1
Lesson Plan Name of Faculty : Visiting Faculty (Practical)
Discipline : Civil Engineering
Semester : 2nd
Subject : Engg. Drawing-II
Lesson Plan Duration : 15 Weeks (from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in hours): Practical-06
Week Practical
Day Topic
1st 1st
Unit 1 - Detail and Assembly Drawing Principle and utility of detail and assembly drawings. Wooden joints i.e. corner mortise and tenon joint
2nd Tee halving joint, Mitre faced corner joint, Tee bridle joint.
2nd 1st Crossed wooden joint, Cogged joint
2nd Dovetail joint, Through Mortise and Tenon joint
3rd
1st Furniture drawing - freehand and with the help of drawing instruments
2nd
Unit 2 - Screw Threads Types of threads-External and Internal threads, Right and Left hand threads (Actual and Conventional representation), single and multiple start threads.
4th 1st
Forms of screw threads-V threads (B.S.W threads, B.A thread, American National and Metric thread
2nd Square threads (square, Acme, Buttress and Knuckle thread) Different
5th 1st
Unit 3 - Nuts and Bolts Different views of hexagonal and square nuts. Square and hexagonal headed bolt.
2nd Assembly of Hexagonal headed bolt and Hexagonal nut with washer
6th 1st
Assembly of square headed bolt with hexagonal and with washer
2nd Revision of Hexagonal headed bolt and square headed bolt
7th 1st
Unit 4 -Locking Devices Different types of locking devices-Lock nut, castle nut, split pin nut, locking plate, slotted nut and spring washer
2nd Drawing of various types of studs
8th 1st Drawing of various types of studs 2nd Revision of Rag bolt lewis bolt
9th 1st
Unit 5 - Keys and Cotters Various types of keys and cotters - their practical application, drawings of various keys and cotters showing keys and cotters in position
2nd Spigot and socket joint 10th 1st Gib and cotter joint
2
2nd Knuckle joint
11th
1st Revision of spigot and socket joint
2nd Unit 6 - Rivets and Riveted Joints Types of general purpose-rivets heads Caulking and fullering of riveted joints
12th 1st
Lap joint-Single riveted, double riveted (chain and zig-zag type)
2nd Single riveted, Single cover plate butt joint
Single riveted, double cover plate butt joint
13th 1st
Double riveted, double cover plate butt joint(chain and zig-zag type)
2nd Unit 7 - Couplings Introduction to coupling, their use and types
14th 1st Muff coupling
2nd Flange coupling (protected)
15th 1st Flexible Coupling
2nd Revision of flange coupling
3
Name of the Faculty : Vijinder Singh
Discipline : Civil Engineering
Semester : 4th
Subject : Applied Mechanics
Lesson Plan Duration : 15 weeks (From January 2018 to April 2018)
Workload (Lecture/Practical) per week (in hours): Lectures-03, Practicals-02
Week Theory Practical Lecture
day Topic
(including assignment/test) Practical
Day Topic
1st 1 Concept of engineering mechanics 1st
Introduction different types of tests 2 Definition, basic quantities and
derived quantities of basic units and derived units
3 Different systems of units 2nd 4 Concept of rigid body, scalar and
vector quantities 2nd
Verification of the polygon law of forces, using greaves and apparatus 5 Laws of forces:- definition of forces,
measurement of force in SI units 6 Different forces systems principle of
transmissibility, law of super-position
3rd 7 Composition and resolving of coplanar concurrent forces, triangle law
3rd
To verify the forces in different members of forces
8 Free body diagram, equilibrant force and its determination
9 Lami’s theorem and simple numerical on above topics
4th 10 Moment:- concept of moment 4th
To verify the reaction at the supports of a simply supported beams
11 Moment of force and units, varignon’s theorem, principle of moment and its application
12 Parallel forces, calculation their
resultant, concept of couple, its properties and effects
5th 13 General conditions of equilibrium of bodies under coplanar forces
5th
To find the mechanical advantage , velocity ratio and efficiency in case of an inclined plane
14 Position of resultant force by moment,
15 Simple numerical problem on the above topics
6th 16 Friction: Definition and concept of friction
6th
To find the mechanical advantage, velocity ratio and efficiency ratio and efficiency of screw jack
17 Types of friction, force of friction 18 Laws of static friction, coefficient of
friction, angle of friction, angle of
4
repose, cone of friction 7th 19 Equilibrium of a body lying on a
horizontal plane. 7th
Practice
20 Equilibrium of a body lying on a rough inclined plane
21 Centre of gravity:- concept 8th 22 Definition of centroid of plain figures
and centre of gravity of symmetrical solid bodies
8th
To find the mechanical advantage, velocity ratio and efficiency of worm and worm wheel 23 Determination of centre of gravity
of solids bodes 24 Composite bodies and bodies with
portion removed 9th 25 Simple numerical problem on centre
of gravity 9th
To find mechanical advantage, velocity ratio and efficiency of single purchase crab
26 Simple mechanics: concept 27 Definition of effort, velocity ratio,
mechanical advantage and efficiency 10th 28 Test and assignments 10th
To find centre of gravity of regular lamina 29 Simple and compound machine
30 Definition of ideal machine, reversible and self-locking machine
11th 31 Effort loss in friction, load lost in friction, determination of maximum mechanical advantage
11th
To find centre of gravity of irregular lamina
32 System of pulleys, determination of velocity ratio, mechanical advantage, and efficiency
33 Assignments 12th 34 Working principle and application of
wheel and axle 12th
Practice
35 Weston’ Differential pulley 36 Simple screw jack, worm and worm
wheel 13th 37 Single and double winch crab,
expression for their velocity ratio 13th
To determine coefficient of friction between three pairs of given surface 38 Simple numerical problem on simple
mechanics 39 Assignments
14th 40 Torsion: concept 14th
Practice
41 Torsion in shafts/bars 42 Modulus of rigidity
15th 43 Torsion equation(simple numerical problem)
15th
Practice
44 Power transmission in shafts 45 Revision
5
Name of the Faculty : Vijinder Singh
Discipline : Civil Engineering
Semester : 4th
Subject : Water Supply and Waste Water Engineering.
