LESSON PLAN Name of faculty : Mr.Kartiksharma Discipline...
Transcript of LESSON PLAN Name of faculty : Mr.Kartiksharma Discipline...
LESSON PLAN
Name of faculty : Mr.Kartiksharma
Discipline : Civil Engineering
Semester : 4th Semester
Subject :CED-II
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-00, Practicals-06
Week Theory Practical
Lecture
Day
Practical
Day
Topic
1st 1st 1st Drains and Sewers:
Cross section of standard types of open drains (circular,
v-shaped and -shaped) with their foundations
2nd 2nd Cross section of earthen ware and RCC sewer pipes
2nd 3rd 3rd Cross sections of masonry sewers (circular and egg
shaped)
4th 4th Traps, manholes and inspection chamber:Detailed
section of floor trap and gully trap
3rd 5th 5th Detailed plan and section of an inspection chamber
6th 6th Detailed plan and section of a manhole
4th 7th 7th Detailed plan and cross sections of a domestic septic
tank for 10 and
50 users
8th 8th Detailed plan and cross sections of a soak pit for 10 and
50 users
5th 9th 9th Bath room 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 the
connections of the
lavatory to inspection chamber
10th 10th Plan of a bathroom showing positions of lavatory, bath
tub, wash-basin, taps and showers
6th 11th 11th Draw sectional elevation of a two storeyed building
showing details of one pipesystem
12th 12th Draw sectional elevation of a two storeyed building
showing details of
two pipes systems with sanitation system
7th 13th 13th Practice of reading water supply and sanitary
engineering working drawings (PWD/urban
Development agencies) including hot water and cold
water supply system of a two room set-1
14th 14th Practice of reading water supply and sanitary
engineering working drawings (PWD/urban
Development agencies) including hot water and cold
water supply system of a two room set-2
8th 15th 15th Detailed Layout Plan of Sewage Treatment Plant for a
residential are
16th 16th Detailed Layout Plan of Effluent Treatment Plant for an
industrial unit
9th 17th 17th IRRIGATION ENGINEERING
DRAWING:Introduction
18th 18th Typical cross-section of a L-section of a channel for
given data
10th 19th 19th Typical cross section of an unlined and lined channel in
cutting
20th 20th Typical cross section of an unlined and lined channel
partly cutting and partly filling
11th 21th 21th Fully in filling with given design data.
22th 22th Layout plan of a canal head works.
12th 23th 23th Draw the typical L-section of a weir
24th 24th Draw the X-section of an Earthen Dam-Homogeneous
13th 25th 25th Draw the X-section of an Earthen Dam-Zoned type
26th 26th Draw the X-section of an Earthen Dam-Diaphragm type
14th 27th 27th Cross section of a tube well
28th 28th Layout and cross section of rain water harvesting
system-1
15th 29th 29th Layout and cross section of rain water harvesting
system-2
30th 30th Site Visit
LESSON PLAN
Name of faculty : Mr.Kartiksharma
Discipline : Civil Engineering
Semester : 6th Semester
Subject :E.R.B.C.
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00
Week Theory Practical
Lecture
Day
Topic (Including assignment/test) Practical
Day
Topic
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 Epicentre, Seismograph,
Classification of earthquakes
2nd 4th Seismic zoning map of India
5th Static and Dynamic Loading
6th Fundamental period.
3rd 7th Seismic Behaviour of Traditionally-Built
Constructions of India:
Performance of building during earthquakes
8th Mode of failure-Out-of-plane
failure
9th in-plane failure
4th 10th Diaphragm failure
11th Connection failure
12th Non-structural components failure
5th 13th Assignment-1
14th Test-1
15th Special construction method-1
6th 16th Special construction method-2
17th tips and precautions to be observed while planning-1
18th tips and precautions to be observed while planning-2
7th 19th designing and construction of earthquake resistant
building-1
20th designing and construction of earthquake resistant
building-2
21th Introduction to IS: 4326
8th 22th Introduction to IS: 13828,
23th Introduction to IS: 1893(Part 1),
24th Introduction to IS: 154326
9th 25th Introduction to IS: 13920 (latest
edition)
26th Assigmnent-2
27th Seismic Provision of Strengthening-1
10th 28th Seismic Provision of Strengthening-2
29th Retrofitting Measures for Traditionally-
Built Constructions-1
30th Retrofitting Measures for Traditionally-
Built Constructions-2
11th 31th Brick and RCC Structures-1
32th Brick and RCC Structures-2
33th Provision of reinforcement detailing in masonry-1
12th 34th Provision of reinforcement detailing in masonry-2
35th Provision of reinforcement detailing in masonry-3
36th RC constructions-1
13th 37th RC constructions-2
38th RC constructions-3
39th Disaster Management: Disaster rescue, psychology
of rescue,
14th 40th rescue plan, rescue by steps
41th rescue equipment, safety in rescue operations
42th Debris clearance, rescue workers
15th 43th casuality management.
