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Lesson Planning for the semester starting w.e.f. 09.01.2018
Guru Gobind Singh Govt. Polytechnic Education Society, Cheeka (District Kaithal)
Name of the Faculty: Sharvan Kumar (Theory + Practical)
Discipline: Lecturer (Mechanical Engg.)
Semester: 6th
Subject: Inspection and Quality Control
Lesson Plan Duration: 15 weeks (from January, 2018 to April, 2018)
Work Load (Lecture/ Practical) per week (in hours): Lectures- 04, Practicals-02
Week
Theory
Practical
Lecture
day
Topic
(including assignment/ test)
Practical
day
Topic
1st
1st
Inspection : Introduction, units of measurement,
standards for measurement
1st
Introduction about
the apparatus and
procedure of 1-2
experiments.
2nd International, national and company standard,
line and wavelength standards
3rd Planning of inspection: what to inspect? When
to inspect? Who should inspect? Where to
inspect?
4th Types of inspection, interchangeability
2nd
5th
remedial, preventive and operative inspection,
incoming,
2nd
1. Use of dial
indicator for
measuring taper.
6th Study of factors influencing the quality of
manufacture.
7th in-process and final inspection
8th Assignment of unit-1
3rd
9th
Measurement and Gauging: Basic principles
used in measurement and gauging,
3rd
2. Use of
combination set,
bevel protector and
sine bar for
measuring taper.
10th Basic principles used in mechanical, optical,
electrical and electronic
11th Study of various measuring instruments like:
calipers, micrometers, dial indicators, surface
plate, straight edge, try square, protectors, sine
bar, clinometers Slip gauge
12th comparators – mechanical
4th
13th
comparators – electrical
4th Viva Voce of
Experiments 1-2 14th comparators –pneumatic
15th Working Principal of tool room microscope
16th Working Principal of profile projector
5th
17th
Limit gauges: plug, ring, snap, taper, thread,
height, depth, form, feeler, wire 5th
Introduction about
the apparatus and
procedure of 3-4
experiments. 18th Limit gauges applications for linear, angular,
surface, thread and gear measurements gauge
tolerances
19th Geometrical parameters and errors: concept
of error
20th Errors & their effect on quality
6th
21st
measurement of geometrical parameter such as
straightness
6th
3. Measurement of
thread
characteristic using
vernier and gauges.
22nd measurement of geometrical parameter such as
flatness
23th measurement of geometrical parameter such as
parallelism
24th Study of procedure for alignment tests on lathes
7th
25th
Study of procedure for alignment tests on
drilling
7th
4. Use of slip
gauge in
measurement of
center distance
between two pins.
26th Study of procedure for alignment tests on
milling
27th Testing and maintenance of measuring
instruments
28th Assignments of Unit -2
8th
29th
Statistical Quality Control: Basic statistical
concepts
8th Viva Voce of
Experiments 3-4 30th empirical distribution and histograms
31st frequency, mean, mode, standard deviation
32nd normal distribution, binomial and Poisson
9th
33rd Simple- examples.
9th
Introduction about
the apparatus and
procedure of 5-6
experiments.
34th Introduction to control charts,
35th Control charts for variables and attributes
36th frequency, mean, mode, standard deviation for X
Charts
10th
37th
frequency, mean, mode, standard deviation for R
Charts
10th
5. Use of tool
maker’s
microscope and
comparator.
38th frequency, mean, mode, standard deviation for P
Charts
39th frequency, mean, mode, standard deviation for C
Charts
40th Introduction to Sampling plans acceptance and
rejected sampling
11th
41st selection of sample size, method of taking
samples,
11th
6. Plot frequency
distribution for 50
turned components
42nd Types of Sampling frequency of samples
43rd Inspection plan format and test reports
44th Assignments of Unit -3
12th
45th Modern Quality Concepts: Concept of total
quality management (TQM)
12th Viva Voce of
Experiments 5-6 46th National and International Codes
47th ISO-9000, concept and its evolution
48th QC tools
13th 49th Introduction to Kaizen,
13th Introduction about
the apparatus and 50th Introduction to 5S
51st Assignments of Unit -4 procedure of 7
experiments. 52nd Instrumentation: Introduction and concept of
Instrumentation
14th
53rd Measurement of mechanical quantities such as
displacement
14th
7. With the help of
given data, plot X,
R, P and C charts
54th Measurement of mechanical quantities such as
vibration
55th Measurement of mechanical quantities such as
frequency
56th pressure temperature by electro mechanical
transducers of resistance
15th
57th pressure temperature by electro mechanical
transducers of capacitance
15th Viva Voce of
Experiments 7
58th pressure temperature by electro mechanical
transducers of inductance type
59th Concept and introduction of Transducers and
LVDT
60th Assignments of Unit -5
GURU GOBIND SINGH GOVERNMENT POLYTECHNIC EDUCATION SOCIETY
(CHEEKA)
LESSON PLAN
NAME OF
FACULTY: Mr. Himanshu Gupta
DISCIPLINE: Mechanical Engineering
SEMESTER: 2nd
SUBJECT: Environment Studies
LESSON PLAN
DURATION 15 WEEKS STARTING FROM JANUARY 2018 TO APRIL 2018
**WORKLOAD LECTURE/PRACTICAL PER WEEK IN HOURS: LECTURE (3)
WEEK
THEORY
DAY TOPIC (INCLUDING ASSIGNMENT/ TEST)
1st
1st Environment, Ecology, Eco system concept
2nd Eco system its Structure, Components & importance
3rd Carbon Nitrogen, Sulphur Cycle
2nd
4th Sustainable Development, Assignment-I
5th Conservation of land reforms, preservation of species
6th Prevention of advancement of desert and lowering of watertable
3rd
7th Rainwater harvesting, Acid Rain, Maintenance of ground water
8th Water supply engineering
9th Deforestation, causes, effects and control measures
4th
10th Coverage of any topic listed above
11th Revision/ Question/ Doubts Clearing
12th Revision/ Question/ Doubts Clearing/ Submission of Assignment
5th
13th Sessional-I
14th Sessional-I
15th Sessional-I
6th
16th Evaluation Sessionals, Assignments
17th Pollution its causes and types, Pollutants and its types
18th Air and Water Pollution its causes, effects and control
7th
19th Noise, soil, radioactive and nuclear Pollution its causes, effects and control
20th Cleaner production technology, its benefits and scope
21st physical, biological, chemical treatment of pollutants
8th
22nd photocatalytic degradation of pollutants
23rd
waste minimization technique, chemical degradation of waste, concept of
zero discharge, Assignment-II
24th
Solid waste management, classification of refuse material, sources, effects
and control, E-waste management
9th
25th Water prevention and control of pollution Act
26th Coverage of any topic listed above
27th Revision/ Question/ Doubts Clearing/ Submission of Assignment
10th 28th Sessional-II
29th Sessional-II
30th Sessional-II
11th
31st Evaluation Sessionals, Assignments
32nd Air prevention and control of pollution Act, Environmental Protection Act
33rd Role & Function of State Pollution Control Board, EIA, Assignment-III
12th
34th Energy Conservation Act, Energy Conservation Amendment Act
35th Energy Management, conservation, efficiency, need
36th Non Conventional energy resources, Solar, Wind, Bio, Hydro
13th
37th Impact of energy usage on environment, Global warming
38th Green House Effect, depletion of ozone layer
39th Eco-friendly material, recycling of material
14th
40th Concept of Green Building
41st Coverage of any topic listed above
42nd Revision/ Question/ Doubts Clearing/ Submission of Assignment
15th
43rd Sessional-III
44th Sessional-III
45th Sessional-III
Guru Gobind Singh Govt. Polytechnic Education Society, Cheeka (District Kaithal)
Name of Faculty: MANISH KUMAR
Discipline:MECHANICAL ENGINEERING
Semester:2ND
Subject:ENGINEERING DRAWING
Work Load (Lecture/ Practical) per week (in hours): Practicals-08HRS
Lesson Plan Duration:15 weeks (from January, 2018 to April, 2018)
Week Practical
Practical
Day Topic
week1
DAY1(4HRS)
Unit 1 Detail and assembly drawing
1.1 Principle and utility of detail and assembly drawings
1.2 Wooden joints i.e. corner mortise and tenon joint
day2 1.3 Tee halving joint
1.4 mitre faced corner joint
week2
day3 1.5 Tee bridle joint
1.6 Crossed wooden joint
day4 1.7 Cogged joint
1.8 Dovetail joint
week3
day5
1.9 Through mortise and tenon joint
1.10Furniture joint drawing_freehand and with the help of drawing
instruments
day6
Unit 2Screw thread
2.1 Thread terms and nomenclature
2.2 Types of thread -external and internal thread ,right and left thread ,single
and multiple thread
2.3 Different forms of screw thread -v thread
week4 day7
2.4 Square thread
2.5acme thread
day8 2.6 Buttress thread
week5
day9 2.7Knuckle thread
day10
Unit 3 Nuts and bolts
3.1 Different views of hexagonal and square nuts,square and hexagonal
headed bolt
week6
day11
3.2Assembly of hexagonal headed bolt
3.3 Hexagonal nut with washer
3.4Assembly of square headed bolt with hexagonal and with washer
day12 Unti4 Locking devices
4.1Different types of locking devices -lock nut,castle nut ,split pin nut
,locking plate,slotted nut and spring washer
week7 day13 4.2 Foundation bolts -rag bolt,lewis bolt
day14 4.3 Curved bolts
week8 day15 4.4 eye bolt
day16 4.5 Drawing of various types of studs
week9
day17
Unit 5 Keys and cotters
5.1Various types of keys and cotters-their practical applications
day18 5.2Drawing of various keys and cotter showing keys and cotter in positions
week10 day19 5.3 Spigot and socket joint
day20 5.4 Gib and cotter joint
week11
day21 5.5 Knuckle joint
day22
Unit 6Rivets and rivted joints
6.1 Types of general purpose -rivets heads
6.2 Caulking and fullering joints
week12 day23 6.3Lap joints
day24 6.4Single rivted ,single cover plate butt joint
week13 day25 6.5 Double rivted double cover plate butt joint
day26 6.6Single rivted double cover plate butt joint
week14 day27
Unit 7 Coupling
7.1Introduction,uses and types of coupling
day28 7.2 Muff coupling
week15 day29 7.3 Flange coupling
day30 7.4 Flexible coupling
Lesson Planning for the semester starting w.e.f. 09.01.2018
Guru Gobind Singh Govt. Polytechnic Education Society, Cheeka (District Kaithal)
Name of the Faculty: Sharvan Kumar (Theory + Practical)
Discipline: Lecturer (Mechanical Engg.)