Lesson Plan Duration : 15 weeks (From January 2018 to April 2018)
Workload (Lecture/Practical) per week (in hours): Lectures-04, Practicals-02
Week Theory Practical Lecture
day Topic
(including assignment/test) Practical
Day Topic
1st
1 Brief description
1st
Introduction different types of water tests
2 Water requirement for different purpose
3 Variation in Demand 4 BIS Standards
2nd
5 Meaning of pure water
2nd
To determine turbidity of water sample
6 Test of water 7 Standard of Potable water 8 Maintenance of Purity
3rd
9 Brief introduction to Water Treatment
3rd
To determine dissolved oxygen of given sample
10 Sedimentation Coagulation 11 Flocculation Filtration 12 Flow diagrams of different
treatments units
4th
13 Different types of Pipes and their joints
4th
To determine pH value of water
14 Appurtenances 15 Water Distribution System 16 Maintenance of Water Distribution
system
5th
17 Laying out pipes
5th
To perform jar test for coagulation
18 Procedure for laying out pipes 19 Testing 20 Test and assignments
6th
21 System of Building water Supply
6th
To determine BOD of given sample
22 Connections to water main 23 Water supply fixtures and their
installations 24 Assignments
7th
25 Introduction to waste water
7th
To determine residual chlorine in water
26 Necessity of systematic collection and disposal of waste water
27 Methods of Waste Water collection 28 Types of Sewage
8th
29 Introduction to sewerage system 8th
To determine conductivity of water and total dissolved solids
30 Types of sewerage 31 Appurtenance for Sewerage system
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32 Appurtenance for Sewerage system
9th
33 Laying and Construction of sewer
9th
To study the installations of following Water meter Connections of water supply of building with main
34 Procedure for Laying out sewer 35 Construction of surface mains 36 Test and assignments
10th
37 Sewage Characteristics
10th
To study the installations of following Pipe valves and bends Water supply and sanitary fittings
38 Properties of Sewage 39 IS Standards for analysis of sewage 40 Physical parameter of sewage
11th
41 Chemical and bacteriological parameter of sewage
11th
To study and demonstrate the joining/threading of GI pipes, CI pipes, SW pipes, D I pipes and PVC pipes
42 Natural methods of sewage disposal 43 General composition of sewage 44 Disposal by Land dilution
12th
45 Self-purification of streams
12th
To demonstrate the laying of SW pipes for sewers
46 Disposal by land treatment 47 Sewage Treatments 48 Meaning and Principle
13th
49 Introduction and Use of screens
13th
Study of water purifying process by visiting a field lab
50 Grit chambers, detritus tanks 51 Skimming tank
Plain sedimentation tank 52 Primary and secondary clarifiers
14th
53 Sand filters
14th
To test house drainage 54 Sludge treatments and disposal 55 Oxidation ponds 56 Test
15th
57 Building drainage
15th
Practice
58 Requirements of building drainage 59 Different sanitary fittings and
installations 60 Traps, seals, causes of breaking
seals
7
Name of the Faculty : Vijinder Singh
Discipline : Civil Engineering
Semester : 4th
Subject : Civil Engineering Drawing-II
Lesson Plan Duration : 15 weeks (from January, 2018 to April, 2018)
Work Load: Practicals-06 (02 periods per week of 03 hours duration each)
Week Practical
Practical Day
Topic including assignment/Test
1st 1 Part-A WS&WWE: Introduction.
2 Drawing of drain and sewer: Cross section of standard types of open drains(circular, v-shaped and U shaped) with their foundations
2nd 3 Cross section of earthen ware, RCC sewer pipes and masonry sewer 4 Traps, manhole and inspection chamber: Detailed section of floor trap and
gully trap
3rd 5 Detailed plan and section of an inspection chamber
6 Detailed plan and section of a manhole
4th
7 Septic tank and Sock Pit: Detailed plan and cross sections of a domestic septic tank with sock pit for 10 users
8 Septic tank and Sock Pit: Detailed plan and cross sections of a domestic septic tank with sock pit for 50 users
5th
9 Bathroom and W.C connections: Cross section through the external wall of lavatories at ground and first floor showing the one and two pipe system and connections of the lavatory to inspection chamber
10 Plan of bathroom showing positions of lavatory, bath tub, wash basin, taps and showers
6th 11 Sessional Test 12 Draw sectional elevation of a two storied building showing details of one pipe
and two pipe systems with sanitation system
7th 13 Practice of reading water supply and sanitary engineering working drawings
including hot and cold water supply system of a two room set 14 Practice
8th 15 Detailed layout plan of Sewage Treatment plant for a residential area and
effluent treatment plant for an industrial unit 16 Practice
9th 17 Part-B: Introduction 18 Typical cross section of a channel: L-section of a channel for given data
10th 19 Typical cross section of an unlined and lined channel in cutting partly cutting
and partly filling and fully in filling with given design data 20 Layout plan of canal head work
11th 21 Draw the typical L-section of a weir 22 Draw the X-section of an earthen dam of homogenous shape
12th 23 Draw the X-section of an earthen dam of Zoned type 24 Draw the X-section of an earthen dam of Diaphragm type
13th 25 Cross-section of a tube well
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26 Practice
14th 27 Assignments 28 Layout and cross-section of rain water harvesting system
15th 29 Exercise 30 Exercise
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Name of the Faculty : Ms. Chhavi Goyal
Discipline : Civil Engineering
Semester : 4th
Subject : Irrigation Engineering
Lesson Plan Duration : 15 weeks (from January, 2018 to April, 2018)
Work Load : Lectures-04
Week Theory
Lecture Day Topic including assignment/Test
1st
1
Introduction: Definition of irrigation; Necessity of irrigation; History
of development of irrigation in India;
