, definition and its importance Infringement related to patents, copy right, trade mark 30 45 Test : Unit 6&7
Week LESSON PLAN Name of Faculty Discipline Semester Subject Lesson Plan Duration: Work Load (Lecture/Practical) per week(in hours) Sh. Bhupesh Kumar Mechanical Engineering 6th Semester Inspection & Quality Control 15 Weeks 3 Hrs. Lecture & 2 Hrs. Practical Theory Practical Lecture Day Topic(Including Assignement/Test) Practical Day Topic 1 Introduction to Inspection and Quality Control 2 Introduction, units of measurement, standards for measurement and interchangeability. 1 Use of dial indicator for measuring taper. 1 3 International, national and company standard, line and wavelength standards. 4 Planning of inspection: what to inspect? When to inspect? Who should inspect? Where to inspect? 2 Use of dial indicator for measuring taper. 5 Types of inspection: remedial, preventive 2 6 Types of inspection:operative inspection, incoming, in-process and final inspection. 3 Use of combination set, bevel protector and sine bar for measuring taper 7 Study of factors influencing the quality of manufacture. 4 Use of combination set, bevel protector and sine bar for measuring taper
8 Problems from the unit 9 Basic principles used in Mechanical measurement and gauging 10 Basic principles used in Optical measurement and gauging 5 Measurement of thread characteristic using vernier and gauges 3 11 Basic principles used in Electric measurement and gauging 12 Basic principles used in Electronic measurement and gauging 6 Measurement of thread characteristic using vernier and gauges 13 Study of various measuring instruments like: calipers, micrometers 7 Use of slip gauge in measurement of center distance between two pins 14 Dial indicators, surface plate 4 15 Straight edge, try square 8 Use of slip gauge in measurement of center distance between two pins 16 Sine bar 5 17 Protectors, Clinometer 9 Use of tool maker s microscope and comparator
18 Problems from previous covered part 19 Test from previous covered part 10 Use of tool maker s microscope and comparator 20 Mechanical comparator 21 Electrical Comparator and Pneumatic Comparator 11 Plot frequency distribution for 50 turned components. 22 Slip gauges, tool room microscope, profile projector 6 23 Limit gauges: plug, ring, snap, taper, thread, height, depth, form, feeler, wire 24 Gauges applications for linear, angular, surface, thread and gear measurements, gauge tolerances. 12 Plot frequency distribution for 50 turned components. 25 Errors & their effect on quality, concept of errors 13 With the help of given data, plot X Chart 7 26 Measurement of geometrical parameter such as straightness, flatness and parallelism 27 Study of procedure for alignment tests on lathes 14 With the help of given data, plot X Chart
28 Study of procedure for alignment tests on drilling and Milling Machines 29 Testing and maintenance of measuring instruments. 15 With the help of given data, plot R Chart 30 Testing and maintenance of measuring instruments. 8 31 Introduction to Statistical Quality Control 16 With the help of given data, plot R Chart 32 Basic statistical concepts, empirical distribution and histograms 33 Frequency, mean, mode, standard deviation 17 With the help of given data, plot P Chart 34 Normal distribution, binomial and Poisson, Simple- examples. 9 35 Introduction to control charts 18 With the help of given data, plot P Chart 36 X, R, P and C charts 10 37 Applications of X, R, P and C charts 19 With the help of given data, plot C Chart
38 Sampling plans, selection of sample size 39 Method of taking samples, frequency of samples 20 With the help of given data, plot C Chart 40 Inspection plan format and test reports 41 Problems from the unit 21 42 Test from previous covered part 11 43 Introduction to Modern Quality Concepts 22 44 Concept of total quality management (TQM) 45 National and International Codes. 12 46 ISO-9000, concept and its evolution 23 47 Quality Control tools 24