Semester: 4th
Subject: HYDRAULICS AND HYDRAULIC MACHINES
Lesson Plan Duration: 15 weeks (from January, 2018 to April, 2018)
Work Load (Lecture/ Practical) per week (in hours): Lectures- 03, Practicals-02
Week
Theory
Practical
Lecture
day
Topic
(including assignment/ test)
Practical
day
Topic
1st
1st
Introduction: Fluid, types of fluid
1st
Introduction about the
apparatus and procedure of 1-
2 experiments.
2nd Properties of fluid viz mass density,
weight density (specific weight),
specific volume and their units.
3rd Properties of fluid viz capillarity,
specific gravity, viscosity,
compressibility, surface tension and
their units.
2nd
4th Properties of fluid viz kinematic
viscosity and dynamic viscosity and
their units and Assignments
2nd
1. Measurement of pressure
head by employing.
i) Piezometer tube ii)
Single and double column
manometer 5th
Pressure and its Measurement :
Concept of pressure (Atmospheric
Pressure, gauge pressure, absolute
pressure)
6th Pascal’s Law, Static
Pressure
3rd
7th Pressure measuring devices: peizometer
tube manometers
3rd
2. To find out the value of
coefficient of discharge for a
venturimeter.
8th simple U-tube, differential single
column, inverted U-tube,
micromanometer
9th
simple problems based on manometers
4th 10th Introduction to pressure gauge
:Bourdon pressure gauge
4th Viva Voce for Experiments
1-2
11th Diaphragm pressure gauge, dead
weight pressure gauge and Assignments
12th Flow of Fluids: Types of fluid flow –
steady and unsteady, uniform and non-
uniform, laminar and turbulent.
5th
13th
rate of flow and their units; continuity
equation of flow
5th
Introduction about the
apparatus and procedure of 3-
4 experiments. 14th potential energy of a flowing fluid; total
head
15th Bernoulli’s theorem (statement and
proof)
6th 16th applications and limitations of
Bernoulli’s theorem simple problems
6th
3. Measurement of flow by
using venturimeter.
17th
Discharge measurement with the help
of venturi-meter
18th Discharge measurement with the help
of orifice meter
7th 19th Discharge measurement with the help
of pitot-tube and Assignments
7th 4. Verification of Bernoulli’s
theorem.
20th Flow through Pipes : Definition of
pipe flow, wetted perimeter, hydraulic
mean depth, hydraulic gradient
21st
loss of head due to friction; Chezy’s
equation and Darcy’s equation of head
loss (without proof),
8th 22nd Reynold’s number and its effect on pipe
friction; siphon
8th
Viva Voce for Experiments
3-4
23th Nozzle - definition, velocity of liquid
flowing through the nozzle, power
developed. Water hammer, anchor
block, syphon, surge tank (concept
only).
24th Loss of head in pipes due to sudden
enlargement, sudden contraction,
obstruction on flow path
9th
25th
Loss of head in pipes due to change of
direction and pipe fittings and
Assignments
9th
Introduction about the
apparatus and procedure of 5-
6 experiments.
26th Flow through Orifices : Definition of
Cc, Cv, Cd and their relation.
27th flow through drowned, partially
drowned orifices
10th 28th time for emptying a tank through a
circular orifice
10th 5. To find coefficient of
friction for a pipe (Darcy’s
friction). 29th
Simple problems based on the topics
and Assignments
30th Hydraulic Machines: Description,
operation and application of hydraulic
systems
11th 31st Principal, working and construction of
hydraulic ram, hydraulic jack
11th 6. To study hydraulic circuit
of an automobile brake and
hydraulic ram. 32nd hydraulic brake, hydraulic accumulator
33rd
hydraulic door closer, hydraulic press
12th 34th selection of specification of above
systems for different applications and
Assignments
12th
Introduction about the
apparatus and procedure of 7-
8 experiments.
35th Water Turbines and Pump: Concept
of a turbine, types of turbines –impulse
and reaction type (concept only),
difference between them.
36th Construction and working of pelton
wheel turbine
13th
37th
Construction and working of Francis
turbine
13th
7. Study the working of a
Pelton wheel and Francis
turbine.
38th Construction and working of Propeller
and Kaplan turbines
39th Unit speed, unit power, unit discharge,
specific speed of turbines, selection of
turbines based on specific speed.
14th 40th Concept of hydraulic pump,
construction and operation of single
acting reciprocating pump
14th
8. To study a single stage
centrifugal pump for
constructional details and its
operation to find out its
normal head and discharge.
41st construction and operation of vane,
screw and gear pumps
42nd Construction, working and operation of
centrigual pump
15th 43rd
Performance, efficiencies and
specifications of a centrifugal pump.
15th
Viva Voce for Experiments
5-8
44th Trouble shooting and problems in
centrifugal pumps and remedial
measures
45th Pitting, cavitation, priming and
Assignments
Guru Gobind Singh Govt. Polytechnic Education Society, Cheeka (District Kaithal)
Name of Faculty: MANISH KUMAR
Discipline:MECHANICAL ENGG.