Major, medium and minor irrigation projects
2 Water Requirement of Crops: Principal crops in India and their water
requirements; Crop seasons – Kharif and Rabi
3
Soil water, soil crop and water relationships, duty, delta and base
period, their relationship; Gross commanded area (GCA), culturable
commanded area (CCA), intensity of irrigation, irrigable area
4 Numericals & Assignment
2nd
5 Hydrological Cycle Catchment Area and Run-off: Rainfall
6 Rain-gauges – automatic and non-automatic
7 Methods of estimating average rainfall (Arithmatic system)
8 Catchment area runoff, factors affecting runoff
3rd
9 Hydrograph, basic concept of unit hydrograph.
10 Methods of Irrigation: Flow irrigation - its advantages and
limitations
11 Lift Irrigation – Tube well and open well irrigation, their advantages
and disadvantages
12 Sprinkler irrigation- conditions favourable and essential
requirements for sprinkler irrigation
4th
13 Sprinkler system – classification and component parts
14 Drip irrigation, suitability of drip irrigation, layout
15 Drip irrigation: component parts, advantages, Assignment
16 Class Test
5th
17 Canals: Classification
18 Apurtenancs of a canal and their functions, sketches of
different canal cross-sections (unlined)
19 Various types of canal lining - their related advantages and
disadvantages, Sketches of different lined canal x-sections
20 Breaches and their control
6th
21 Maintenance of lined and unlined canals
22 Sessional Test
23 Tube Well Irrigation: Introduction, occurrence of ground water,
10
location and command, advantages and disadvantages, comparison
with canal irrigation
24 Tube wells, explanation of terms: water table, radius of influence,
depression head, cone of depression, confined and unconfined
aquifers. Yield of a well
7th
25 Methods of determining yield of well
26 Method of boring
27 Installation of well assembly, development of well
28 Pump selection and installation and maintenance
8th
29 Water Harvesting Techniques: Need and requirement of various
methods, Run-off from roof top and ground surface
30 Construction of recharge pits and recharge wells and their
maintenance.
31 Dams: Classification of dams
32 Earthen dams - types, causes of failure
9th
33 Cross section of zoned earthen dams, method of construction
34 Gravity dams – types, cross-sections of a dam
35 Gravity dam - method of construction
36 Concept of small and micro dams, Concept of spillways
10th
37 Concept of energy dissipators
38 Canal Head Works and Regulatory Works: Definition, object, general
layout, different parts of head works.
39 Weir or barrage and their difference
40 Scouring sluices or Under sluices, Divide wall , Fish ladder
11th
41 Canal head regulator, silt excluders
42 Marginal bunds and Guide banks
43 Assignment
44 Sessional Test
12th
45 Cross Drainage Works: Functions and necessity of the aqueduct with
sketch
46 Functions and necessity of the super passage with sketch
47 Functions and necessity of the level crossing with sketch
48 Functions and necessity of the inlet and outlet with sketch
13th
49 Definitions of following Hydraulic Structures with Sketches-
Falls
50 Cross and head regulators
51 Outlets & Canal Escapes
52 River Training Works: Methods of river training, guide banks
14th
53 retired (levees) embankments
54 Groynes and spurs
55 Pitched island, cut-off
56 Water Logging and Drainage and Ground Water Re-charge:
11
Definition of water logging – its causes and effects, detection,
prevention and remedies
15th
57 Reclamation of soil, Surface and sub-surface drains and their layout
58 Concept and various techniques used for ground water re-charge
59 Assignment / Revision
60 Revision
12
Name of the Faculty : Ms. Pooja Verma
Discipline : Civil Engg.
Semester : IV
Subject : Concrete Technology
Lesson Plan Duration : 15 weeks (from January, 2018 to April,
2018)
** Work Load (Lecture/Practical ) per Week (In Hours): Lecture-03, Practical -02
Week Theory Practical
Lecture
Day
Topic
(Including assignment/test)
Practical
Day
Topic
1st
1. Definition of Concrete, Uses
of Concrete in comparison
other building material
1st & 2nd
To determine the physical
properties of cement as per IS
codes
2. Ingredients of Concrete,
Cement aggregates water,
Types of Cement
3. Classification of aggregates,
Characteristics of aggregates
2nd
4. Grading of aggregates
1st & 2nd
To determine flakiness and
elongation index of coarse
aggregates
5. Water quality requirement as
per IS Code 456-2000
6. Water cement ratio, Duff
Abrams water cement ratio
law
3rd
7. Limitation of water Cement
ratio law and effect on
strength of concrete
1st & 2nd To determine silt in fine
aggregate 8. Work ability, measurement of
work ability, Factor effecting
work ability
9. Slump Test compacting factor
4th
10. Properties of Concrete in
plastic state, work ability 1st
& 2nd
Determination of specific
Gravity and water absorption of
aggregates
11. Bleeding, Harshness
12. Properties in Hardened,
Strength durability
5th
13. Dimensional changes
impermeability 1st & 2nd Determination of bulk density
and voids of aggregates 14. Revision
13
15. Test
6th
16. Objectives of mix design
1st & 2nd
To determine surface moisture
in fine aggregate by
displacement method
17. Adjustment on site for:
Bulking of fine aggregate
18. Difference between nominal
and controlled concrete
7th
19. Introduction to IS-10262-
2009-code for controlled mix
design
1st & 2nd
Determination of particle size
distribution of fine, coarse and
all in aggregate by sieve analysis
(grading of aggregate)
20. Introduction to admixtures
for improving performance of
concrete
21. -------Do-------
8th
22. Special Concrete, Cold
weather concrete, under
weather concrete, hot
weather concrete 1st & 2nd
To determine necessary
adjustment for bulking of fine
aggregate 23. Ready mix concrete
24. Fiber reinforced concrete
9th
25. Polymer Concrete
1st & 2nd
To determine workability by
slump test:
26. Fly and concrete
27. Silica fume Concrete
10th
28. Concreting Operation, Storing
of Cement
1st & 2nd
To verify the effect of water, fine
aggregate/ coarse aggregate
ratio
29. Storing of aggregate at site
and aggregate/cement ratio on
slump 30. Batching of Cement
11th
31. Batching of Aggregate by
volume by using gauge box
1st & 2nd Compaction factor test for
workability
32. Revision
33. Test
14
12th
34. Mixing, Hand Mixing, Machine
Mixing
1st & 2nd
Non-destructive test on concrete
by:
a. Rebound Hammer Test
35. Maintenance of Machine
36. Transportation of Concrete
by using tower crane, Transit
mixers
13th
37. Placement of Concrete,
Checking of form work
1st & 2nd b. Ultrasonic Pulse Velocity
Test
38. Shuttering and precaution to
be taken placement
39. Compaction, Hand
compaction, Machine
Compaction
14th
40. Finishing Concrete slabs-
screeding, floating and
trowelling
1st & 2nd
Tests for compressive strength
of concrete strength of concrete
cubes for grades of concrete
41. Curing, Objective of curing,
methods of curing
42. Jointing , There importance
and location
15th
43. Defects in Concrete:
Identification and method of
Repair
1st & 2nd ---DO--- 44. Importance and methods of
Non-destructive tests
45. Field Visit may be planned to
explain and show the
relevant things
15
Name of the Faculty : Ms. Pooja Verma
Discipline : Civil Engg.
