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Lesson Plan
*Name of the Faculty : Mr. Sanjeet Kumar
Discipline : Civil Engg.
Semester : 4th
Sem.
Subject : Concrete Technology
Lesson Plan Duration : 15 weeks (from January, 2018 to April, 2018)
** Work Load (Lecture/ Practical) Per Week (In Hours): Lecture-03, Practicals -06
Week Theory Practical
Lecture
Day
Topic
(Including assignment/test)
Practical
Day
Topic
1st
1st
Definition of Concrete, Uses of
Concrete in comparison other
building material
1st
& 2nd
To determine the physical
properties of cement as per IS
codes
2nd
Ingredients of Concrete, Cement
aggregates water, Types of Cement
3rd
Classification of aggregates,
Characteristics of aggregates
2nd
1st
Grading of aggregates
1st
& 2nd
To determine flakiness and
elongation index of coarse
aggregates
2nd
Water quality requirement as per IS
Code 456-2000
3rd
Water cement ratio, Duff Abrams
water cement ratio law
3rd
1st
Limitation of water Cement ratio
law and effect on strength of
concrete
1st
& 2nd
To determine silt in fine aggregate 2nd
Work ability, measurement of work
ability, Factor effecting work ability
3rd
Slump Test compacting factor
4th
1st
Properties of Concrete in plastic
state, work ability
1st
Determination of specific
2nd
Bleeding, Harshness, & 2nd
Gravity and water absorption of
aggregates 3rd
Properties in Hardended, Strength
durability
5th
1st
Dimensional changes
impermeability
1st
& 2nd
Determination of bulk density and
voids of aggregates 2
nd Revision
3rd
Test
6th
1st
Objectives of mix design
1st
& 2nd
To determine surface moisture in
fine aggregate by displacement
method
2nd
Adjustment on site for: Buling of
fine aggregate
3rd
Difference between norminal and
controlled concrete
7th
1st
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)
2nd
Introduction to admixtures for
improving performance of concrete
3rd
-------Do-------
8th
1st
Special Concrete, Cold weather
concrete, under weather concrete,
hot weather concrete
1st
& 2nd
To determine necessary
adjustment for bulking of fine
aggregate 2
nd Ready mix concrete
3rd
Fiber reinforced concrete
9th
1st
Ploymer Concrete
1st
& 2nd
To determine workability by
slump test:
2nd
Fly and concrete
3rd
Silica fume Concrete
10th
1st
Concreting Operation, Storing of
Cement
To verify the effect of water, fine
aggregate/ coarse aggregate ratio
2nd
Storing of aggregate at site
1st
& 2nd
and aggregate/cement ratio on
slump 3rd
Batching of Cement
11th
1st
Batching of Aggregate by volume by
using gauge box
1st
& 2nd
Compaction factor test for
workability 2
nd Revision
3rd
Test
12th
1st
Mixing, Hand Mixing, Machine
Mixing
1st
& 2nd
Non destructive test on concrete
by:
a. Rebound Hammer Test
2nd
Maintenance of Machine
3rd
Transportation of Concrete by using
tower crane, Transit mixers
13th
1st
Placement of Concrete, Checking of
form work
1st
& 2nd
b. Ultrasonic Pulse Velocity
Test
2nd
Shuttering and precaution to be
taken placement
3rd
Compaction, Hand compaction,
Machine Compaction
14th
1st
Finishing Concrete slabs- screeding,
floating and trowelling
1st
& 2nd
Tests for compressive strength of
concrete strength of concrete
cubes for grades of concrete
2nd
Curing, Objective of curing,
methods of curing
3rd
Jointing , There importance and
location
15th
1st
Defects in Concrete: Identification
and method of Repair
1st
& 2nd
---DO---
2nd
Importance and methods of Non-
destructive tests
3rd
Field Visit may be planned to
explain and show the relevant
things
Lesson Plan
Name of the faculty : Om Parkash Yadav
Discipline : Civil Engg.