Semester: 4th
Subject: MATERIALS AND METALLURGY
Work Load (Lecture/ Practical) per week (in hours): Lectures- 03, Practicals-02
Lesson Plan Duration:45 DAYS/15 weeks (from January, 2018 to April, 2018)
Week Theory Practical
Lecture
Day Topic
Practical
Day Topic
Week
1
Day 1
UNIT: 1 Introduction
day 1
Classification about 25
specimen of materials
/machine parts into
(1.1)Metals and non metals
1.1 Material and history of material
origin, scope of material science
Day 2 1.2 Overview of different engineering
materials and applications
Day 3
1.3classification of materials
1.4
Thermal,chemical,electrical,mechanical
properties of of materials
Week
2
Day 4 1.5 Present and future needs of materials
day 2
Given a set of specimen of
metals and alloy; identify
and indicate the various
properties possessed by
them
1.6Overview of biomaterials
Day 5 1.7Overview of semiconducting
materials
Day 6 1.8Various issues of material usage-
economical
1.9 Environmental and social issues
day 3
study of heat treatment
furnance
Week 3
Day 7
Unit 2: Introduction about
Crystallogaphy
2.1 Fundamentals: Crustals, unit cell,
space lattice
Day 8 2.2 Arrangement of atoms in symple
cubic crystal, BCC
Day 9 2.3 Arrangement of atoms in FCC and
HCP crystals
2.4 Number of atoms per unit cell
Week 4 Day10 2.5 Atomic packing factor day4 study of a metallurgical
2.6 Overview of deformation behavoiur
and its mechanism
microscope and a specimen
polishing machine
Day 11 2.7 behavoiur of material under load and
stress-strain
day 12 2.8 Overview o failure modes,fracture
2.9 Intoduction about fatigue and creep
week 5
day5
Microscopic examination
of the specimen of brass
material day 13 unit 3:introduction of metal and alloys
3.1 History and development of iron and
steel
day 14 3.2 Different iron ores
day15 3.3 Raw material in production of iron
and steel
week 6
day 16 3.4 Basis process of iron and steel
making day6
Microscopic examination
of the specimen of copper
material day17 3.5 Classification of iron and steel
day 18 3.6 Different types of cast iron
week7
day 19 3.7 Manufacture and usage of cast iron
day 7 Microscopic examination
of the specimen of grey
material
day 20
3.8 Steel and alloy steel
3.9Classification of plain carbon
steels,availability
days 21 3.10 Properties and uses of different
types of plain carbon steels
week 8
days 22 3.11 Effect of of various alloys on
properties of steel
day 8 Microscopic examination
of the specimen of
malleable material
days 23 3.12Uses of alloy steels(h.s.s,s.s,spring
steel,silicon steel)
day 24 3.13 Non ferrous materials : Properties
and uses of light metals and their alloys
week 9
day25 3.14 Properties and uses of white metals
and their alloys
day 9
Microscopic examination
of the specimen of low
carbon steel
days 26
unit 4 Introduction to heat treatment
4.1 Purpose of heat treatment
4.2 Solid solution and its types
day27 4.3 Iron carbon diagram
week
10
day28 4.4 formation and decomposition of
austenite
day10 Microscopic examination
of the specimen of high
carbon steel
day29 4.5Martensitic transformation -
simplified transformation cooling curves
day30 4.6Hardening and tempering
week
11
day 31 4.7 Annealing and normalizing day11 Microscopic examination
of the specimen of hss day32
4.8 Case hardening and surface
hardening
day33 4.9Types of heat treatment furnaces
required for operations(basic ideas)
week
12
day 34
Unit 5 Introduction to engineering
plastics
day12
To anneal a given specimen
and find out difference In
hardness as a result of
annealing 5.1 Important sources of plastics
5.2 Classification of thermo plastics
day 35 5.3 Thermoset and their uses
day36
5.4 Various trades names of engg.
plastics
5.5 Plastic coating
week
13
day 37 Unit 6Introduction of advanced
materials
day 13
To normalize a given
specimen and find out
difference In hardness as a
result of normalizing 6.1 Composites -
Classification,properties,application
day38 6.2 Cermics-Classification
,properties,application
day39 6.3Heat insulating materials
week
14
day 40 unit -7 Introduction of miscellanous
materials
day14
To normalize a given
specimen and find out
difference In hardness as a
result of normalizing 7.1 Properties and uses of asbestos
,glass wool
day 41 7.2 Properties and uses of
thermocole,cork,mica
day 42 7.3Overview of tool and die materials
week
15
day 43 7.4 Materials for bearing metals ,spring
materials day15
To harden and temper a
given specimen and find
out difference In hardness
as a result of tempering day 44 7.5Materials for nuclear energy
day 45 7.6 refractory materials
Guru Gobind Singh Govt. Polytechnic Education Society, Cheeka (District Kaithal)
Name of Faculty: MANISH KUMAR
Discipline:MECHANICAL ENGINEERING
Semester:4TH
Subject:HHM
Work Load (Lecture/ Practical) per week (in hours): Lectures- 03, Practicals-02
Lesson Plan Duration:15 weeks (from January, 2018 to April, 2018)/45 DAYS
Week Theory Practical
Lecture
Day Topic
Practical
Day Topic
week 1
day1 Unit 1 Introduction
day 1
Measurement of pressure head
by employing piezometer tube
1.1 fluid,types of fluid
day2
1.2 Properties of fluid viz mass
density,weight density,specific
volume, capillarity ,specific
gravity,viscosity,compressibility
day3 Surface tension,kinematic viscosity,
dynamics viscosity
week 2
day 4
Unit 2 Pressure and its measurement
day 2
Measurement of pressure head
by employing single column
manometer 2.1Concept of pressure,Atmospheric
pressure,gauge pressure,absolute
pressure,pascal law,static pressure
day5
2.2pressure measuring devices:
piezometer tube manometers,U-tube
manometer
day6 2.3Differential single column
manometer
week3
day7 2.4 inverted U tube
manometer,micrometer
day 3
Measurement of pressure head
by employing double column
manometer day 8 Bourden tube pressure gauge
day 9 2.5Diaphragm pressure gauge,dead
weight pressure gauge
week 4
day 10
Unit 3 Flow of fluids
day 4
To find out the value cofficient
of discharge for a
venturimeter/VIVA VOCE
EXP.1-2
3.1Types of fluid flow-steady and
unsteady flow,uniform and non
uniform flow
day 11 3.2 laminar and turbulent flow,rate
of flow,continuity equation
day 12 3.3Potential energy of a flowing
fluid,total head
week 5
day13 3.4 bernoullis theorm its statement
and proof,and its applications day 5
measurement of flow by using
venturimeter
day 14 discharge measurement with the
help of venturi meter
day 15 Orificemeter
week 6
day 16 Pitot tube
day 6
verification of Bernoulli's
theorm day 17
Limitation of bernoulli's theorm,
numerical problems
day18
Unit 4 Flow through pipes
4.1Defination of pipe flow,wetted
perimeter
week 7
day19 4.2 hydraulic mean depth,hydraulic
gradient,loss of head due to friction day7
To find out cofficent of friction
for a pipe
day20 4.3 Chezy equation of head loss
day 21 4.4 Darcy equation of head loss
week 8
day 22 4.5 reynolds no.and its effect on
pipe friction,siphon
day8
To study hydraulic circuit of an
automobile brakE
day 23
Nozzle-its defination,velocity of
liquid flowing through the
nozzle,power developed ,water
hammer
day 24 4.6 Anchor block,syphon,surge tank
week 9
day 25 4.7Loss of head due to sudden
enlargement
day 9
To study hydraulic circuit of an
hydraulic ram/VIVA VOCE
EXP.3-5
day26 4.8 Loss of head due to sudden
contraction,due to obstruction on
flow path
day27 4.9 loss of head due to change of
direction and pipe fittings
week
10
day28
Unit 5 flow through orifices
day10
Study the working of a pelton
wheel 5.1 Cc,Cv,Cd,flow through through
drowned orifice
day29 5.2 Flow through partially drowned
orifices
day30
5.3 Time for emptying a tank
through a circular orifice,numerical
problems
week
11
day 31
Unit 6 Hydraulic Machines
day11
Study the working of Francis
turbine 6.1 Hydraulic ram-
description,operation and
application
day32
6.2 hydraulic jack-
description,operation and
application
day 33
6.3 Hydraulic brake-
description,operation and
application
week
12 day34
6.4Hydraulic accumulator-
description,operation and day12
To study single stage centrifugal
pump
application
day 35
6.5 Hydraulic door closer-
description,operation and
application
day 36
6.6hydraulic press-
description,operation and
application
Unit 7 Water turbine and pumps
day13
week13
day 37 7.1 Cocept of turbine,types of
turbine,differenve between impulse
and reaction turbine
To find normal head and
discharge of centrifugal pump
day 38 7.2Construction and woring of
pelton wheel
day 39 7.3 Francis turbine,Propeller and
Kaplan turbine
week
14
day 40 7.4 Unit speed,unit power,unit
discharge,specific speed,selection of
turbines based on specific speed day14
Study the working of a pelton
wheel
day 41
7.5 Concept of hydraulic
pump,single acting reciprocating
pump
day 42 7.6 Vane ,screw and gear pump
week
15
day 43 7.8 Construction ,working and
operatioan of centrifugal pump
day15
measurement of flow by using
venturimeter/VIVA VOCE
EXP.6-8
day 44
7.9 Performance,efficency and
specification of a centrifugal
pump,troubleshooting and problems
in centrifugal pumps
day 45 7.10Remedial
measures,pitting,cavitation,priming
LESSON PLAN
NAME OF FACULTY: PARTAP SINGH
DISCIPLINE: MECHANICAL ENGINEERING – G.P. SHERGARH
SEMESTER: IV
SUBJECT: I.C. ENGINES
LESSON PLAN DURATION: 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK: THEORY- 3, Prac.-2
WEEK THEORY PRACTICAS
LECTURE TOPIC TOPIC
NO.