Semester : IV
Subject : Reinforced Cement Concrete
Lesson Plan Duration : 15 weeks (from January, 2018 to April, 2018)
** Work Load (Lecture/ Practical ) per Week (In Hours): Lecture-05
Week Theory
Lecture
Day
Topic
(Including assignment/test)
1st
1 Concept of reinforced cement concrete
2 Reinforcement materials
3 Properties of mild steel and HYSD steel
4 Loading on structures as per IS: 875
5 Discussion and oral test of previous topics
2nd
6 Introduction about methods of R.C.C. Design
7 Working stress method
8 Limit state method
9 Differentiate between above methods
10 Shear and development length
3rd
11 Shear as per IS:456:2000 by working stress method
12 Shear strength of concrete
13 Concept of maximum shear stress
14 Shear reinforcement
15 Revision of above topics
4th
16 Introduction of singly reinforced beam
17 Stress strain curve and neutral axis
18 Balanced, Under reinforced and over reinforced beam
19 Moment of resistance for singly reinforced beam
20 Design of singly reinforced beam
5th
21 Test of above covered syllabus
22 Concept of limit state method
23 Assumptions made in limit state of collapse
24 Partial factor of safety for loads and materials
25 Design loads, stress block, parameters
6th
26 Singly reinforced beam
27 Theory of singly reinforced beam
28 Design of singly reinforced beam by limit state method
29 Numerical practice
30 Doubts and numerical practice
16
7th
31 Doubly reinforced beam
32 Theory of doubly reinforced beam
33 Design of doubly reinforced beam by limit state method
34 Numerical problems
35 Doubly reinforced beam design practice
8th
36 Introduction of T beam
37 Inverted T beam, isolated T beam and L beam
38 Revision
39 Introduction of one way slab
40 Theory and design of simply supported one way slab
9th
41 Design of simply supported one way slab using limit state method
42 Sketch detail of design of one way slab
43 Numerical problems
44 Practice of numerical problems and doubts
45 Practice of numerical problems
10th
46 Test of above covered syllabus
47 Concept of two way slab
48 Theory and design of two way slab with corner free to lift
49 Numerical practice
50 Design of two way slab with no provision for torsional reinforcement by limit state
method
11th
51 Sketches of two way slab showing reinforcement detail
52 Axially loaded column
53 Definition and classification of columns
54 Effective length of column
55 Specifications for longitudinal and lateral reinforcement
12th
56 Design of axially loaded square column
57 Rectangular short column
58 Circular short column by LSM
59 Sketches of different columns showing reinforcement detail
60 Numerical practice
13th
61 Numerical practice
62 Concept of pre-stressed concrete
63 Introduction of different prestressing methods
64 Pre tensioning
65 Post tensioning
14th
66 Advantages of prestressing
67 Disadvantages of prestressing
68 Losses in prestress
69 Revision of prestressed concrete
17
70 Tutorial for doubts
15th
71 Test
72 Tutorial for numerical problems
73 Tutorial for numerical problems
74 Tutorial for numerical problems
75 Revision of syllabus
18
Name of the Faculty : Vijinder Singh
Discipline : Civil Engineering
Semester : 4th
Subject : Water Supply and Waste Water Engineering.
Lesson Plan Duration : 15 weeks (From January 2018 to April 2018)
Workload (Lecture/Practical) per week (in hours): Lectures-04, Practicals-02
Week Theory Practical Lecture
day Topic
(including assignment/test) Practical
Day Topic
1st
1 Brief description
1st
Introduction different types of water tests
2 Water requirement for different purpose
3 Variation in Demand 4 BIS Standards
2nd
5 Meaning of pure water
2nd
To determine turbidity of water sample
6 Test of water 7 Standard of Potable water 8 Maintenance of Purity
3rd
9 Brief introduction to Water Treatment
3rd
To determine dissolved oxygen of given sample
10 Sedimentation Coagulation 11 Flocculation Filtration 12 Flow diagrams of different
treatments units
4th
13 Different types of Pipes and their joints
4th
To determine pH value of water
14 Appurtenances
15 Water Distribution System 16 Maintenance of Water Distribution
system
5th
17 Laying out pipes
5th
To perform jar test for coagulation
18 Procedure for laying out pipes 19 Testing 20 Test and assignments
6th
21 System of Building water Supply
6th
To determine BOD of given sample
22 Connections to water main 23 Water supply fixtures and their
installations 24 Assignments
7th
25 Introduction to waste water
7th
To determine residual chlorine in water
26 Necessity of systematic collection and disposal of waste water
27 Methods of Waste Water collection
19
28 Types of Sewage
8th
29 Introduction to sewerage system
8th
To determine conductivity of water and total dissolved solids
30 Types of sewerage 31 Appurtenance for Sewerage system 32 Appurtenance for Sewerage system
9th
33 Laying and Construction of sewer
9th
To study the installations of following Water meter Connections of water supply of building with main
34 Procedure for Laying out sewer 35 Construction of surface mains 36 Test and assignments
10th
37 Sewage Characteristics
10th
To study the installations of following Pipe valves and bends Water supply and sanitary fittings
38 Properties of Sewage 39 IS Standards for analysis of sewage 40 Physical parameter of sewage
11th
41 Chemical and bacteriological parameter of sewage
11th
To study and demonstrate the joining/threading of GI pipes, CI pipes, SW pipes, D I pipes and PVC pipes