Semester : 4th
Semester
Subject : Surveying-II
Lesson Plan Duration : 15 weeks (from January, 2018 to April, 2018)
Work Load (Lecture/Practical) per week (in hours): Lectures-02/Practicals-06
Week Lecture
Day
Theory Practical
Day
Practical
Topic( Including Assignment/Test) Topic
1st
1 Concept of contours, purpose, C.I. 1 Preparing contour plan by radial
line method using tangent
clinometer
2 Factors effecting C.I., characteristics of contours,
methods of contouring
2 Preparing contour plan by radial
line method using tangent
clinometer Preparing contour
plan by method of squares
2nd
3 Direct & indirect contouring, interpolation, uses
of contour map
3 Preparing contour plan by
method of squares
4 X-section, alignment of road, canal 4 Contd. (above)
3rd
5 Computation of earthwork and capacity of
reservoir from contour map
5 Preparing contour plan of a
road/railway track/canal by
taking X-sections.
6 Transit vernier theodolite- working, temporary
adjustment
6 Contd. (above)
4th
7 Transiting, swinging- Definitions 7 Study of transit vernier theodolite
8 Measurement of Hz. & Vertical angles, Prolonging
a line, bearing of a line
8 Temporary adjustment of
theodolite
5th
9 Traversing by included angles & deflection angles 9 Reading of vernier
10 Theodolite triangulation, plotting a traverse 10 Measurement of Hz. Angles by
repetition method
6th
11 Concept of co-ordinates and solution of omitted
measurements
11 Measurement of Hz. Reiteration
method
12 Errors in theodolite survey 12 Measurement of vertical angles
and use tacheometry tables
7th
13 Heights of objects- accessible & non accessible
basis
13 Repition of above practicle
14 Numerical Problems 14 Measurment of magnetic bearing
of a line and running a closed
traverse with a theodolite
8th
15 Tachometry – instruments and methods 15 Plotting of closed traverse
16 Stadia system and general principles of stadia
tachometry
16 Height of objects with accessible
base
9th
17 Numerical Problems 17 Height of objects without
accessible base
18 Numerical Problems 18 Setting out of a simple circular
curve with given data by offsets
from chord produced
10th
19 Second Sessional test 19 Contd. (above)
20 Simple circular curve- need definition and Elements 20 Setting out of a simple circular
curve with given data by one
theodolite method
11th
21 Degree of curve, radius of curve and other Elements 21 Contd.(above)
22 Setting out of simple circular curve by linear
measurements
22 Demonstration and use of
Ceylon Ghat Tracer
12th
23 Setting out of simple circular curve by tangential
angles
23 Demonstration and use of
Tangent Clinometer
24 Centrifugal force and super elevation , Transition
curve
24 Demonstration and use of
Pantagraph
13th
25 Requirement of transition curve, calculation of
offets and setting out transition curve by tangential
offsets
25 Demonstration and use of
Abney Level
26 Vertical curve- Definition setting out 26 Use of Planimeter for
computing areas
14th
27 Modern surveying instrument- EDM, planimeter 27 Demonstration of Digital
Instruments.
28 3rd
sessional test, Total station 28 Site visit
15th
29 Remote sensing, GIS, GPS, Abney Level 29 Total Station
30 Ceylon Ghat Tracer, clinometer, pantagraph, and
planimeter
30 Site visit
Lesson Plan
Name of the faculty : Pooja Yadav
Discipline : Civil Engg.