1. IC Engines (09 hrs) 1. Study of a two stroke
1
1 Introduction engine using cut section
.2 Working principle of two stroke and four stroke
model, note the function
1st
cycle and material of each part.
2 SI engines and CI engines,
3 Otto cycle,
4 diesel cycle 2. Study of a four stroke
engine using cut section
2
nd 5 and dual cycle
model. Note the function
6
1.3 Location and functions of various parts of IC of each part.
engines and materials used for them
7
1.4 Concept of IC engine terms: bore, stroke, dead Copy Checking/revision
centre, crank throw,
3rd 8 compression ratio, piston displacement, piston
speed
9
2. Fuel Supply in Petrol Engine (08 hrs)
1 Concept of carburetion
10 2 Air fuel ratio 3. Study of battery
ignition system of a multi-
11 2.3 Simple carburetor and its application
cylinder petrol engine
4th MPFI, stressing ignition
12
timings, setting, fixing
order and contact
breaker;
gap adjustment.
13 Common rail system, 4. Study of cooling of IC
engine.
5th 14 super charging and turbo charger
15 Probem soving
16 SESSIONAL TEST-I Copy Checking/revision
6th 17 3. Fuel System of Diesel Engine (06 hrs)
3.1 Components of fuel system
18 3.2 Description and working of fuel feed pump
7th 19
3.
2 Description and working of fuel feed pump 5. Study of lubricating
20 3.3 Fuel injection pump system of IC engine.
21 3.4 Injectors
4. Ignition System of IC Engines (06 hrs) 6. Determination of BHP
22
4.
1 Description of battery coil and magnet ignition by dynamometer.
8th
system
23
4.1 Description of battery coil and magnet ignition
system
24 4.2 Electronic ignition system
25
4.3 Fault finding in ignition system and remedial Copy Checking/revision
action
9th 26 SESSIONAL TEST-II
27
5. Cooling and Lubrication (10 hrs)
5.
1 Function of cooling system in IC engine
5.2 Air cooling and water cooling system, use of 7. Morse test on multi-
28 thermostat, radiator and forced circulation in water cylinder petrol engine.
cooling (description with line diagram)
10th
5.2 Air cooling and water cooling system, use of
29 thermostat, radiator and forced circulation in water
cooling (description with line diagram)
5.2 Air cooling and water cooling system, use of
30 thermostat, radiator and forced circulation in water
cooling (description with line diagram)
31 5.3 Function of lubrication
8. Local visit to roadways
or private automobile
11th 32 5.4 Types and properties of lubricant
workshops.
33
5.5 Lubrication system of engine
34
5.6 Fault finding in cooling and lubrication and Copy Checking/revision
remedial action
12th 35 5.6 Fault finding in cooling and lubrication and
remedial action
36
6. Testing of IC Engines (09 hrs)
.1 Engine power - indicated and brake power
37
6.2 Efficiency - mechanical, thermal. relative and Viva-Voice
volumetric
13th
38 6.3 Methods of finding indicated and brake power
39 .4 Morse test for petro1 engine
40 6.5 Heat balance sheet Viva-Voice
6.6 Concept of pollutants in SI and CI engines,
41
pollution control, norms for twoor four wheelers
BIS – I, II, III and IV methods of reducing pollution
14th
in IC engines,
6.6 Concept of pollutants in SI and CI engines,
42
pollution control, norms for twoor four wheelers
BIS – I, II, III and IV methods of reducing pollution
in IC engines,
43 alternative fuels like CNG and LPG Comiplation
15th 44 Viva-voice
45 SESSIONAL TEST-III
Lesson Plan
Name of faculty:- Mr. Rakesh Dadhwal ( Theory and Practical)
Discipline:- Mechanical Engineering
Semester:- 4th
Subject:- Machine Design & Drawing
Lesson Plan Duration:- 15 weeks (from Jan-2018 to Apr-2018)
Work Load:- Lectures-2, Practicals-6
WEEK
THEORY PRACTICAL
LECTURE
DAY
TOPIC
PRACTICAL
DAY ( 3hrs
each)
TOPIC
1
1
Introduction, Design – Definition,
Type of design, necessity of design
Comparison of designed and
undersigned work
1
Design terminology: stress,
strain, factor of safety, factors
affecting factor of safety,
stress concentration, methods
to reduce stress concentration,
fatigue, endurance limit.
General design consideration,
Codes and Standards (BIS
standards)
2
Design procedure, Characteristics of
a good designer
2
Engineering materials and
their mechanical properties:
Properties of engineering
materials: elasticity, plasticity,
malleability, ductility,
toughness, hardness and
resilience. Fatigue, creep,
tenacity, strength
2
1
Selection of materials, criterion of
material selection
1
Design Failure- Various
design failures-maximum
stress theory, maximum strain
theory, maximum strain
energy theory
2
Classification of loads
2
Design under tensile,
compressive and torsional
loads
3 1
Design of Shaft- Type of shaft, shaft
materials
1
Shaft subjected to torsion
only, determination of shaft
diameter (hollow and solid
shaft) on the basis of :
Strength criterion
Rigidity criterion
2
Type of loading on shaft, standard
sizes of shaft available
2
Determination of shaft dia
(hollow and solid shaft)
subjected to bending
4
1
Numerical problems
1
Determination of shaft dia
(hollow and solid shaft)
subjected to combined torsion
and bending.
2
Unit-1 test
2
Unit-2 test
5 1
Sessional 1st 2
6
1
Design of Key- Types of key,
materials of key 1
Failure of key (by Shearing
and Crushing).
2
Functions of key
2
Design of key (Determination
of key dimension)
7
1
Effect of keyway on shaft strength
1
Important terms used in screw
threads, designation of screw
threads
2
Design of Screwed Joints-
Introduction 2
Initial stresses due to screw up
forces, stresses due to
combined forces
8
1
Advantages and Disadvantages of
screw joints 1
Design of power screws
(Press, screw clamp)
2
Location of screw joints
2
Design of power screws
(screw jack )
9
1
Revision (unit-4)
1
Unit-4 test
2
Revision (unit-5)
2
Unit-5 test
10 1 Sessional 2nd
2
11 1 Cams- Types of cams and followers
Uniform motion (Theory) 1
Profile of cams for imparting
following motion with knife
edge and roller followers
Uniform motion
2
Simple harmonic motion (Theory)
2
Profile of cams for imparting
following motion with knife
edge and roller followers
Simple harmonic motion
12
1
Uniformity accelerated and retarded
motion (Theory)
1
Profile of cams for imparting
following motion with knife
edge and roller followers
Uniformity accelerated and
retarded motion
2
Gears- Nomenclature of gears and
conventional representation 2
Drawing the actual profile of
involute teeth gear by Base
Circle method
13
1
Gears- Types of gears
1
Drawing the actual profile of
involute teeth gear
by involute profile method
2
Revision
2
Drawing the actual profile of
involute teeth gear by Base
Circle method
14
1
Unit-6 test (theoretical part)
1
Profile of cams for imparting
following motion with knife
edge and roller followers
Uniformity accelerated and
retarded motion
2
Unit-6 test (theoretical part)
2
Drawing the actual profile of
involute teeth gear
by involute profile method
15
1
Sessional 3rd 2
Lesson Plan
Name of faculty:- Mr. Rakesh Dadhwal (Theory)
Discipline:- Mechanical Engineering
Semester:- 4th
Subject:- WT-II
Lesson Plan Duration:- 15 weeks (from Jan-2018 to Apr-2018)
Work Load:- Lectures-3
WEEK
THEORY
LECTURE
DAY TOPIC
1st
1 Introduction, objectives and application of workshop technology
2 Cutting Tools - Various types of single point cutting tools and their uses,
Single point cutting tool geometry
3 Tool signature and its effect, Heat produced during cutting and its effect,
Cutting speed, feed and depth of cut and their effect
2nd
1 Cutting Tool Materials - Properties of cutting tool material
2
Study of various cutting tool materials viz. High-speed steel, tungsten carbide,
cobalt steel cemented carbides, stellite, ceramics and diamond.
3 Introduction to Lathe machine, Principle of turning, Function of various parts
of a lathe
3rd
1 Classification and specification of various types of lathe , Work holding device
2
Lathe tools and operations :- Plain and step turning, facing, parting off, taper
turning, eccentric turning, drilling, reaming, boring, threading and knurling,
form turning, spinning.