44th Assignment-3
45th Test-3
LESSON PLAN
Name of faculty : Mr.Kartik Sharma
Discipline : Civil Engineering
Semester : 4th Semester
Subject :IRRIGATION ENGINEERING
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-04, Practicals-00
Week Theory Practical
Lecture
Day
Topic (Including assignment/test) Practical
Day
Topic
1st 1st Introduction: Definition of irrigation, Necessity of
irrigation
2nd History of development of irrigation in India, Major,
medium and minor irrigation projects
3rd Water Requirement of Crops: Principal crops in India
and their water requirements, Crop seasons – Kharif and
Rabi
4th Soil water, soil crop and water relationships
2nd 5th duty, delta and base period,
their relationship
6th Gross commanded area (GCA), culturable commanded
area (CCA),intensity of irrigation, irrigable area
7th Hydrological Cycle Catchment Area and Run-off:
Rainfall , definition rain-gauges – automatic and non-
automatic
8th Methods ofestimating average rainfall (Arithmatic
system); catchment area runoff, factors
affecting runoff
3rd 9th Hydrograph, basic concept of unit hydrograph
10th Assignment-1
11th Test-1
12th Methods of Irrigation: Flow irrigation - its advantages
and limitations
4th 13th Lift Irrigation – Tube well and open well irrigation, their
advantages and
disadvantages
14th Sprinkler irrigation conditions favourable and essential
requirements for sprinkler irrigation,
15th sprinkler system – classification and component parts
16th Drip irrigation, suitability of drip irrigation
5th 17th Layout, component parts,
advantages
18th Assignment-2
19th Canals: Classification, apurtenancs of a canal and their
functions
20th Sketches of different canal cross-sections (unlined)
6th 21th Various types of canal lining - their related advantages
and disadvantages,
22th Sketches of different lined canal x-sections
23th Breaches and their control
24th Maintenance of lined and unlined canals
7th 25th Assignment-3
26th Test-2
27th Tube Well Irrigation: Introduction, occurrence of
ground water, location and command,
28th Advantages and disadvantages, comparison with canal
irrigation
8th 29th Tube wells, explanation of terms: water table, radius of
influence, depression head, cone of depression
30th confined and unconfined aquifers.
Yield of a well and methods of determining yield of well
31th Types of tube wells, cavity, strainer and slotted type;
32th Method of boring, installation of well assembly,
development of well
9th 33th Pump selection and installation and maintenance
34th Water Harvesting Techniques: Need and requirement of
various methods, Run-off from roof top and ground
surface
35th construction of recharge pits
and recharge wells and their maintenance.
36th Assignment-4
10th 37th Dams: Classification of dams; earthen dams – types, causes of
failure
38th Cross section of zoned earthen dams, method of
construction
39th Gravity dams –types
40th Cross-sections of a dam, method of construction
11th 41th Concept of small and micro dams
42th Concept of spillways and energy dissipators
43th Assignment-5
44th Test-3
12th 45th Canal Head Works and Regulatory Works:Definition,
object, general layout
46th functions of different parts of head works
47th Difference between weir and barrage
48th Cross Drainage Works:Functions and necessity of the
following types: aqueduct
13th 49th level crossing, , super passage
50th , inlet and outlet, pipe crossing
51th Sketches of the above cross drainage works
52th Definitions of following Hydraulic Structures with
Sketches:
Falls,Cross and head regulators
14th 53th Outlets, Canal Escapes
54th River Training Works:
Methods of river training, guide banks
55th retired (levees) embankments, groynes and spurs
56th pitched island, cut-off
15th 57th Water Logging and Drainage and Ground Water Re-
charge:
Definition of water logging – its causes and effects,
detection, prevention and remedies, Reclamation of soil
58th Surface and sub-surface drains and their layout, Concept
and various techniques used for ground water re-charge
59th Assignment-6
60th Test-4
LESSON PLAN
Name of faculty : Mr.Kartik Sharma
Discipline : Civil Engineering
Semester : 4th Semester
Subject :WSWWE-LAB
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-00, Practicals-02
Week Theory Practical
Lecture
Day
Topic (Including
assignment/test)
Practical
Day
Topic
1st 1st Introduction:To determine turbidity of water
sample
2nd 2nd To determine dissolved oxygen of given sample
3rd 3rd To determine pH value of water
4th 4th To perform jar test for coagulation
5th 5th To determine BOD of given sample
6th 6th To determine residual chlorine in water
7th 7th To determine conductivity of water and total
dissolved solids
8th 8th To study the installation of Water meter
9th 9th To study the installation of Connection of water
supply of building with main
10th 10th To study the installation of Pipe valves and bends
11th 11th To study the installation of Water supply and
sanitary fittings
12th 12th To study and demonstrate the joining/threading of
GI Pipes, CI Pipes, SW pipes,
D.I. pipes and PVC pipes.