Semester : 4th
Semester
Subject : RCC DESIGN
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 Concept of reinforced Cement Concrete(RCC) , Reinforcement Materials
2 Properties of mild steel and HYSD Steel, Loading on structures as per IS:
875
3 Working stress method
4 Limit Stress method
5 Revision of previous topics
2nd
6 Shear as per IS:456-2000 by working stress method, Shear strength of
concrete without shear reinforcement
7 Maximum shear stress , Shear Reinforcement
8 Singly Reinforcement Beam(Working stress method), Basic assumptions
and stress strain curve, neutral axis
9 Balanced, under- reinforcement and over reinforcement beams, Moment
of resistance for singly reinforced beam
10 Design of singly reinforced beams
3rd
11 Reinforced Beams including sketches showing reinforcement details
12 Revision of previous topics
13 Assignment
14 Concept of limit stress method , definitions
15 Assumptions made in limit state of collapse (flexure)
4th
16 Partial factor of safety for materials
17 Partial factor of safety for materials
18 Assignment
19 Partial factor of safety for loads
20 Revisions of previous topics
5th
21 Test
22 Design Loads
23 Stress block, Parameters
24 Singly Reinforced Beams theory
25 Revision of previous topics
6th
26 Assignment
27 Design of beam
28 Design of beam
29 Singly Reinforced beam by Limit state method
30 Singly Reinforced beam by Limit state method
7th
31 Revision of previous topics
32 Theory of Doubly Reinforced beams
33 Theory of Doubly Reinforced Beams
34 Basic design of Doubly Reinforced beams
35 Assignment
8th
36 Design of simply supported doubly reinforced rectangular beam by Limit
State Method
37 Revision of precious topic
38 Behaviour of T beams
39 Inverted T beams
40 Isolated T beams
9th
41 Basic of L beams
42 Isolated L Beams
43 One way slab
44 Definitions of one way slab
45 Design of simply supported one way slab
10th
46 Design of simply supported one way slab
47 Revision of previous topics
48 Assignment
49 Test
50 sketches showing reinforcement of plan
11th
51 sketches showing reinforcement of section
52 plan and section by limit state method
53 theory of two way simply supported slab
54 design of two way simply supported slab
55 simply supported slab with corners free to lift
12th
56 No provisions for torsional reinforcement by limit state method
57 plan of torsional reinforcement by limit state method
58 two sections of torsional reinforcement
59 Revision of previous topics
60 Definition of colums
13th
61 Classification of colums
62 Effective Length of column
63 Specifications for longitudinal reinforcement
64 Specifications for lateral reinforcement
65 Assignment
14th
66 design of axially loaded square short colums by limit state method
67 design of axially loaded rectangular short colums by limit state method
68 sectional elevation of square and rectangular method of reinforcement
69 plan of reinforcement by limit state method
70 revision of previous topic
15th
71 concept of pre stress concrete
72 methods of pre stressing
73 advantage and disadvantages of prestressing
74 Losses in pre- stress
75 Test
Lesson Plan
Name of the faculty : Neelam
Discipline : Civil Engg.
Semester : 4th
Semester
Subject : Irrigation Engg.
Lesson Plan Duration : 15 weeks (from January, 2018 to April, 2018)
Work Load (Lecture) per week (in hours): Lectures-04
Week Lecture
Day
Theory
1st
Topic (including Assignment / Test)