3 Cutting parameters – Speed, feed and depth of cut for various materials and for
various operations, machining time.
4th
1 Speed ratio, preferred numbers of speed selection, Lathe accessories:- Centers,
dogs, different types of chucks, collets,
2
Lathe accessories:- face plate, angle plate, mandrel, steady rest, follower rest,
taper turning attachment, tool post grinder, milling attachment, Quick change
device for tools
3 Introduction to capstan and turret lathe
5th
1 Sessional 1st
2
3
6th
1 Drilling- Principle of drilling, Classification of drilling machines and their
description
2 Various operation performed on drilling machine – drilling, spot facing,
reaming, boring, counter boring, counter sinking, hole milling, tapping.
3 Speeds and feeds during drilling, impact of these parameters on drilling,
machining time.
7th
1 Types of drills and their features, nomenclature of a drill
2 Drill holding devices
3 Boring- Principle of boring, Classification of boring machines and their brief
description
8th
1 Boring tools
2 Boring bars and boring heads
3 Working principle of shaper, planer and slotter
9th
1 Type of shapers, Type of planers
2 Types of tools used and their geometry
3 Speeds and feeds in above processes
10th
1 Sessional 2nd
2
3
11th
1
Broaching - Introduction, Types of broaching machines – Single ram and
duplex ram horizontal type
2 Types of broaching machines –vertical type pull up, pull down, push down
3 Elements of broach tool, broach tooth details – nomenclature
12th
1 Broach tooth details –types, and tool material.
2 Jigs and Fixtures- Importance and use of jigs and fixture, Principle of location
3 Locating devices
13th
1 Clamping devices
2 Advantages of jigs and fixtures
3
Cutting Fluids and Lubricants - Function of cutting fluid Types of cutting
fluids
14th
1 Difference between cutting fluid and lubricant
2 Selection of cutting fluids for different materials and operations
3 Common methods of lubrication of machine tools
15th
1 Sessional 3rd
2
3
GURU GOBIND SINGH GOVERNMENT POLYTECHNIC EDUCATION SOCIETY
(CHEEKA)
LESSON PLAN
NAME OF
FACULTY: Mr. Himanshu Gupta
DISCIPLINE: Mechanical Engineering
SEMESTER: 4th
SUBJECT: Material & Metallurgy
LESSON PLAN
DURATION 15 WEEKS STARTING FROM JANUARY 2018 TO APRIL 2018
**WORKLOAD LECTURE/PRACTICAL PER WEEK IN HOURS: LECTURE (3), PRACTICAL (2)
WEEK
THEORY LECTURE PRACTICAL
DAY
TOPIC (INCLUDING
ASSIGNMENT/ TEST) DAY TOPIC
1st
1st
Material definition, its scope,
need, future
1st
Classification of about 25 specimens
of materials/machine parts into
(i) Metals and non metals
(ii) Metals and alloys
(iii) Ferrous and non ferrous metals
(iv) Ferrous and non ferrous alloys
2nd
Material origin, history,
development,
3rd
Classification & brief
introduction of various
materials, Assignment-I
2nd
4th
Properties of Materials,
Thermal, Physical, Optical,
Magnetic, Technological
2nd
Given a set of specimen of metals
and alloys (copper, brass, aluminium,
cast iron,
HSS, Gun metal); identify and
indicate the various properties
possessed by them.
5th
Mechanical, Chemical,
Electrical Properties of
Materials
6th
Bio material, Semiconducting
Materials
3rd
7th
Economical, Social,
Environmental Issues related
with Materials
3rd Study of heat treatment furnace.
8th
Crystals, Crystallography,
Crystal Structure, Types of
Crystal Structure, Examples
9th
Unit Cell, Space Lattice,
Crystalographic Axes, Crystal
geometry,
4th
10th
No. of atoms per unit cell,
Atomic Packing Factor,
Coordination Number in
different crystal structure
(simple cubic, FCC, BCC,
HCP) 4th
Study of a metallurgical microscope
and a specimen polishing machine.
11th
Deformation, Elastic, Plastic
deformation, Load, Types of
Load, Stress, Types of Stress,
12th
Fracture/ Failure mechanism,
Brittle & Ductile Fracture,
Fatigue, Creep, Submission of
Assignment-I
5th
13th
Revision of above topics/
Questions/ Doubts Clearing
5th
Objective Type Questions Related to
Expt1,2, 3, 4 discussion
14th
Revision of above topics/
Questions/ Doubts Clearing
15th
Revision of above topics/
Questions/ Doubts Clearing
6th
16th Sessional-1st
6th
Evaluation of Sessional Test/
Assignment
17th Sessional-1st
18th Sessional-1st
7th
19th
Iron Ore, Raw Material for
production of iron & steel,
history of iron & steel
7th
To prepare specimens of following
materials for microscopic
examination and to
Examine the microstructure of the
specimens of following materials:
i) Brass ii)Copper iii)Grey
iv)Malleable v)Low carbon steel
vi)High carbon steel
vii) HSS
20th
Basic Process of Iron & Steel,
Types of Cast Iron, Types of
Steel, Composition,
application, properties
21st
Types & Uses of Alloy Steel,
Effects of Alloying Element to
the properties of steel & cast
iron
8th
22nd
Properties & Uses of Light
metal & White metals,
Assignment-II
8th
To anneal a given specimen and find
out difference in hardness as a result
of
annealing.
23rd
Heat Treatment, objectives,
types of Heat Treatment, Solid
Solution, types of solid
solution,
24th
Iron Carbon Phase equilibrium
diagram, TTT diagram,
Cooling Curve
9th
25th
Revision of above topics/
Questions/ Doubts Clearing
9th
Objective Type Questions Related to
Expt 5,6 discussion
26th
Revision of above topics/
Questions/ Doubts Clearing
27th
Revision of above topics/
Questions/ Doubts Clearing
10th
28th Sessional-2nd
10th
Evaluation of Sessional Test/
Assignment
29th Sessional-2nd
30th Sessional-2nd
Material & Metallurgy 4th Semester
WEEK
THEORY LECTURE PRACTICAL
DAY
TOPIC (INCLUDING
ASSIGNMENT/ TEST) DAY TOPIC
11th
31st
Heat treatment processes,
nitriding, hardening,
tempering, cynaiding,
annealing, normalizing,
surface hardening
11th
To normalize a given specimen and
to find out the difference in hardness
as a
result of normalizing.
32nd
Plastics origin, Types,
Thermoplastic, Thermosetting
Plastic, Trade names of Engg.
Plastics, Plastic Coating,
Assignment-III
33rd
Composite Materials, Types,
Applications, Properties
12th
34th
Ceramic Materials, Types,
Applications, Properties
12th
To harden and temper a specimen
and to find out the difference in
hardness due to
tempering.
35th
Heat insulating materials,
Types, Applications,
Properties
36th
Asbestos, glass wool,
thermocole, cork, mica, their
properties, composition,
different forms, uses
13th 37th
Tool & Die Materials,
Refractory Materials, Spring
Materials, Materials for
Nuclear energy, materials for
bearing metals
13th
Objective Type Questions Related to
Expt1,2, 3, 4 discussion
38th
Revision of above topics/
Questions/ Doubts Clearing
39th
Revision of above topics/
Questions/ Doubts Clearing
14th
40th
Revision of above topics/
Questions/ Doubts Clearing
14th
Internal Practicals Viva-Voce
41st
Revision of above topics/
Questions/ Doubts Clearing
42nd
Revision of above topics/
Questions/ Doubts Clearing
15th
43rd Sessional-3rd
15th
Evaluation of Sessional Test/
Assignment/ Compilation of Internal
Sessionals, Continuous Evaluation 44th Sessional-3rd
45th Sessional-3rd
LESSON PLAN
NAME OF FACULTY: MOHAN LAL SAHU
DISCIPLINE: MECHANICAL ENGINEERING – G.P. CHEEKA
SEMESTER: IV
SUBJECT: WORKSHOP TECHNOLOGY-II
LESSON PLAN DURATION: 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK: THEORY- (3 PERIODS)
WEEK THEORY
LECTURE TOPIC
NO.
1. Cutting Tools and Cutting Materials
1 1.1. Cutting Tools - Various types of single point cutting tools and their
1st
uses.
2 Single point cutting tool geometry, tool signature and its effect
3
Heat produced during cutting and its effect, Cutting speed, feed and depth
of cut and their effect.