42 Natural methods of sewage disposal 43 General composition of sewage 44 Disposal by Land dilution
12th
45 Self-purification of streams
12th
To demonstrate the laying of SW pipes for sewers
46 Disposal by land treatment 47 Sewage Treatments 48 Meaning and Principle
13th
49 Introduction and Use of screens
13th
Study of water purifying process by visiting a field lab
50 Grit chambers, detritus tanks 51 Skimming tank
Plain sedimentation tank 52 Primary and secondary clarifiers
14th
53 Sand filters
14th
To test house drainage 54 Sludge treatments and disposal 55 Oxidation ponds 56 Test
15th
57 Building drainage
15th
Practice 58 Requirements of building drainage 59 Different sanitary fittings and
installations 60 Traps, seals, causes of breaking seals
20
Name of Faculty : Mr. Satish Kumar Jha
Discipline : Civil Engineering
Semester : Fourth
Subject : Surveying-II
Lesson Plan Duration: 15 Weeks (from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in hours): Lecture-02, Practical-06
Week
Theory Practical
Lecture
Day
Topic
(including assignment/test)
Practical
Day
Topic
1st
1st Concept of contours, purpose of
contouring 1st
Preparing a contour plan by
radial line method
2nd
Contour interval and horizontal
equivalent, factors effecting
contour interval
2nd
Preparing a contour plan by
the use of a Tangent
Clinometer/Tachometer
2nd
1st
Characteristics of contours,
methods
of contouring: Direct and indirect,
use of stadia measurements in
contour survey
1st Preparing a contour plan by
method of squares
2nd
Interpolation of contours; use of
contour map, Drawing cross
section from a contour map
Assignment Topic
2nd Preparing a contour plan of a
Road by taking cross sections
3rd
1st
Marking alignment of a road,
railway and a canal on a contour
map,
computation of earth work and
reservoir capacity from a contour
map
Test
1st
Preparing a contour plan of a
Railway track by taking cross
sections
2nd
Working of a transit vernier
theodolite, axes of a theodolite
and their relation
2nd Preparing a contour plan of a
Canal by taking cross sections
4th
1st
Temporary adjustments of a
transit theodolite; concept of
transiting, swinging, face left, face
right and changing face
1st Prepration of Drawing and
reports
2nd
Measurement of horizontal and
vertical angles.Prolonging a line
(forward and backward)
2nd
Taking out the Theodilite,
mounting on the tripod and
placing it back in the box
21
Assignment Topic
5th
1st
Prolonging a line (forward and
backward) measurement of
bearing of a line
1st
Study of a transit vernier
theodolite; temporary
adjustments of theodolite
2nd
Traversing by included angles
and deflection angle method;
traversing by stadia
measurement, theodolite
triangulation
2nd
Reading the vernier and
working out the least count
6th
1st Plotting a traverse 1st
Measurement of
horizontal angles by repetition
and reiteration methods
2nd
Concept of coordinate
and solution of omitted
measurements (one side
affected)
2nd Measurement of vertical angles
and use of tachometric tables
7th
1st
Errors in theodolite
survey and precautions taken to
minimize them; limits of
precision in theodolite traversing.
1st Measurement of magnetic
bearing of a line
2nd
Height of objects – accessible and
non-accessible bases
Test
2nd
Running a closed traverse with
a theodolite (at least five sides)
and its plotting
8th
1st Tachometry, Instruments to be
used in tachometry 1st
Height of objects with
accessible bases
2nd Methods of tachometry, stadia
system of tachometry 2nd Without accessible bases
9th
1st General principles of stadia
tachometry 1st
Prepration of Drawing and
reports
2nd
Examples of stadia
tachometry and Numerical
problems.
2nd
Prepration of Drawing and
reports
10th
1st
Simple Circular Curve:
Need and definition of a simple
circular curve; Elements of
simple circular curve
1st
Setting out of a simple circular
curve with given data by
a) Offsets from the chords
produced
2nd
Degree of the curve, radius of the
curve, tangent length, point of
intersection (Apex point), tangent
point, length of curve, long chord
deflection angle, Apex distance
and Mid-ordinate
2nd b) One theodolite method
22
11th
1st
Setting out of simple
circular curve:
a) By linear measurements only:
- Offsets from the tangent
1st Prepration of Drawing and
reports
2nd - Successive bisection of arcs
- Offsets from the chord produced 2nd
Demonstration and use of
minor instruments like Ceylon
Ghat Tracer,
12th
1st
b) By tangential angles using a
theodolite
*Assignment
1st Tangent Clinometer
2nd
Transition Curve:
Need (centrifugal force and super
elevation) and definition of
transition
Curve
Test
2nd Pantagraph
13th
1st
Requirements of transition curve;
length of transition curve for
roads; by cubic parabola;
1st Abney level
2nd
Calculation of offsets for a
transition curve; setting out of a
transition curve by tangential
offsets only
2nd Use of planimeter for
computing areas
14th
1st Vertical curve: Setting out of a
vertical curve 1st
Demonstration of digital
instruments through field
visits to Survey of India and
other government agencies.
2nd
Introduction to the use of Modern
Surveying equipment and
techniques such as:
a) EDM or Distomat
b) Planimeter
c) Total station
2nd Total Station (only
demonstrations).
15th
1st
Introduction to remote sensing,
GIS and GPS, Introduction and
use of minor instruments like
Ceylon Ghat Tracer, Clinometer
1st Prepration of Drawing and
reports
2nd
Pantagraph, Abney Level etc.