1 Introduction of Irrigation, Definition of Irrigation
2 Necessity of Irrigation, History of Development of irrigation in India
3 Major, Medium and Minor irrigation projects
4 Revision of previous topics
2nd
5 Principal crops in India and their water requirements
6 Crops seasons- Kharif and Rabi
7 Soil water, soil crop and water relationships
8 Duty, Delta and base period their relationship
3rd
9 Gross commanded area(GCA) , Culturable commanded area(CCA)
10 Intensity of Irrigation, Irrigable area
11 Revision of previous topics
12 Rain fall, definition of rain gauges-automatic
13 Non- automatic, method of estimating average rainfall
14 Catchment area, Runoff, Factors affecting runoff
15 Hydrograph, basic concept of unit of hydrograph
16 Revision of previous topics
5th
17 Test
18 Flow Irrigation, its advantages and limitations
19 Lift Irrigation- Tube well and open well Irrigation
20 Lift Irrigation advantages and disadvantages
6th
21 Sprinkler Irrigation Condition favourable, essential requirements
22 Sprinkler system, Classification and component parts
23 Drip Irrigation, Suitability of drip irrigation
24 Drip irrigation layout, Component parts, advantages
7th
25 Revision of previous topics
26 Classification of canal, appurtenances of a canal
27 Canal function, sketches of diff. canal cross-section
28 Various type of canal lining, its advantages
8th
29 Canal lining disadvantages, sketches of diff. lined canal cross-section
30 Breaches and their control
31 Maintenance of lined and unlined canals
32 Revision of previous topics
9th
33 Introduction of tube well irrigation, occurrence of ground water
34 Location and command, Advantages and disadvantages
35 Comparison with canal irrigation, Explanation of terms
36 Water table, Radius of influence, Depression head
10th
37 Cone of Depression, Confined and unconfined aquifers
38 Test
39 Yield of a well and methods of determining yield of well
40 Types of tube well
11th
41 Methods of boring, installation, development of well, pump selection
42 Pump installation and Maintenance, Water harvesting techniques
43 Water harvesting needs and methods, Runoff from roof top….
44 Construction of recharge pits, recharge wells, its maintenance
12th
45 Assignment
46 Dams classification, earthen dam-types, causes of failure
47 Cross-section of zoned earthen dam, method of construction
48 Gravity dam, types, cross-section, methods of construction
13th
49 Concept of small and micro dam, concept of spill way, energy
dissipators
50 Canal head works and regulatory works, definition, object, layout
51 Functions of different parts of head works, weir and barrage
52 Cross-drainage works, functions and necessity, types, sketches
14th
53 Assignment
54 Falls, cross and head regulators, outlet, canal escapes
55 Method of river training, guide banks, retired embankments
56 Groynes and spurs, pitched island, cut-off
15th
57 Test
58 Definitions of water logging, its causes, its effects, detection
59 Prevention , Remedies, reclamation of soil, Surface drains
60 Ground water recharge, concept and various techniques
Lesson Plan
Name of the faculty : Hemant Sharma
Discipline : Civil Engg.
Semester : 4th
Semester
Subject : Water Supply & Waste Water Engg.
Lesson Plan Duration : 15 weeks (from January, 2018 to April, 2018)
Work Load (Lecture/Practical) per week (in hours): Lectures-05/Practicals-02
A. Water Supply
Week Lecture
Day
Theory Practical
Day
Practical
1st
Topic (Including assignment/test) Topic
1st
Introduction: Necessity & brief
description of water supply system.
1st
To determine
turbidity of given
water sample
2nd
Quantity of water:- 1) Water
requirement. 2) Rate of demand &
variation in rate of demand.
3rd
3) Per capita consumption of domestic,
industrial, public and fire fighting uses as
per BIS standards (no numerical
problems)
1st
To determine
turbidity of given
water sample
4th
4) population forecasting
5th
Quality of water:-Meaning of pure water
& methods of analysis of water
2nd
6th
Physical, Chemical & Bacteriological tests
their significance
2nd
To determine
dissolved
oxygen of
given sample 7
th Standard of potable water as per Indian
Standards. Maintenance of purity of
water(small scale quantity)
8th
Maintenance of purity of water(large
scale quantity)
To determine
dissolved
oxygen of 9
th Water Treatment: Sedimentation-
Purpose, types of sedimentation tanks 2nd
given sample
10th
Coagulation flocculation- usual
coagulation & their feeding
3rd
11th
Filtration- significance, types of filters,
their suitability
3rd
To
determine
pH value of
water 12
th Necessity of disinfection of water, forms
of chlorination, break point chlorination
13th
Residual chlorine, application of
chlorination
3rd
To
determine
pH value of
water 14
th Flow diagram of different treatment
units, functions of 1) Areation fountain
15th
2) Mixer 3) floculator 4) Classifier 5)Slow
sand filter
4th
16th
5) Rapid sand filter 6) chlorination
chamber
4th
To perform jar test
for coagulation.
17th
Conveyance of water:- Different types of
pipes-Cast iron, PVC, steel, asbestos
cement
18th
Concrete or lead pipes. Their suitability
and uses
4th
To perform jar test
for coagulation.