13th 13th To demonstrate the laying of SW pipes for sewers
14th 14th Study of water purifying process by visiting a field
lab.
15th 15th To test house drainage
LESSON PLAN
Name of faculty : Mrs. Annu Rani
Discipline : Civil Engineering
Semester : 6th Semester
Subject :E.S.-II LAB
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load (Lecture / Practical) per week (in hours): Lectures-00, Practicals-02
Week Theory Practical
Lecture
Day
Topic (Including
assignment/test)
Practical
Day
Topic
1st 1st Oral Practice:
Mock interview 2nd 2nd
3rd 3rd Preparing for meeting
4th 4th
5th 5th Group discussion
6th 6th
7th 7th Seminar presentation
8th 8th
9th 9th Making a presentation-Elements of good
presentation 10th 10th
11th 11th Making a presentation-Structure and tools of
presentation 12th 12th
13th 13th Making a presentation-Paper reading
14th 14th
15th 15th Making a presentation-Power point presentation
LESSON PLAN
Name of faculty : Mrs. Annu Rani
Discipline : Civil Engineering
Semester : 4th Semester
Subject :E.E.
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-03, Practicals-00
Week Theory Practical
Lecture
Day
Topic (Including assignment/test) Practical
Day
Topic
1st 1st Study of Importance of
Environmental Engineering:
Importance of clean environment,
control of environmental pollution
with respect to air, land and water.
2nd Conservation of natural resources,
environmental education
and awareness, sustainable
development
3rd Environments and Ecology:
Definition and understanding of
environment and ecology concept
2nd 4th ecosystem and types of
ecosystems, energy flow in an
ecosystem
5th food chain, ecological pyramids
6th consortium and ecological balance
3rd 7th Water Pollution:
Causes of pollution in surface and
underground water
8th eutrophication of lakes and
its preventing measure
9th BIS standards for water quality
4th 10th Air Pollution:
Definition, principal air pollutants
11th atmospheric parameters
influencing air pollution, types of
air contaminants and their sources
12th effects of air pollution on human
beings, plants, animals
5th 13th automobile pollution
14th BIS ambient air quality standards
15th measures to combat air pollution
6th 16th Assignment-1
17th Test-1
18th Noise Pollution:
Definition, unit of measurement of
noise, sources
7th 19th effects of noise pollution
and control of noise pollution
20th Effects of mining, blasting and
deforestation:
Ill effects of mining, blasting
21th Ill effects of deforestation on the
environment human life and
wild life.
8th 22th Land Use:
Effect of land use on
environmental quality
23th land use and natural disasters
24th soil degradation problems
9th 25th erosion, water logging
26th soil pollution, land slides
27th Assignment-2
10th 28th Test-2
29th Environmental Impact
Assessment:
Definition and requirements,
environmental impact assessment
30th Flour chart of
environmental impact assessment
methodology-1
11th 31th Flour chart of
environmental impact assessment
methodology-2
32th Describe the need and importance
of EIA-1
33th Describe the need and importance
of EIA-2
12th 34th Legislation to Control
Environmental Pollution:
Indian legislative acts for water,
land and air pollution control
35th provisions, scope and
implementation
36th Global Issues of Environmental
Engineering:
Global warming, ozone depletion,
13th 37th acid rain, oil pollution; radiation
hazards
38th their control, concept of clean
technology
39th carbon credits
14th 40th Renewable Source of Energy:
Role of non-conventional sources
of energy
41th biogas, solar, wind
42th Conservation of energy resources-
like coal, oil etc
15th 43th alternative fuels, bio-diesel etc.