1.2
Cutting Tool Materials - Properties of cutting tool material, Study of
4 various cutting tool materials viz. High-speed steel, tungsten carbide,
2nd
cobalt steel cemented carbides, stellite, ceramics and diamond.
5 2. Lathe
2.1 Principle of turning
6 2.2 Function of various parts of a lathe
7 2.3 Classification and specification of various types of lathe
3rd
8 2.4 Work holding devices
2.5
Lathe tools and operations :- Plain and step turning, facing, parting off,
9
taper turning, eccentric turning, drilling, reaming, boring, threading
and
knurling, form turning, spinning.
10
2.6
Cutting parameters – Speed, feed and depth of cut for various materials
and for various operations, machining time.
4th 11 2.7 Speed ratio, preferred numbers of speed selection.
12
2.8
Lathe accessories:- Centers, dogs, different types of chucks, collets,
face plate, angle plate, mandrel, steady rest, follower rest cont..
13
2.8
Lathe accessories:- Centers, dogs, different types of chucks, collets,
face plate, angle plate, mandrel, steady rest, follower rest,
5th 14 Taper turning attachment, tool post grinder, milling attachment, Quick
change device for tools. Cont..
15
Taper turning attachment, tool post grinder, milling attachment, Quick
change device for tools.
16 2.9 Introduction to capstan and turret lathe
6th
17 SESSIONAL TEST-I
3. Drilling
18 3.1 Principle of drilling.
3.2 Classification of drilling machines and their description.
19
3.
2 Classification of drilling machines and their description.
7
th 20
3.3
Various operation performed on drilling machine – drilling, spot facing,
reaming, boring, counter boring, counter sinking, hole milling,
tapping.
21
3.4 Speeds and feeds during drilling, impact of these parameters on
drilling, machining time.
22 3.5 Types of drills and their features, nomenclature of a drill
8th
23 3.6 Drill holding devices.
4. Boring
24 4.1 Principle of boring
4.2 Classification of boring machines and their brief description.
25 4.2 Classification of boring machines and their brief description.
9
th 26
4.3 Boring tools, boring bars and boring heads.
27
5. Shaping, Planing and Slotting
5.1 Working principle of shaper, planer and slotter.
28
5.2 Type of shapers
5.
3 Type of planers
10th
29 5.4 Types of tools used and their geometry.
30
5.5 Speeds and feeds in above processes.
31 SESSIONAL TEST-II
6. Broaching
11
th 32
6.1 Introduction
6.
2
Types of broaching machines – Single ram and duplex ram
horizontal
type, vertical type pull up, pull down, push down.
33
6.2
Types of broaching machines – Single ram and duplex ram horizontal
type, vertical type pull up, pull down, push down.
34
6.3
Elements of broach tool, broach tooth details – nomenclature, types,
and tool material.
12th
35
7. Jigs and Fixtures
7.1 Importance and use of jigs and fixture
36 7.2 Principle of location
37 7.3 Locating devices
38
7.4 Clamping devices
13
th 7.5 Advantages of jigs and fixtures
8. Cutting Fluids and Lubricants (08 hrs)
39
8.
1 Function of cutting fluid
8.2 Types of cutting fluids
40 8.2 Types of cutting fluids
14th 41 8.3 Difference between cutting fluid and lubricant
8.4 Selection of cutting fluids for different materials and operations
42 8.4 Selection of cutting fluids for different materials and operations
43
8.5 Common methods of lubrication of machine tools.
15th 44 VIVA - VOICE
45 SESSIONAL TEST-III
LESSON PLAN
NAME OF FACULTY: MOHAN LAL SAHU
DISCIPLINE: MECHANICAL ENGINEERING – G.P. CHEEKA
SEMESTER: IV
SUBJECT: I.C. ENGINES
LESSON PLAN DURATION: 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK: THEORY-3, Practical-2
WEEK THEORY PRACTICAS
LECTURE TOPIC TOPIC
NO.
1. IC Engines (09 hrs) 1. Study of a two stroke
1
1.
1 Introduction engine using cut section
1.
2
Working principle of two stroke and four
stroke model, note the function
1st
cycle and material of each part.
2 SI engines and CI engines,
3 Otto cycle,
4 diesel cycle 2. Study of a four stroke
engine using cut section
2
nd 5 and dual cycle
model. Note the function
6
1.3 Location and functions of various parts of IC of each part.
engines and materials used for them
7
1.4
Concept of IC engine terms: bore, stroke, dead Copy Checking/revision
centre, crank throw,
3rd 8 compression ratio, piston displacement, piston
speed
9
2. Fuel Supply in Petrol Engine (08 hrs)
2.
1 Concept of carburetion
10 2.2 Air fuel ratio 3. Study of battery
ignition system of a multi-
11 2.3 Simple carburetor and its application
cylinder petrol engine
4th MPFI, stressing ignition
12
timings, setting, fixing
order and contact
breaker;
gap adjustment.
13 Common rail system, 4. Study of cooling of IC
engine.
5th 14 super charging and turbo charger
15 Probem soving
16 SESSIONAL TEST-I Copy Checking/revision
6th 17 3. Fuel System of Diesel Engine (06 hrs)
3.1 Components of fuel system
18 3.2 Description and working of fuel feed pump
7th 19
3.
2 Description and working of fuel feed pump 5. Study of lubricating
20 3.3 Fuel injection pump system of IC engine.
21 3.4 Injectors
4. Ignition System of IC Engines (06 hrs) 6. Determination of BHP
22
4.
1
Description of battery coil and magnet
ignition by dynamometer.
8th
system
23
4.1
Description of battery coil and magnet ignition
system
24 4.2 Electronic ignition system
25 4.3 Fault finding in ignition system and remedial Copy Checking/revision
action
9th 26 SESSIONAL TEST-II
27
5. Cooling and Lubrication (10 hrs)
5.
1 Function of cooling system in IC engine
5.2 Air cooling and water cooling system, use of 7. Morse test on multi-
28
thermostat, radiator and forced circulation in
water cylinder petrol engine.
cooling (description with line diagram)
10th
5.2 Air cooling and water cooling system, use of
29
thermostat, radiator and forced circulation in
water
cooling (description with line diagram)
5.2 Air cooling and water cooling system, use of
30
thermostat, radiator and forced circulation in
water
cooling (description with line diagram)
31 5.3 Function of lubrication
8. Local visit to roadways
or private automobile
11th 32 5.4 Types and properties of lubricant
workshops.
33
5.5 Lubrication system of engine
34
5.6 Fault finding in cooling and lubrication and Copy Checking/revision
remedial action
12th 35 5.6 Fault finding in cooling and lubrication and
remedial action
36
6. Testing of IC Engines (09 hrs)
6.
1 Engine power - indicated and brake power
37
6.2
Efficiency - mechanical, thermal. relative and Viva-Voice
volumetric
13th
38 6.3 Methods of finding indicated and brake power
39 6.4 Morse test for petro1 engine
40 6.5 Heat balance sheet Viva-Voice
6.6 Concept of pollutants in SI and CI engines,
41
pollution control, norms for twoor four wheelers
–
BIS – I, II, III and IV methods of reducing
pollution
14th
in IC engines,
6.6 Concept of pollutants in SI and CI engines,
42
pollution control, norms for twoor four wheelers
–
BIS – I, II, III and IV methods of reducing
pollution
in IC engines,
43 alternative fuels like CNG and LPG Comiplation
15th 44 Viva-voice
45 SESSIONAL TEST-III
LESSON PLAN
NAME OF FACULTY: MOHAN LAL SAHU
DISCIPLINE: MECHANICAL ENGINEERING - G.P. CHEEKA
SEMESTER: VI
SUBJECT: AUTOMOBILE ENGINEERING
LESSON PLAN DURATION: 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK: (3 lectures /2 Practical’s)
THEORY PRACTICALS
WEEK
LECTURE
TOPIC
TOPIC
NO.
1
UNIT-1. Introduction 1. Fault and their
1.1 Automobile and its development. remedies in
(i)
1st
2
1.2 Various types of automobiles manufactured
in Battery Ignition
India. system (ii) magnetic
3 1.3 Layout of chassis. Ignition system.
4
UNIT-2. Power System 2. Demonstration of
2.1 Fuel systems for petrol and diesel engines (i) Head Light Model
2nd
5
Multi point fuel injection (MPFI), common rail direct
(ii) Wiper and
injection (CRDI). Indicators
.
6 Fuel injectors and nozzles.
7 2.2 Comparison of MPFI with carburetor system. 3 Demonstration of
(i) AC Pump
3rd 8 2.3 Concept of double overhead cam, single overhead
(ii)
SU Pump (iii)
cam. Master
Cylinders.