19th
Types of joints in different types of pipes
20th
Appurtenances: Sluice, air, reflux valves
relief valves, scour valve
5th
21st
Bib cocks, stop cocks, fire hydrants,
water meter their working and uses
5th
To determine BOD
of given water
sample 22
nd Distribution site: Requirement of
distribution, minimum head and rate,
methods of layout of distribution of
pipes
23rd
System of water supply- Intermittent &
continuous service reservoirs types,
necessity and accessories
5th
To determine BOD
of given water
sample
24th
Wastage of water- preventive measures
25th
Maintenance of distribution system,
leakage detection
6th
26th
Revision
6th
To determine
residual chlorine
of given water
sample
27th
Laying out of pipes- setting out
alignment of pipes , Excavation of laying
out of pipes
28th
Precaution to be taken in laying pipes in
black cotton soil, Handling
6th
To determine
residual chlorine
of given water
sample 29
th Lowering beginning & jointing of pipes
30th
Testing of pipe lines, Back filling
7th
31st
Use of boring rods To determine
32nd
Building water supply- connection to
water main
7th
conductivity of
water & TDS
33rd
Water supply fixtures & installations
7th
To determine
conductivity of
water & TDS 34
th Terminology related to plumbing
35th
Test
8th
36th
Introduction- Purpose of sanitation,
Necessity of systematic collection and
disposal of waste
8th
To study the
installation of
water meter &
connection of
water supply of
building with main
37th
Definition of terms in sanitary engg.
Collection & conveyance of sewage
38th
Conservancy & water carriage systems,
their advantages and Disadvantages.
Surface drains (only sketches) Various
types, sutability
8th
To study the
installation of
water meter &
connection of
water supply of
building with main 39
th Types of sewage: Domestic, industrial
40th
Storm water & its seasonal variation
9th
41st
Sewerage system: Types of sewerage
systems, material for sewers
9th
To study the
installation of Pipe
valves & bends 42
nd Their sizes and joints. Appurtenance:
Location, function & construction
features.
43rd
Manholes, drop holes, tank hole, catch
basin, inverted siphon
9th
To study the
installation of Pipe
valves & bends 44
th Flushing tanks grease & oil traps, storm
regulators, ventilating shafts
45th
Assignment
10th
46th
Laying & construction of sewers:
Setting out/alignment of sewers
10th
To study the
installation of
Water supply &
sanitary fittings 47
th Excavation, checking the gradient with
boning rods preparation of bedding
48th
Handling & jointing testing & back
filling of sewers
10th
To study the
installation of
Water supply &
sanitary fittings 49
th Construction of surface mains
50th
Different sections required
11th
51
st Sewage Characteristics: Properties of
sewage
To study &
demonstrate the
52nd
IS standards for analysis of sewage 11th
joining/threading
of GI,CI,SW pipes
53rd
Physical & chemical parameters
11th
To study &
demonstrate the
joining/threading
of GI,CI,SW pipes
54th
Biological parameters
55th
Test
12th
56th
Natural Methods of Sewerage Disposal:
General composition of sewage
12th
To study &
demonstrate the
joining/threading
of DI,PVC pipes 57th
Disposal methods, Disposal by dilution
58th
Self Purification of streams
12th
To study &
demonstrate the
joining/threading
of DI,PVC pipes
59th
Disposal by land treatment
60th
Nuisance due to disposal
13th
61st
Sewage treatment:- Meaning &
principle of primary & secondary
treatment
13th
To demonstrate
the laying of SW
pipes for sewers
62nd
Activated sludge process their flow
diagram
63rd
Introduction and uses of screens, grit
chambers, detritus tanks, skimming
tank
13th
To demonstrate
the laying of SW
pipes for sewers
64th
Plain sedimentation tanks, primary
clarifers
65th
secondary clarifers Filters, control beds
14th
66th
Intermittent sand filter, trickling filter
14th
Study of water
purifying process
by visiting a field
lab
67th
Sludge treatment and disposal
68th
Oxidation pond
14th
Study of water
purifying process
by visiting a field
lab
69th
Assignment
70th
Test
15th
71st
Building Drainage: Aims of building To test house