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