9 Twin cam 16 valve technology in 4 cylinder engine.
10 SESSIONAL TEST -I 4 Demonstration of
(i) rear axle
UNIT-3. Transmission System
4th
(ii) differential
11 3.1 Clutch - Function, Constructional details of single
plate clutch.
(Iii) Steering system.
12 Constructional details of multi plate friction clutches.
13
Centrifugal and semi centrifugal clutch, Hydraulic 5 Fault finding
clutch. practices on
an
5th 14 3.2 Gear Box - Function, Concept of sliding mesh, automobile - four
constant mesh, and synchromesh gear box. wheelers (petrol/
Torque converter and overdrive, diesel vehicles).
15 3.3 Types of drives – Front wheel, Rear wheel, Four
Wheel.
3.4 Function of Propeller shaft, Universal joint, 6 Tuning of an
16 Differential and Different types of Rear axles and Front automobile engine.
Axles.
6th
3.5 Wheels and Tyres - Types of wheels, Types and
17 specifications of tyres used in Indian vehicles, Wheel
balancing.
UNIT-4. Steering System
18 Function and principle of Ackerman steering
mechanism.
7th 19 Function and principle of Davis steering mechanism.
7 Driving practice on
20
Types of steering gear boxes – Worm and nut, worm a 4-wheeler.
and wheel cont.
21 Worm and roller, rack and opinion.
22 Power steering system. 8 Charging of an
automobile battery
8th 23
Alignment of wheels – Toe in, toe out, camber, caster,
an
d measuring cell
kingpin inclination.
voltage and specific
24
SESSIONAL TEST -II
gravity of
Electrolyte.
UNIT-5. Braking system 9 Changing of wheels
25 Constructional details and working of mechanical
and inflation of tyres,
brake. cont. balancing of wheels.
9
th
26
Constructional details and working of hydraulic brake.
cont.
27
Concept of air and vacuum brake.
28
Brake adjustment. 10 Checking spark
gap and valve
10th 29
Introduction to Anti lock brake system and its working.
clearance.
30
UNIT-6. Suspension System
Function, Types of coil spring. cont.
31 Working of coil spring. 11 Cleaning and
adjusting a
11th 32 Function, Types of leaf spring cont.
carburetor.
33 Working of leaf spring.
34 Concept of Air suspension Copy Checking /
revision
12th 35 Shock absorber.
36
UNIT-7. Auto Electrical System
Constructional details of lead acid cell battery.
37 Maintenance of batteries. Viva- voice
13th 38 Checking of batteries for voltage and specific gravity.
39 Magneto and Battery coil ignition system.
40 Concept of Dynamo. Viva- voice
14th 41 Alternator - Construction and working.
42
Charging of battery by Alternator and Regulator.
15th 43 SESSIONAL TEST -III
Lesson Planning for the semester starting w.e.f. 09.01.2018
Guru Gobind Singh Govt. Polytechnic Education Society, Cheeka (District Kaithal)
Name of the Faculty: ER. Rohit Kamboj
Discipline: Lecturer
Semester: 6th
Subject: EDM
Lesson Plan Duration: 15 weeks (from January, 2018 to April, 2018)
Work Load (Lecture/ Practical) per week (in hours): Lecture- 03
Week
Theory
Lecture
day
Topic
(including assignment/ test)
1st
1st
Entrepreneurship Concept /Meaning and its need
2nd Qualities of entrepreneur
3rd Functions of entrepreneur
2nd
4th
Barriers in entrepreneurship
5th Sole proprietorship in business organisations
6th Partnership firms in business organisations
3rd
7th
Schemes of assistance by entrepreneurial support agencies at
National, State, District –level
8th Organisations NSIC, NRDC,MSME, SIDBI
9th NABARD, Commercial Banks, SF, TCO
4th
10th
KVIB , DIC
11th Technology Business Incubators (TBI)
12th
Science and Technology Entrepreneur Parks
5th
13th
Test
14th Scanning of the business environment
15th Salient features of National and State industrial policies
6th
16th Resultant Business opportunities
17th Types and conduct of market survey
18th Assessment of demand and supply in potential areas of growth
7th
19th
Identifying business opportunity
20th Considerations in product selection
21th Test
8th
22th
Assignment
23th Preliminary project report 24th Detailed project report
9th
25rd
Technical, economic and market feasibility of project
26th Common errors in project report preparations
27th Exercises on preparation of project report
10th
28th Test and Problem solving
29h Definitions and importance of management,
Functions of management: Importance and process of planning,
organising,
staffing, directing and controlling
30th
Principles of management (Henri Fayol, F.W. Taylor)
11th
31th Concept and structure of an organization, Types of industrial
organizations: Line organization,Line and staff organization,
Functional Organisation
32th Test and Assignment
33st Leadership: Definition and Need, Qualities and functions of a leader,
Manager Vs leader,Types of leadership
12th
34rd Motivation: Definitions and characteristics, Factors affecting
motivation
35th Theories of motivation (Maslow, Herzberg, Douglas, McGregor)
36th Management Scope in Different Areas, Human Resource
Management, Introduction and objective
13th 37th Introduction to Man power planning, recruitment and
selection,Introduction to performance appraisal methods
38th Material and Store Management: Introduction, functions, and
objectives, ABC Analysis and EOQ
39th Marketing and sales:Introduction, importance, and its functions
,Physical distribution, Introduction to promotion mix,Sales promotion
14th 40th Financial Management :Introductions, importance and its functions ,
Elementary knowledge of income tax, sales tax, excise duty, custom
dutyand VAT
41th Test and Assignment
42th Customer Relation Management (CRM): Definition and need,Types
of CRM
15th 43th Total Quality Management (TQM), Statistical process control, Total
employees Involvement, Just in time (JIT)
44th Intellectual Property Right (IPR), Introductions, definition and its
importance, Infringement related to patents, copy right, trade mark
45th Test and Revision
Lesson Planning for the semester starting w.e.f. 09.01.2018
Guru Gobind Singh Govt. Polytechnic Education Society, Cheeka (District Kaithal)
Name of the Faculty: ER. Rohit Kamboj
Discipline: Lecturer
Semester: 6th
Subject: I.E
Lesson Plan Duration: 15 weeks (from January, 2018 to April, 2018)
Work Load (Lecture/ Practical) per week (in hours): Lecture- 04
Week
Theory
Lecture
day
Topic
(including assignment/ test)