44th Assignment-3
45th Test-3
LESSON PLAN
Name of faculty : Mrs. Annu Rani
Discipline : Civil Engineering
Semester : 4th Semester
Subject :RCC DESIGN
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-05, Practicals-00
Week Theory Practical
Lecture
Day
Topic (Including assignment/test) Practical
Day
Topic
1st 1st Introduction:
Concept of Reinforced Cement
Concrete (RCC)
2nd Reinforcement Materials:
- Suitability of steel as reinforcing
material
- Properties of mild steel and
HYSD steel
Loading on structures as per IS:
875
3rd Introduction to following methods
of RCC design-Working stress
method
4th Introduction to following methods
of RCC design-Limit state
method
5th Shear and Development Length:
Shear as per IS:456-2000 by
working stress method
2nd 6th Shear strength of concrete without
shear reinforcement
7th Maximum shear stress
8th Shear reinforcement
9th Singly Reinforced Beam
(Working stress method):
Basic assumptions and stress
strain curve
10th neutral axis, balanced, under
reinforcement and over reinforced
beams
3rd 11th Moment of resistance for singly
reinforced beam
12th Design of singly reinforced beam
including sketches showing
reinforcement details-1
13th Design of singly reinforced beam
including sketches showing
reinforcement details-2
14th Design of singly reinforced beam
including sketches showing
reinforcement details-3
15th Design of singly reinforced beam
including sketches showing
reinforcement detail-4
4th 16th Assignment-1
17th Test-1
18th Concept of Limit State Method:
Definitions and assumptions made
in limit state of collapse (flexure)
19th Partial factor of safety for
materials
20th Partial factor of safetyfor loads
5th 21th Design loads-1
22th Design loads-2
23th Stres block, parameters
24th Singly Reinforced beam Theory
and design of singly reinforced
beam by Limit State Method-1
25th Theory and design of singly
reinforced beam by Limit State
Method-2
6th 26th Theory and design of singly
reinforced beam by Limit State
Method-3
27th Theory and design of singly
reinforced beam by Limit State
Method-4
28th Theory and design of singly
reinforced beam by Limit State
Method-5
29th Theory and design of singly
reinforced beam by Limit State
Method-6
30th Theory and design of singly
reinforced beam by Limit State
Method-7
7th 31th Assignment-2
32th Test-2
33th Doubly Reinforced Beams:
Theory and design of simply
supported doubly reinforced
rectangular beam by
Limit State Method-1
34th Theory and design of simply
supported doubly reinforced
rectangular beam by
Limit State Method-2
35th Theory and design of simply
supported doubly reinforced
rectangular beam by
Limit State Method-3
8th 36th Theory and design of simply
supported doubly reinforced
rectangular beam by
Limit State Method-4
37th Theory and design of simply
supported doubly reinforced
rectangular beam by
Limit State Method-5
38th Theory and design of simply
supported doubly reinforced
rectangular beam by
Limit State Method-6
39th Assignment-3
40th Test-3
9th 41th Behaviour of T beam, inverted T
beam
42th Isolated T beam and ‘L’ beams
(No Numericals)
43th One Way Slab:
Theory and design of simply
supported one way slab including
sketches showing reinforcement
details (plan and section) by Limit
State Method-1
44th Theory and design of simply
supported one way slab including
sketches showing reinforcement
details (plan and section) by Limit
State Method-2
45th Theory and design of simply
supported one way slab including
sketches showing reinforcement
details (plan and section) by Limit
State Method-3
10th 46th Theory and design of simply
supported one way slab including
sketches showing reinforcement
details (plan and section) by Limit
State Method-4
47th Theory and design of simply
supported one way slab including
sketches showing reinforcement
details (plan and section) by Limit
State Method-5
48th Theory and design of simply
supported one way slab including
sketches showing reinforcement
details (plan and section) by Limit
State Method-6
49th Theory and design of simply
supported one way slab including
sketches showing reinforcement
details (plan and section) by Limit
State Method-7
50th Assignment-4
11th 51th Test-4
52th Two Way Slab:
Theory and design of two-way
simply supported slab with corners
free to lift, no provisions for
torsional reinforcement by Limit
State Method including sketches
showing reinforcement details
(plan and two sections)-1
53th Theory and design of two-way
simply supported slab with corners
free to lift, no provisions for
torsional reinforcement by Limit
State Method including sketches
showing reinforcement details
(plan and two sections)-2
54th Theory and design of two-way
simply supported slab with corners
free to lift, no provisions for
torsional reinforcement by Limit
State Method including sketches
showing reinforcement details
(plan and two sections)-3
55th Theory and design of two-way
simply supported slab with corners
free to lift, no provisions for
torsional reinforcement by Limit
State Method including sketches
showing reinforcement details
(plan and two sections)-4
12th 56th Theory and design of two-way
simply supported slab with corners
free to lift, no provisions for