Use of planimeter for computing
areas
2nd Prepration of Drawing and
reports
23
Name of the Faculty : Vijinder Singh
Discipline : Civil Engineering
Semester : 6th
Subject : Quantity Surveying and Valuation
Lesson Plan Duration : 15 weeks (from January, 2018 to April,2018)
Work Load : Lectures-05
Week Theory
Lecture Day
Topic including assignment/Test
1st
1 Introduction: Quantity surveying and its importance. 2 Duties of quantity surveyor. 3 Types of Estimates: preliminary estimates 4 Detailed estimates 5 Stages of preparation-details of measurement and calculation of quantities and
abstract
2nd
6 Measurement: Units of measurement of various items of work as per BIS:1200 7 - Rules for measurement 8 Different methods of taking out quantities 9 Centre line methods
10 Numerical of centre line method
3rd
11 Long wall and short wall method 12 Numerical of long wall and short wall method 13 Preparation of detailed and abstract estimates from drawing 14 Calculation of quantities of a small residential building with a flat roof and pitched
roof building 15 Calculation of quantities of a small residential building with a flat roof and pitched
roof building
4th
16 Earthwork for unlined channel 17 WBM road and pre mix carpeting 18 Single spanRCC slab culvert 19 Earthwork for plain and hill road 20 RCC work in beams, slab ,column and lintel, foundations
5th
21 User septic tank 22 Calculation of quantities of materials for cement mortars of different proportion 23 Calculation of quantities of materials for cement concrete of different proportions 24 Calculation of quantities of materials for Brick/stone masonry in cement mortar 25 Calculation of quantities of materials for plastering and pointing
6th
26 Sessional Test 27 Calculation of quantities of materials for white washing, painting 28 Calculation of quantities of materials for RCC, work in slabs, beams 29 Analysis of rates: Steps involved in analysis of rates 30 Requirement of material, labour, sundries, contractor’s profit
7th
31 Analysis of rates for earthwork in excavation in hard/ordinary soil and filling with a concept of lead and lift
32 Analysis of rates for RCC in roof slab/beam/lintel/columns 33 Analysis of rates for RCC in roof slab/beam/lintel/columns 34 Analysis of rates brick masonry in cement mortar
24
35 Analysis of rates for white washing and painting
8th
36 Analysis of rates for stone masonry in cement mortar 37 Running and maintenance cost of construction equipment 38 Contract ship: meaning of contract 39 Quality of good contractor and their qualification 40 Essentials of contract
9th
41 Types of contracts, their advantages, dis-advantages and suitability 42 Single and two cover bids, tender, tender forms 43 Tender documents , tender notice, submission of tender 44 Deposit of earnest money, security deposit, retention money, maintenance periods 45 Classification and types of contracting firms/contraction companies
10th
46 Preparation of tender documents based on common schedule rate 47 Introduction to CSR and calculation of cost based on premium on CSR 48 Exercise on writing detailed specifications of different types of building 49 Exercise on preparing tender documents for earth work 50 Exercise on preparing tender documents for construction of a small house as per
given drawing
11th
51 Exercise on preparing tender documents for RCC work 52 Exercise on preparing tender documents for pointing, plastering and flooring, white
washing, distempering and painting 53 Exercise on preparing tender documents for wood work including polishing,
sanitary and water supply installations 54 Exercise on preparing tender documents for false ceiling, aluminium partitioning,
tile flooring including base course 55 Sessional Test
12th
56 Exercise on preparing tender documents for construction of WBM road/concrete road
57 Exercise on preparation of comparative statement for item rate contract 58 Exercise on preparation of comparative statement for item rate contract 59 Assignments 60 Test
13th
61 Valuation: purpose of valuation 62 Principle of valuation 63 Definition of various terms related to valuation like depreciations 64 Sinking 65 assignments
14th
66 Salvage and scrap value 67 Market value, fair rent 68 Year purchase 69 Revision 70 Revision
15th
71 Methods of valuation: replacement cost method 72 Rental return method 73 Preparation of stock register 74 Assignment / Revision 75 Revision
25
Name of the Faculty : Ms. Chhavi Goyal
Discipline : Civil Engineering
Semester : 6th
Subject : Construction Management & Accounts
Lesson Plan Duration : 15 weeks (from January, 2018 to
April, 2018)
Work Load : Lectures-05
Week
Theory
Lecture
Day
Topic including assignment/Test
1st
1 Introduction: Significance of construction management, Main objectives of
construction management and overview of the subject
2
Functions of construction management, planning, organising, staffing,
directing, controlling and coordinating, meaning of each of these with respect
to construction job.
3 Classification of construction into light, heavy and industrial construction ;
Stages in construction from conception to completion
4 Stages in construction from conception to completion
5 The construction team: owner, engineer, architect and contractors, their
functions and inter-relationship
2nd
6 Construction Planning: Importance of construction planning
Stages of construction planning
- Pre-tender stage
7 - Contract stage
8 Scheduling construction works by bar charts
9 Definition of activity, identification of activities
10 Preparation of bar charts for simple construction work
3rd
11 Preparation of schedules for labour, materials.
12 Preparation of schedules for machinery and finances for small works;
Limitations of bar charts
13 Scheduling by network techniques
- Introduction to network techniques; PERT and CPM
14 Differences between PERT and CPM terminology
15 Organization: Types of organizations
4th
16 Line Organization
17 line and staff organization
18 Functional organization and their characteristics
19 Assignment/ Revision
20 Revision
26
5th
21 Site Organization: Principle of storing and stacking materials at site
22 Location of equipment at site
23 Preparation of actual job layout for a building
24 Organizing labour at site
25 Revision / Assignment
6th
26 Sessional Test
27 Construction Labour: Conditions of construction workers in India
28 Wages paid to workers
29 Labour Welfare Fund Act 1936
30 Payment of Wages Act 1936
7th
31 Minimum Wages Act 1948
32 Revision
33 Control of Progress: Methods of recording progress
34 Methods of recording progress
35 Analysis of progress; Taking corrective actions keeping head office informed
8th
36 Cost time optimization for simple jobs - Direct and indirect cost, variation with
time, cost optimization
37 Inspection and Quality Control: Need for inspection and quality control
38 Principles of inspection
39 Stages of inspection and quality control for
- Earth work
40 - Masonry
9th
41 - RCC
42 - Sanitary and water supply services
43 Revision
44 Revision
45 Accidents and Safety in Construction: Accidents – causes
10th
46 Accident remedies
47 Safety measures for Excavation work
48 Safety measures for Drilling and blasting
49 Safety measures for Hot bituminous works
50 Safety measures for Scaffolding, ladders, form work
11th
51 Safety measures for Demolitions
52 Safety campaign and safety devices
53 Revision/Assignment
54 Revision
55 Sessional Test
12th
56 Public Work Accounts: Introduction
57 Technical sanction , administrative approval
58 Allotment of funds, reappropriation of funds bill
59 Contractor ledger
60 Measurement book running and final account bills complete
27
13th
61 preparation of bill of quantities (BOQ),
62 Completion certificate & report, hand receipt, aquittance roll
63 Muster Roll labour, casual labour roll-duties and responsibility of different
cadres
64 Budget-stores, returns account of stock, misc.
65 P.W. advances T & P – verification
14th
66 Survey report, road metal material charged direct to works
67 Account - expenditure & revenue head
68 Remittance and deposit head
69 Defination of cash, precaution in custody of cash book
70 Imprest account, temporary advance, treasury challan
15th
71 preparation of final bills
72 Preparation of accounts register
73 Preparation of stock register
74 Assignment / Revision
75 Revision
28
Name of the Faculty : Chhavi Goyal
Discipline : Civil Engineering
Semester : 6th
Subject : Employability Skills-II
Lesson Plan Duration : 15 weeks (from January, 2018 to
April, 2018)
Work Load : Practical -02(per week)
Week Practical
Lecture Day Topic
1st 1 Introduction of Mock Interview 2 Benefits of Mock Interview
2nd 3 Do's and Dont's of Mock Interview 4 Mock interview questions and answers for freshers
3rd 5 Practice of Mock interview in class 6 What is Group Discussion and Why it is important.