48 Introduction to Kaizen and 5S 49 Problems from the unit 25 50 Introduction to Instrumentation 13 51 Measurement of mechanical quantities such as displacement 26 52 Introduction to vibration 53 Introduction to frequency 27 54 Pressure temperature by electro mechanical transducers of resistance type 14 55 pressure temperature by electro mechanical transducers of capacitance type. 28 56 Pressure temperature by electro mechanical transducers of inductance type. 15 57 Problems from the unit 29
58 Problems from the unit 59 Problems from the unit 30 60 Test from previous covered part
Week LESSON PLAN Name of Faculty Discipline Semester Subject Lesson Plan Duration: Work Load (Lecture/Practical) per week(in hours) Sh. Dharampal Mechanical Engineering 6th Semester Automobile Engineering 15 Weeks 3 Hrs. Lecture & 2 Hrs. Practical Theory Practical Lecture Day Topic(Including Assignement/Test) Practical Day Topic 1 Introduction to Automobile Engineering 1 Fault and their remedies in (i) Battery Ignition system (ii) magnetic Ignition system 1 2 Automobile and its development 3 Various types of automobiles manufactured in India 2 Fault and their remedies in (i) Battery Ignition system (ii) magnetic Ignition system 4 3 Layout of chassis Demonstration of (i) Head Light Model (ii) Wiper and Indicators 5 2 Fuel systems for petrol and diesel engines 4 6 Multi point fuel injection (MPFI) Demonstration of (i) Head Light Model (ii) Wiper and Indicators
7 5 8 Common rail direct injection (CRDI) Demonstration of (i) AC Pump (ii) SU Pump (iii) Master Cylinders 3 Fuel injectors and nozzles. 6 9 Comparison of MPFI with carburetor system Demonstration of (i) AC Pump (ii) SU Pump (iii) Master Cylinders 10 7 11 Concept of double overhead cam, single overhead cam Demonstration of (i) rear axle (ii) differential (iii) steering system 4 Twin cam 16 valve technology in 4 cylinder engine 8 12 Problems from the unit Demonstration of (i) rear axle (ii) differential (iii) steering system 13 9 14 Test : Unit 1 & 2 Fault finding practices on an automobile - four wheelers (petrol/ diesel vehicles) 5 Introduction to Transmission System 10 15 Clutch - Function, Constructional details of single plate and multiplate friction clutches Fault finding practices on an automobile - four wheelers (petrol/ diesel vehicles) 6 16 Centrifugal and semi centrifugal clutch, Hydraulic clutch 11 Tuning of an automobile engine
17 Gear Box - Function, Concept of sliding mesh, constant mesh 12 18 Synchromesh gear box, Torque converter and overdrive Tuning of an automobile engine 19 Types of drives Front wheel, Rear wheel, Four Wheel. 13 Driving practice on a 4-wheeler 20 7 Function of Propeller shaft, Universal joint, Differential and Different types of Rear axles and Front Axles 14 21 Wheels and Tyres - Types of wheels, Driving practice on a 4-wheeler 22 15 23 Types and specifications of tyres used in Indian vehicles, Wheel balancing Charging of an automobile battery and measuring cell voltage and specific gravity of electrolyte 8 Problems from the unit 16 24 Introduction to Steering System Charging of an automobile battery and measuring cell voltage and specific gravity of electrolyte 25 17 9 26 Function and principle of Ackerman and Davis steering mechanism Changing of wheels and inflation of tyres, balancing of wheels Types of steering gear boxes Worm and nut, 18 Changing of wheels and inflation of tyres, balancing of wheels
27 Worm and wheel, worm and roller, rack and opinion 28 19 Power steering system Checking spark gap and valve clearance 29 10 Alignment of wheels -Toe in, toe out, camber, caster, kingpin inclination. 20 30 Problems from the unit Checking spark gap and valve clearance 31 21 Test : Unit 3 & 4 Cleaning and adjusting a carburetor 32 11 Introduction to Braking system 22 33 Constructional details and working of mechanical, hydraulic brake Cleaning and adjusting a carburetor 34 23 Concept of air and vacuum brakes 35 12 Brake adjustment 24 36 Introduction to Anti lock brake system and its working.