torsional reinforcement by Limit
State Method including sketches
showing reinforcement details
(plan and two sections)-5
57th Theory and design of two-way
simply supported slab with corners
free to lift, no provisions for
torsional reinforcement by Limit
State Method including sketches
showing reinforcement details
(plan and two sections)-6
58th Theory and design of two-way
simply supported slab with corners
free to lift, no provisions for
torsional reinforcement by Limit
State Method including sketches
showing reinforcement details
(plan and two sections)-7
59th Assignment-5
60th Test-5
13th 61th Axially Loaded Column:
Definition and classification of
columns, Effective length of
column
62th Specifications for longitudinal and
lateral reinforcemen
63th Design of axially loaded square by
Limit State Method including
sketching of reinforcement
(sectional elevation and plan)-1
64th Design of axially loaded square by
Limit State Method including
sketching of reinforcement
(sectional elevation and plan)-2
65th Design of axially loaded
rectangular by Limit State Method
including sketching of
reinforcement
(sectional elevation and plan)-1
14th 66th Design of axially loaded
rectangular by Limit State Method
including sketching of
reinforcement
(sectional elevation and plan)-2
67th Design of axially loaded circular
by Limit State Method including
sketching of reinforcement
(sectional elevation and plan)-1
68th Design of axially loaded circular
by Limit State Method including
sketching of reinforcement
(sectional elevation and plan)-2
69th Assignment-6
70th Test-6
15th 71th Prestressed Concrete:
Concept of pre-stressed concrete
72th Methods of pre-stressing : pre-
tensioning and post tensioning
73th Advantages and disadvantages of
pre stressing, Losses in pre-stress
74th Assignment-7
75th Test-7
LESSON PLAN
Name of faculty : Mr.GurjentWarach
Discipline : Civil Engineering
Semester : 4th Semester
Subject :WATER SUPPLY AND WASTE WATER ENGINEERING
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-05, Practicals-00
Week Theory Practical
Lecture
Day
Topic (Including assignment/test) Practical
Day
Topic
1st 1st Introduction:
Necessity and brief description of
water supply system.
2nd Quantity of Water:
Water requirement
3rd Rate of demand and variation in
rate of demand
4th Per capita consumption for
domestic, industrial
5th public and fire fighting
uses as per BIS standards (no
numerical problems)
2nd 6th Population Forecasting
7th Quality of Water:
Meaning of pure water and
methods of analysis of water
8th Physical, Chemical and
bacteriological tests and their
significance
9th Standard of potable water as per
Indian Standard
10th Maintenance of purity of water
(small scale and large scale
quantity)
3rd 11th Water Treatment (brief
introduction):
Sedimentation - purpose, types of
sedimentation tanks
12th Coagulation floculation - usual
coagulation and their feeding
13th Filtration - significance, types of
filters, their suitability
14th Necessity of disinfection of water,
forms of chlorination, break point
chlorine, residual chlorine,
application of chlorine.
15th Flow diagram of different
treatment units(i) Areation
fountain
4th 16th Flow diagram of different
treatment unitsmixer (iii)
floculator
17th Flow diagram of different
treatment unitsclassifier,
18th Flow diagram of different
treatment units (v) slow and rapid
sand filters (vi) chlorination
chamber.
19th Assignment-1
20th Test-1
5th 21th Conveyance of Water:
Different types of pipes - cast iron,
PVC, steel, asbestos cement,
concrete and lead pipes.
22th Their suitability and uses, types of
joints in different types
of pipes.
23th Appurtenances: Sluice, air, reflux
valves, relief valves, scour valves,
bib cocks, stop cocks, fire
hydrants, water meters their
working and uses
24th Distribution site: Requirement of
distribution, minimum head and
rate,methods of layout of
distribution pipes
25th Systems of water supply -
Intermittent and continuous
service reservoirs - types,
necessity and accessories.
6th 26th Wastage of water - preventive
measures
27th Maintenance of distribution
system, Leakage detection
28th Laying out Pipes:
Setting out alignment of pipes
29th Excavation for laying of pipes and
precautions to be taken in laying
pipes in black cotton soil
30th Handling, lowering beginning and
jointing of pipes
7th 31th Testing of pipe lines. Back filling
32th Use of boring rods
33th Building Water Supply
:Connections to water main
(practical aspect only)
34th Water supply fixtures and
installations and terminology
related to plumbing
35th Assignment-2
8th 36th Test-2
37th WASTE WATER
ENGINEERING:
Introduction, Purpose of sanitation
,Necessity of systematic collection
and disposal of waste
38th Definition of terms in sanitary
engineering, Collection and
conveyance of sewage
39th Conservancy and water carriage
systems, their advantages and
Disadvantages
40th (a) Surface drains (only sketches) :
various types, suitability
(b) Types of sewage: Domestic,
industrial, storm water and its
seasonal
variation
9th 41th Sewerage System:
Types of sewerage systems,
materials for sewers, their sizes
and joints
42th Appurtenance: Location, function
and construction features.