1st
1
Productivity : Introduction to productivity
2 Factors affecting productivity
3 Measurement of productivity
4 Causes of low productivity
2
5 Methods to improve productivity
6 Introduction and Definition of work study
7 Scope of work study
8 Inter-relation between method study and work measurement
3
9 Inter-relation between method study and work measurement
10 Introduction of Human aspects of work study
11 Human aspects of work study
12 Role of work study in improving productivity
4
13 Assignment
14 Test
15 Problem and doubts
16 Method Study: Introduction and Objectives
5
17 Procedure for Method Study
18 Method analysis
19 Information collection
20 Recording techniques.
6
21 Test
22 Motion Analysis: Introduction
23 Principles of Motion analysis
24 Therbligs
7
25 SIMO chart
26 Normal work area and design of work places
27 Ergonomics
28 Work Measurement: Introduction and Objectives
8
29 Work measurement techniques
30 Time study
31 Stop watch method ,principle, equipment used and procedure
32 Systems of performance rating
9
33 Calculation of basic time,
34 Various allowances
35 Calculation of standard time
36 Work sampling
10
37 Standard data and its usage
38 Test and Assignment
39 Introduction to wages, Wage payment for direct and indirect
labour
40 Wage payment plans
11
41 Incentives and various incentive plans
42 Incentives for indirect labour
43 Introduction, objectives and components (functions) of P.P.C,
Advantages of production planning and Production Control
(P.P.C)
44 Stages of P.P.C
12
45 Process planning, Routing, Scheduling, Dispatching and Follow
up
46 Routing purpose, route sheets
47 Scheduling purpose, machine loading chart, Gantt chart,
48 Dispatching purpose and procedure, Follow up purpose and
procedure
13
49 CPM/PERT technique, drawing of simple networks and critical
time calculation
50 Production Control in job order
51 Batch type and continuous type of productions, Difference
between these controls
52 Test and Assignment
14 53 Estimating and Costing; Introduction, purpose/functions of
estimating
54 Costing concept, ladder and elements of cost
55 Difference between Estimation and Costing
56 Overheads and their types
15
57 Estimation of material cost
58 Estimation of cost for machining processes,numerical problems
59 Test
60 Assignment and Doubts
GURU GOBIND SINGH GOVERNMENT POLYTECHNIC EDUCATION SOCIETY
(CHEEKA)
LESSON PLAN
NAME OF
FACULTY: Mr. Himanshu Gupta
DISCIPLINE: Mechanical Engineering
SEMESTER: 6th
SUBJECT: Employability Skills-II
LESSON
PLAN
DURATION
15 WEEKS STARTING FROM JANUARY 2018 TO APRIL 2018
**WORKLOAD LECTURE/PRACTICAL PER WEEK IN HOURS: Practical (2)
WEEK
PRACTICAL
DAY TOPIC (INCLUDING ASSIGNMENT/ TEST)
1st 1st Importance of Communication, Effect and methods to improve, essentials for
good communication, its role in getting job, "Words can be bullets or blooms"
2nd 2nd How to prepare for interview, Mock Interview, Questions/ Answer asked in an
interview
3rd 3rd Call for meeting, agenda of meeting, minutes of meeting
4th 4th Group Discussion Do's & Don'ts
5th 5th Viva Voce
6th 6th Seminar
7th 7th Tips for making Presentation
8th 8th Elements of good presentation
9th 9th Structure & tools of presentation
10th 10th Viva Voce
11th 11th Paper Reading
12th 12th Power Point Presentation
13th 13th Q/A and evaluation
14th 14th Internal Viva Voce
15th 15th Evaluation & Compilation of Internal Sessional Marks
LESSON PLAN
NAME OF
FACULTY: Mr. Himanshu Gupta
DISCIPLINE: Mechanical Engineering
SEMESTER: 6th
SUBJECT: Industrial Engineering
LESSON PLAN
DURATION 15 WEEKS STARTING FROM JANUARY 2018 TO APRIL 2018
**WORKLOAD LECTURE/PRACTICAL PER WEEK IN HOURS: LECTURE (4)
WEEK
THEORY LECTURE
DAY TOPIC (INCLUDING ASSIGNMENT/ TEST)
1st
1st Introduction, Scope of Industrial Engg., Production, Productivity
2nd Factors affecting Productivity, Causes of Low Production/ Productivity
3rd Measurement of Productivity, Methods to improve productivity
4th Assignment-I, Objective Type Questions
2nd
5th
Stop watch time study on any machine like lathe, drilling machine or
milling
machine
6th Work Study, Scope, Method of work study
7th Human Aspects of Work study,
8th Role of work study in productivity improvement
3rd
9th objective & Procedure work study
10th Recording Techniques
11th Method improvement - Assembly of bolt, nut and 3 washers
12th Motion Analysis tools
4th
13th Principles of Motion Analysis
14th Therbligs
15th SIMO Chart
16th Design of Work Place
5th
17th Ergonomics
18th Revision Question/ Answer session
19th Assignment-II Objective Type Questions
20th Revision
6th
21st Sessional-I
22nd Sessional-I
23rd Sessional-I
24th Sessional-I
7th
25th Evaluation of Sessional Test/ Assignment
26th Preparation of flow process chart
27th Types of Flow Process Chart
28th
work measurement, stop watch time study, standard rating, normal
rating, standard performance
8th 29th Work sampling, standard data
30th Determination of standard time for assembly of electrical switch
31st Wage & Incentive. Types
32nd Assignment-III Objective Type Questions
9th
33rd Incentive Plan
34th Functions of PPC, Advantage Stages in PPC
35th Revision
36th Doubts Clearing
WEEK
THEORY LECTURE
DAY TOPIC (INCLUDING ASSIGNMENT/ TEST)
10th
37th Sessional-II
38th Sessional-II
39th Sessional-II
40th Sessional-II
11th
41st Evaluation of Sessional Test/ Assignment
42nd
Routing, Scheduling, dispatching, follow up, route sheet, process
planning,
43rd machine loading chart, Gantt chart
44th Preparation of SIMO chart
12th
45th Preparation of flow diagram
46th Doubts Clearing
47th Quiz
48th Evaluation of Sessional Test/ Assignment
13th
49th CPM, PERT techniques
50th Network, Critical Time calculation
51st Estimating, Costing
52nd Ladder of Cost
14th
53rd Overheads, Types
54th Estimation of Material Cost
55th Estimation of Machining Time
56th Numericals
15th
57th Sessional-III
58th Sessional-III
59th Sessional-III
60th
Evaluation of Sessional Test/ Assignment/ Compilation of Internal
Sessionals, Continuous Evaluation
LESSON PLAN
NAME OF FACULTY: PARTAP SINGH
DISCIPLINE: MECHANICAL ENGINEERING - G.P. SHERGARH
SEMESTER: VI
SUBJECT: AUTOMOBILE ENGINEERING
LESSON PLAN DURATION: 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK: (3 lectures /2 Practical’s)
THEORY PRACTICALS
WEEK
LECTURE
TOPIC
TOPIC
NO.
1
UNIT-1. Introduction 1. Fault and their
1.1 Automobile and its development. remedies in
(i)
1st
2
1.2 Various types of automobiles manufactured
in Battery Ignition
India. system (ii) magnetic
3 1.3 Layout of chassis. Ignition system.
4
UNIT-2. Power System 2. Demonstration of
2.1 Fuel systems for petrol and diesel engines (i) Head Light Model
2nd
5
Multi point fuel injection (MPFI), common rail direct
(ii) Wiper and
injection (CRDI). Indicators.
6 Fuel injectors and nozzles.
7 2.2 Comparison of MPFI with carburetor system. 3 Demonstration of
(i) AC Pump
3rd 8 2.3 Concept of double overhead cam, single overhead
(ii)
SU Pump (iii)
cam. Master
Cylinders.
9 Twin cam 16 valve technology in 4 cylinder engine.
10 SESSIONAL TEST -I 4 Demonstration of
(i) rear axle
UNIT-3. Transmission System
4th
(ii) differential
11 3.1 Clutch - Function, Constructional details of single
plate clutch.
(Iii) Steering system.
12 Constructional details of multi plate friction clutches.
13
Centrifugal and semi centrifugal clutch, Hydraulic 5 Fault finding
clutch. practices on
an
5th 14
3.2 Gear Box - Function, Concept of sliding mesh, automobile - four
constant mesh, and synchromesh gear box. wheelers (petrol/
Torque converter and overdrive, diesel vehicles).
15 3.3 Types of drives – Front wheel, Rear wheel, Four
Wheel.
3.4 Function of Propeller shaft, Universal joint, 6 Tuning of an
16 Differential and Different types of Rear axles and Front automobile engine.
Axles.
6th
3.5 Wheels and Tyres - Types of wheels, Types and
17 specifications of tyres used in Indian vehicles, Wheel
balancing.
UNIT-4. Steering System
18 Function and principle of Ackerman steering
mechanism.
7th 19 Function and principle of Davis steering mechanism. 7 Driving practice on
20
Types of steering gear boxes – Worm and nut, worm a 4-wheeler.
and wheel cont.
21 Worm and roller, rack and opinion.
22 Power steering system. 8 Charging of an
automobile battery
8th 23
Alignment of wheels – Toe in, toe out, camber, caster,
an
d measuring cell
kingpin inclination.
voltage and specific
24 SESSIONAL TEST -II
gravity of
Electrolyte.
UNIT-5. Braking system 9 Changing of wheels
25 Constructional details and working of mechanical and inflation of tyres,
brake. cont. balancing of wheels.
9
t
h
26
Constructional details and working of hydraulic brake.
cont.
27
Concept of air and vacuum brake.
28
Brake adjustment. 10 Checking spark
gap and valve
10th 29
Introduction to Anti lock brake system and its working.
clearance.
30
UNIT-6. Suspension System
Function, Types of coil spring. cont.
31 Working of coil spring. 11 Cleaning and
adjusting
a
11th 32 Function, Types of leaf spring cont.
carburetor.
33 Working of leaf spring.
34 Concept of Air suspension Copy Checking /
revision
12th 35 Shock absorber.
36
UNIT-7. Auto Electrical System
Constructional details of lead acid cell battery.
37 Maintenance of batteries. Viva- voice
13th 38 Checking of batteries for voltage and specific gravity.
39 Magneto and Battery coil ignition system.
40 Concept of Dynamo. Viva- voice
14th 41 Alternator - Construction and working.
42
Charging of battery by Alternator and Regulator.
15th 43 SESSIONAL TEST -III