37 25 Problems from the unit 38 13 Introduction to Suspension System 26 39 Function, Types, Working of coil spring, leaf spring 40 27 Concept of Air suspension and Shock absorber. 41 14 Constructional details of lead acid cell battery 28 42 Maintenance of batteries, checking of batteries for voltage and specific gravity 43 29 Magnato and Battery coil ignition system. 15 44 Concept of Dynamo Alternator - Construction and working, Charging of battery by Alternator and Regulator 30 45 Test : Unit 5, 6 & 7
Week LESSON PLAN Name of Faculty Discipline Semester Subject Lesson Plan Duration: Work Load (Lecture/Practical) per week(in hours) Sh. Sukhvir Yadav Mechanical Engineering 6th Semester Employability Skills II 15 Weeks 2 Hrs. Practical Theory Practical Lecture Day Topic(Including Assignement/Test) Practical Day Topic 1 1 Mock interview 1 2 3 2 Mock interview 4 3 Practice on Mock interview 2 5 6 4 Practice on Mock interview
7 5 Practice on Mock interview 3 8 9 6 Preparing for meeting 10 7 Preparing for meeting 4 11 12 8 Practice on Preparing for meeting 13 9 Practice on Preparing for meeting 5 14 15 10 Practice on Preparing for meeting 6 16 11 Group discussion
17 18 12 Practice on Group discussion 19 13 Practice on Group discussion 7 20 21 14 Practice on Group discussion 22 15 Practice on Group discussion 8 23 24 16 Seminar presentation 9 25 17 Practice on Seminar presentation 26 18 Practice on Seminar presentation
27 28 19 Practice on Seminar presentation 10 29 30 20 Practice on Seminar presentation 31 21 Making a presentation 11 32 33 22 Elements of good presentation 34 23 Elements of good presentation 12 35 36 24 Structure and tools of presentation
37 25 Structure and tools of presentation 13 38 39 26 Paper reading 40 27 Paper reading 14 41 42 28 Practice on paper reading and presentation 43 29 Power point presentation 15 44 45 30 Power point presentation
Week LESSON PLAN Name of Faculty Discipline Semester Subject Lesson Plan Duration: Work Load (Lecture/Practical) per week(in hours) Sh. Sukhvir Yadav Mechanical Engineering 6th Semester Industrial Engineering 15 Weeks 4 Hrs. Lecture Theory Practical Lecture Day Topic(Including Assignement/Test) Practical Day Topic 1 Introduction to productivity 1 2 Factors affecting productivity, Measurement of productivity 1 3 Causes of low productivity 4 Methods to improve productivity 5 Problems from the unit 6 Definition and scope of work study 2 7 Inter-relation between method study and work measurement 2 8 Inter-relation between method study and work measurement 3 9 Human aspects of work study 3
10 Role of work study in improving productivity 11 Role of work study in improving productivity 12 Problems from the unit 13 Test : Unit 1 & 2 14 Objectives of Method study 4 4 15 Procedure for Method analysis 16 Procedure for Method analysis 17 Information collection and recording techniques 5 18 19 Information collection and recording techniques Information collection and recording techniques 5 Stop watch time study on any machine like lathe, drilling machine or milling machine 20 Information collection and recording techniques 21 Information collection and recording techniques 6 22 Introduction to Motion Analysis 6 Method improvement - Assembly of bolt, nut and 3 washers 23 Principles of Motion analysis
24 Therbligs and SIMO charts 25 Normal work area and design of work places 7 26 Ergonomics 27 Problems from the unit 7 Determination of standard time for assembly of electrical switch 28 Test : Unit 3 & 4 29 Objectives of Work Measurement 30 Work measurement techniques 8 8 Preparation of flow process chart 31 Principle of stop watch time study 32 Procedure of Stop watch time study 33 Systems of performance rating 34 Calculation of basic times 9 9 Preparation of SIMO chart 35 Various allowances 36 Calculation of standard time 10 37 Work sampling, standard data and its 10 Preparation of flow diagram
usage 38 Introduction to wages, 39 Wage payment for direct and indirect labour 40 Wage payment plans and incentives 41 Various incentive plans, incentives for indirect labour 42 Problems from the unit 11 11 43 Test : Unit 5 & 6 44 Introduction to Production Planning and Control 45 Objectives and components (functions) of P.P.C, Advantages of PPC 46 Stages of P.P.C, process planning, routing, scheduling, dispatching and follow up 12 12 47 Routing purpose, route sheets, Scheduling purpose 48 Machine loading chart, Gantt chart, Dispatching purpose, and procedure, follow up purpose and procedure 49 CPM/PERT technique 13 50 Drawing of simple networks and critical time calculation 13 51 Production Control in job order, batch type
and continuous type of productions 52 Production Control in job order, batch type and continuous type of productions 53 Difference between these controls 54 Introduction to Estimating and Costing 14 14 55 Purpose/functions of estimating 56 Costing concept, ladder and elements of cost 57 Difference between estimation and costing 15 58 59 Overheads and their types, estimation of material cost Estimation of cost for machining processes, numerical problems 15 60 Test : Unit 7 & 8