Manholes, drop manholes,
43th tank hole, catch basin, inverted
siphon, flushing tanks
44th grease and oil traps, storm
regulators, ventilating shafts
45th Laying and Construction of
Sewers:
Setting out/alignment of sewers
10th 46th Excavations, checking the gradient
with boning rods preparation of
bedding
47th handling and jointing testing and
back filling of sewers/pipes
48th Construction of surface mains and
different sections required
49th Sewage characteristics:
Properties of sewage
50th IS standards for analysis of
sewage
11th 51th Physical, chemical and
bacteriological parameters
52th Natural Methods of Sewerage
Disposal:
General composition of sewage
and disposal methods
53th Disposal by dilution
54th Self purification of stream
55th Disposal by land treatment
12th 56th Nuisance due to disposal
57th Assignment-3
58th Test-3
59th Sewage Treatment
Meaning and principle of primary
and secondary treatment
60th activated
sludge process their flow diagrams
13th 61th Introduction and uses of screens,
grit chambers, detritus tanks
62th Skimming tanks,
plainsedimentation tanks,
63th primary clarifers, secondary
clarifers, filters,
64th control beds, intermittent sand
filters, trickling filters,
65th Sludge treatment and disposal,
oxidation ponds (Visit to a sewage
treatment plant)
14th 66th Building Drainage:
Aims of building drainage
67th building drainagerequirements
68th Different sanitary fittings
69th Different sanitary installations
70th Traps, seals
15th 71th causes of breaking seals
72th A field visit
73th Explainenation of field visit
74th Assignment-4
75th Test-4
LESSON PLAN
Name of faculty : Mr.AnoopBanwala
Discipline : Civil Engineering
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 Theory Practical
Lecture
Day
Topic (Including assignment/test) Practical
Day
Topic
1st 1st Contouring:
Concept of contours, purpose of
contouring,
contour interval and horizontal
equivalent,
factors effecting contour interval,
1st Contouring:
Preparing a contour plan by radial
line method by the use of a Tangent
Clinometer/Tachometer
2nd characteristics of contours,
methods of contouring:
Direct and indirect,
use of stadia measurements in
contour survey
2nd
2nd 3rd interpolation of contours; use of
contour map,
Drawing cross section from a
contour map;
3rd Preparing a contour plan by method
of squares
4th marking alignment of a road,
railway and a canal on a contour
map,
computation of earth work and
reservoir capacity from a contour
map
4th
3rd 5th Theodolite Surveying: Working of a transit vernier
theodolite, axes of a theodolite and
their relation;
5th Preparing a contour plan of a
Road/Railway track/Canal by taking
cross sections.
6th temporary adjustments of a transit
theodolite; concept of transiting,
swinging, face
left, face right and changing face;
6th
4th 7th measurement of horizontal and 7th Theodolite:
vertical angles.
Prolonging a line (forward and
backward) measurement of bearing
of a line;
Taking out the Theodilite, mounting
on the tripod and placing it back inthe
box
8th traversing by included angles and
deflection angle method;
8th
5th 9th traversing by stadia measurement,
theodolite triangulation, plotting a
traverse
9th Study of a transit vernier theodolite;
temporary adjustments of theodolite
10th concept of coordinate and solution
of omitted measurements (one side
affected)
10th
6th 11th errors in theodolite survey and
precautions taken to minimize
them;
11th Reading the vernier and working out
the least count, measurement of
horizontal angles by repetition
andreiteration methods
12th limits of precision in theodolite
traversing. Height of objects –
accessible and non-accessible
bases
12th
7th 13th Assingnment-1 13th Measurement of vertical angles and
use of tachometric tables
14th Test-1 14th
8th 15th Tacho-metric surveying :
Tachometry, Instruments to be
used in tachometry, methods of
tachometry, stadia
system of tachometry,
15th Measurement of magnetic bearing of
a line
16th general principles of stadia
tachometry, examples of stadia
tachometry and Numerical
problems.
16th
9th 17th Curves:
Simple Circular Curve: Need and
definition of a simple circular
curve; Elements of simple circular
curve - 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
distanceand Mid-ordinate.
17th Running a closed traverse with a
theodolite (at least five sides) and its
plotting
18th Setting out of simple circular
curve:
a) By linear measurements only:
- Offsets from the tangent
18th
10th 19th Setting out of simple circular
curve:
a) By linear measurements only:
19th Height of objects with and without
accessible bases
- Successive bisection of arcs
20th Setting out of simple circular
curve:
a) By linear measurements only:
- Offsets from the chord produced
20th
11th 21th Setting out of simple circular
curve:
b) By tangential angles using a
theodolite
21th Setting out of a simple circular curve
with given data by the following
methods
a) Offsets from the chords produced
22th Transition Curve: Need
(centrifugal force and super
elevation) and definition of
transition curve; requirements of
transition curve; length of
transition curve for roads; by cubic
parabola;
22th
12th 23th calculation of offsets for a
transition curve; setting out of a
transition curve by tangential
offsets only
23th Setting out of a simple circular curve
with given data by the following
Methods
b) One theodolite method
24th Vertical curve:
Setting out of a vertical curve
24th
13th 25th Assingnment-2 25th Demonstration and use of minor
instruments like Ceylon Ghat Tracer,
Tangent Clinometer, Pantagraph,
Abney level etc.