4th 7 Do's and Dont's in Group discussion 8 Tips and Tricks of Group discussion.
5th 9 Practice of Group Discussion in class
10 Group Discussion in class
6th 11 What is Paper reading and Why it is important. 12 How to read paper.
7th 13 Practice of Paper reading in class 14 Practice of Paper reading in class
8th 15 Paper reading Contest 16 Elements of good presentation
9th 17 Structure and tools of presentation 18 How to create power point presentation step by step
10th 19 How do you play a power point presentation. 20 Power point presentation in class by students
11th 21 Introduction about Seminar Presentation 22 Seminar Presentations Skills
12th 23 Seminar Presentations practice in class 24 Seminar Presentations practice in class
13th 25 Seminar Presentations practice in class 26 Why it is important to prepare for a meeting
14th 27 What do you need to prepare for a meeting 28 What are the things that need to be done before a meeting.
15th 29 How to organise a meeting 30 What are minutes of meeting.
Note: Topics for Group discussions, Paper reading, Power Point Presentation etc.
may be selected in class in interest of students.
29
Name of Faculty : Mr. Satish Kumar Jha (Theory)
Discipline : Civil Engineering
Semester : Sixth
Subject : Earth Quake Resistant Building Construction
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 Elements of Engineering Seismology: General features of tectonic of seismic
regions
2nd Causes of earthquakes, Seismic waves, earthquake size (magnitude and intensity)
3rd Epicenter, Seismograph,
Assignment
2nd
1st Classification of earthquakes
2nd Seismic zoning map of India,
3rd Static and Dynamic Loading
3rd
1st Fundamental period.
2nd Test
3rd Seismic Behaviour of Traditionally-Built Constructions of India: Performance of
building during earthquakes
4th
1st Performance of building during earthquakes cont…
2nd Mode of failure (Out-of-plane failure, in-plane failure
3rd Diaphragm failure
5th
1st Connection failure
2nd Non-structural components failure
3rd Assignment
6th
1st Test
2nd Special construction method
3rd Special construction method
7th
1st Tips and precautions to be observed while planning
2nd Tips and precautions to be observed while planning cont..
3rd Designing and construction of earthquake resistant building.
8th 1st Designing and construction of earthquake resistant building cont..
2nd Assignment
30
3rd Test
9th
1st Introduction to IS: 4326,
2nd IS: 13828
3rd IS: 1893(Part 1)
10th
1st IS:154326 and IS: 13920 (latest edition)
2nd Assignment and Test
3rd Seismic Provision of Strengthening for Traditionally-Built Constructions
11th
1st Seismic Provision of Retrofitting for Traditionally-Built Constructions
2nd Seismic Provision of Strengthening for Brick structure
3rd Seismic Provision of Retrofitting for Brick structure
12th
1st Seismic Provision of Strengthening for RCC structure
Test
2nd Seismic Provision of Retrofitting for RCC structure
3rd Assignment and Revisions
13th
1st Provision of reinforcement detailing in masonry constructions
2nd Provision of reinforcement detailing in masonry constructions cont…
3rd Provision of reinforcement detailing in RCC constructions
14th
1st Provision of reinforcement detailing in RCC constructions cont…
2nd Assignment and Test
3rd Disaster Management: Disaster rescue, psychology of rescue, rescue workers
15th
1st Rescue plan, rescue by steps
Assignment
2nd Rescue equipment, safety in rescue operations
3rd Debris clearance and casuality management.
Test
31
Name of Faculty : Mr. Satish Kumar Jha (Practical)
Discipline : Civil Engineering
Semester : Sixth
Subject : Major Project
Lesson Plan Duration: 15 Weeks (from January 2018 to April 2018)
Work Load (Lecture/Practical) per week (in hours): Practical-12
Week Practical
Day
Topic
1st
1st
To Develop understanding regarding the size and scale of operations and
nature of field work in which students are going to play their role after
completing the courses of study.
2nd TO Develop understanding of subject based knowledge given in the
classroom in the context of its application at work places.
2nd
1st
To Provide first hand experience to develop confidence amongst the
students to enable them to use and apply classroom based knowledge and
skills to solve practical problems of the world of work.
2nd To Develop special skills and abilities like interpersonal skills,
communication skills, attitudes and values.
3rd 1st
To Define Title of Project: Estimation and designing of a State Highway
Road
2nd Reconniance survey of proposed road
4th 1st Reconniance survey of proposed road cont..
2nd Reconniance survey of proposed road cont..
5th 1st To take L - section and cross sections
2nd To take L - section and cross sections cont..
6th 1st To take L - section and cross sections cont..
2nd To take L - section and cross sections cont..
7th 1st Fixing of grades
2nd Fixing of grades cont..
8th 1st Fixing of grades cont..
2nd Fixing of grades cont..
9th 1st Estimation of cutting and filling of earth mass
2nd Estimation of cutting and filling of earth mass cont..
10th 1st Estimation of cutting and filling of earth mass cont..
2nd Estimation of cutting and filling of earth mass cont..
11th 1st Plane tabling survey of proposed road
2nd Plane tabling survey of proposed road
12th 1st Plane tabling survey of proposed road cont..
2nd Plane tabling survey of proposed road cont..
13th 1st Estimation of proposed road
32
2nd Estimation of proposed road cont..
14th 1st Estimation of proposed road cont..
2nd Prepration of Project Report
15th 1st Prepration of Project Report cont..
2nd Prepration of Project Report cont..
33
Name of the faculty : Ms. Pooja Verma
Discipline : Civil Engg.