26th Test-2 26th
14th 27th Introduction to the use of
Modern Surveying equipment
and techniques such as:
a) EDM or Distomat
b) Planimeter
c) Total station
d) Introduction to remote
sensing,GIS and GPS
27th Use of planimeter for computing
areas
28th Minor Instruments:-
Introduction and use of minor
instruments like Ceylon
GhatTracer,Clinometer,
Pantagraph, Abney Level etc. Use
of planimeter for computing areas
28th
15th 29th Assinment-3 29th Demonstration of digital instruments
through field visits to Survey of India
and other government agencies.
30th Test-3 30th Total Station (only demonstrations).
Name of the faculty:Ms. Heena Makkar
Displine : Civil
Semestere: 4th Semester
Subject: CONCRETE
TECH.
Lession Plan Duration: 15 Weeks (January 2018 to April 2018)
Work Load (Lecture) Per Week:- Lecture-3, Practical-2
Week
Theory Practical
Lecture
Day
Topic Including
Assignments/Test
Practical
Day Topic
1st
1
Introduction of concrete, Definition
of concrete 1
To determine the physical
properties of cement
2
Different type of concrete in
comparison to the other building
material. 2
To determine the physical
properties of cement
3
Classification of aggregates
according to its shape & size
2nd
1
characterstics of aggregates its
shape,particle size,surface texture 1
To determine the flakiness &
elongation index of aggregate
2
sp.gr, buk dnsity,watrer
absorption,bulking sand,sondness 2
To determine the flakiness &
elongation index of aggregate
3
Grading of aggregate,fineness
modulus,water quality req. IS code
3rd
1
Hydration of cement,principle of
w/c ratio 1
Determination of sp. Gravity
& water absorption of
aggregate
2
Duff Abram's W/c ratio,limitation
of W/c ratio law 2
Determination of sp. Gravity
& water absorption of
aggregate
3
Effects on st. Of concrete, factor
affcing workability
4th
1
Measurement of workability:
slump,compacting factor test 1
Determination of bulk
density & voids of aggregates
2
Vee Bee consistometer,slump
placement acc. IS:456-2000 2
Determination of bulk
density & voids of aggregates
3
Properties of concrete in plastic
stage:workability,segregation
5th
1
Bleeding,harshness properties of
concrete in harden stage 1
To determine the surface
moisture in fine aggregates
by dsplacement
2 Sessional test 1 2
To determine the surface
moisture in fine aggregates
by dsplacement
3
Strength,
durability,impermeability,dimension
changes
6th
1
Objective of mix design,various
gardes,normal mix design as IS cod 1
To determine workability of
slump test
2
Bulking of fine,water absorption,
workability of aggregates 2
To determine workability of
slump test
3
Diff. b/w nominal & controlled
concrete,controlled mix as per IS
7th
1
Introduction to admixtures for
improving performance of concrete 1
Compaction factor test for
workability
2
concreting under sp. Cond.
Difficulties & precation before
&after 2
Compaction factor test for
workability
3
cold weather, under water, hot
weather concreting
8th
1
RMC,FRC,polymer concrete,fly
ash, silica fume concrete 1
Non destructive test by:
rebound hammer, ultra sonic
pulse velocity
2 Storing of cement in warehouse,site 2
Non destructive test by:
rebound hammer, ultra sonic
pulse velocity
3
effect of storage on st. Of
cement,warehouse capacity for
storage
9th
1
Assignment(1)