Semester : 6th Semester
Subject : Railways, Bridges and Tunnels
Lesson Plan Duration : 15 weeks (from January, 2018 to April,
2018)
Work Load (Lecture) per week (in hours): Lectures-05
Week Lecture Day
Theory
1st
Topic (Including Assignment / Test)
1 Introduction to Indian Railways
2 Railway Surveys, Factors influencing the railway route
3 Brief description of various types of railway survey
4 Classification of permanent way, its component parts
5 Rail gauge definition, types, practice in India
2nd
6 Revision of previous topics
7 Rails and types of rails 8 Rail Fastenings
9 Rail joints, types of rail joints
10 Fastenings for Rails
3rd
11 Fish plates and bearing plates
12 Revision of previous topics
13 Assignment
14 Sleepers definition
15 Function of sleepers
4th
16 Types of Sleepers
17 Requirements of an ideal material for sleepers
18 Revisions of previous tropics
19 Definition of ballast
20 Function of ballast
5th
21 Test
22 Requirement of an ideal material for ballast
23 Revision of previous topics
24 Assignment
25 Crossings and signals
26 Brief Description regarding diff. Types of crossing/signals
34
6th
27 Revision of previous topics
28 Maintenance of track definition
29 Necessity maintenance of track
30 Inspection of soil, track and fixtures
7th
31 Maintenance and boxing of ballast maintenance gauge
32 Revision of previous topics
33 Earth work and drainage definition
34 Features of rail road, bed level, width of formation
35 Side slopes, drains method of construction
8th
36 Requirement of drainage system
37 Assignment
38 Bridge Introduction
39 Bridge function and component parts
40 Difference between a bridge and a culvert
9th
41 Classification of bridge
42 According to life-permanent and temporary
43 According to deck level-Deck, through and semi-through
44 According to material-timber, masonry, steel, RCC, pre-stressed
45 According to structural form
10th
46 IRC Classification
47 Revision of previous topics
48 Assignment
49 Test
50 Bridge foundation Introduction
11th
51 Introduction to open foundation
52 Pile foundation and its type
53 Well Foundation and its type
54 Revision of previous topics
55 Introduction of piers
12th
56 Types of piers
57 Abutments and wing walls definition
58 Types of abutments
59 Types of wing wall
60 Revision of previous topics
61 Bridge bearings, purpose of bearings
62 Types of bearings
35
13th
63 Assignment
64 Maintenance of bridge
65 Inspection of bridges
14th
66 Routine maintenance
67 Revision of previous topics
68 Definition of tunnels
69 Necessity of tunnels
70 Test
15th
71 Typical section of tunnel for a national Highway
72 Cross-section of single and broad gauge railway track
73 Ventilation definition
74 Necessity and methods of ventilation
75 Drainage methods and lighting of tunnels
36
Name of the Faculty : Mr. M. N. Hasan
Discipline : Civil Engineering
Semester : 6th
Subject : ENVIRONMENTAL ENGINEERING
Lesson Plan Duration : 15 weeks (from January, 2018 to
April, 2018)
Work Load : Lectures-03
Week
Theory
Lecture
Day
Topic including assignment/Test
1st
1
Study of Importance of Environmental Engineering: Importance of clean
environment, control of environmental pollution with respect to air, land and
water
2 Conservation of natural resources,
3 environmental education and awareness, sustainable development,
2nd
4 Environments and Ecology: Definition and understanding of environment and
ecology concept, ecosystem and types of ecosystems
5 Assignment, energy flow in an ecosystem, food chain
6 ecological pyramids, consortium and ecological balance
3rd
7 Water Pollution: Causes of pollution in surface and underground water
eutrophication of lakes and its preventing measure
8 BIS standards for water quality
9 Air Pollution: Definition, principal air pollutants
4th
10 atmospheric parameters influencing air pollution
11 types of air contaminants and their sources
12 effects of air pollution on human beings, Assignment
5th
13 plants, animals, automobile pollution
14 BIS ambient air quality standards
15 measures to combat air pollution
6th
16 Noise Pollution: Definition, unit of measurement of noise
17 sources and effects of noise pollution
18 control of noise pollution
7th
19 Effects of mining, blasting and deforestation : Ill effects of mining
20 blasting and deforestation on the environment human life and wild life
21 Land Use : Effect of land use on environmental quality
8th
22 land use and natural disasters,(land slides etc)
23 soil degradation problems - erosion
24 water logging
9th 25 soil pollution
26 Environmental Impact Assessment: Definition and requirements
37
27 environmental impact assessment
10th
28 Flour chart of environmental impact assessment methodology
29 Assignment, Describe the need and importance of EIA
30 Describe the need and importance of EIA, Revision, Assignment
11th
31 Legislation to Control Environmental Pollution (idea) : Indian legislative acts for
water
32 land and air pollution control
33 land and air pollution control – provisions
12th
34 land and air pollution control – scope
35 land and air pollution control – implementation
36 Global Issues of Environmental Engineering: Global warming
13th
37 ozone depletion
38 acid rain
39 oil pollution
14th
40 radiation hazards and their control
41 concept of clean technology and carbon credits
42 Renewable Source of Energy: Role of non-conventional sources of energy (biogas,
solar, wind etc) in environmental protection
15th
43 Conservation of energy resources like coal
44 Conservation of energy resources like oil etc
45 alternative fuels, bio-diesel etc, Revision
38
Name of the Faculty : Mr. M. N. Hasan
Discipline : Civil Engineering
Semester : 6th
Subject : MAJOR PROJECT WORK
Lesson Plan Duration : 15 weeks (from January, 2018 to
April, 2018)
Work Load : Practical -12
Week
MAJOR PROJECT WORK
TOPIC- Nutrients Removal from wastewater by Natural system
Lecture Day Topic to be covered
1st 1 to 12 Introduction
2nd 13 to 24 Need of the study
3rd 25 to 36 Literature Review
4th 37 to 48 Objective of the study
5th 49 to 60 Study on all Parameters related to wastewater
6th 61 to 72 Methodology
7th 73 to 84 Setup of Reaactor
8th 85 to 96 Experimental work
9th 97 to 108 Experimental work
10th 109 to 120 Experimental work
11th 121 to 132 Experimental work
12th 133 to 144 Data summarization
13th 145 to 156 Result Analysis
14th 157 to 168 Report writing
15th 169 to 180 Viva Voce