chapter1-3 1
Test for Compressive
strength of concrete cubes for
diff. Grade concrete
2
Storing of aggregate at site,
Batching of cement & aggregates 2
Test for Compressive
strength of concrete cubes for
diff. Grade concrete
3
Measuremnt of water, Mixing of
concrete by hand mixing
10th
1
Sessional
test 2
2
machine mixing: type & capacity of
mixer, size & operation
3
Maintence & care of M/c,
Transportation of concrete & type
11th
1
Placement of concrete: checking
formwork,shuttering,precaution
2
Compaction: Hand & m/c
compaction, types of vibrators
3
selection of suitable vibrator,
finishing concrte slab-screeding
12th
1
Objective of curing,methods of
curing:ponding,steam,membrane
2
Duration of curing & removal of
formwork
3
jointing: location of joints,treatment
of construction & expansion
13th 1 joints importance & location
2
defects in concrete: identification &
methods of repair
3 Importance & methods of NDT.
14th
1 Revision
2 Assignment
3 Revision
15th
1 Sessional test 3
2
Dicussion about
Concrete technology
3
Take overall
test
LESSON PLAN
Name of faculty : Mr.GurjantWarach
Discipline : Civil Engineering
Semester : 6th Semester
Subject :QUANTITY SURVEYING AND VALUATION
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-05, Practicals-00
Week Theory Practical
Lecture
Day
Topic (Including assignment/test) Practical
Day
Topic
1st 1st Introduction to quantity surveying
and its importance. Duties of
quantity surveyor
2nd Types of estimates:
Preliminary estimates
- Plinth area estimate
- Cubic rate estimate
3rd - Estimate per unit base
Detailed estimates
- Definition
4th Stages of preparation – details of
measurement and calculation of
quantities and abstract
5th Measurement:
Units of measurement for various
items of work as per BIS:1200
2nd 6th Rules for measurements
7th Different methods of taking out
quantities – centre line method
and long wall and short wall
method
8th Assignment-1
9th Test-1
10th Preparation of Detailed and
Abstract Estimates from
Drawings for:
A small residential building with a
flat roof and pitched roof building
comprising of
- Two rooms with W.C., bath,
kitchen and verandah-1
3rd 11th A small residential building with a
flat roof and pitched roof building
comprising of
- Two rooms with W.C., bath,
kitchen and verandah-2
12th A small residential building with a
flat roof and pitched roof building
comprising of
- Two rooms with W.C., bath,
kitchen and verandah-3
13th Earthwork for unlined channel-1
14th Earthwork for unlined channel-2
15th Earthwork for unlined channel-3
4th 16th RCC work in beams, slab, column
and lintel, foundations-1
17th RCC work in beams, slab, column
and lintel, foundations-2
18th RCC work in beams, slab, column
and lintel, foundations-3
19th WBM road and pre-mix carpeting-
1
20th WBM road and pre-mix carpeting-
2
5th 21th WBM road and pre-mix carpeting-
3
22th Single span RCC slab culvert-1
23th Single span RCC slab culvert-2
24th Single span RCC slab culvert-3
25th Earthwork for plain and hill roads-
1
6th 26th Earthwork for plain and hill roads-
2
27th Earthwork for plain and hill roads-
3
28th users septic tank - 50 users-1
29th users septic tank - 50 users-2
30th users septic tank - 50 users-3
7th 31th users septic tank - 10 users-1
32th users septic tank - 10 users-2
33th users septic tank - 10 users-3
34th Assignment-2
35th Test-2
8th 36th Calculation of quantities of
materials for:
Cement mortars of different
proportion
37th Cement concrete of different
proportion
38th Brick/stone masonry in cement
mortar
39th Plastering and pointing
40th White washing, painting
9th 41th R.C.C. work in slab, beams
42th Analysis of Rates:
Steps involved in the analysis of
rates
43th Requirement of material, labour,
sundries, contractor’s profit and
overheads
44th Analysis of rates for finished
items when data regarding labour,
rates of material and labour is
given:
-Earthwork in excavation in
hard/ordinary soil and filling with
a concept of lead and lift
45th RCC in roof
slab/beam/lintels/columns
10th 46th Brick masonry in cement mortar
47th Cement Plaster
48th White washing, painting
49th Stone masonry in cement mortar
50th Running and maintenance cost of
construction equipment
11th 51th Contractorship:
- Meaning of contract
52th Qualities of a good contractor and
their qualifications
53th Essentials of a contract
54th Types of contracts, their
advantages, dis-advantages and
suitability, system of
payment
55th Single and two cover-bids; tender,
tender forms and documents,
tender notice,
submission of tender and deposit
of earnest money, security deposit,
retention
money, maintenance period
12th 56th Classification and types of
contracting firms/construction
companies
57th Preparation of Tender
Document based on Common
Schedule Rates (CSR):
- Introduction to CSR and
calculation of cost based on
premium on CSR
58th Exercises on writing detailed
specifications of different types of
building works from excavation to
foundations, superstructure and
finishing operation
59th Exercises on preparing tender
documents forEarth work
60th Exercises on preparing tender
documents forConstruction of a
small house as per given drawing
13th 61th Exercises on preparing tender
documents forRCC works
62th Exercises on preparing tender
documents forPointing, plastering
and flooring
63th Exercises on preparing tender
documents forWhite-washing,
distempering and painting
64th Exercises on preparing tender
documents forWood work
including polishing
65th Exercises on preparing tender
documents forSanitary and water
supply installations
14th 66th Exercises on preparing tender
documents forFalse ceiling,
aluminum (glazed) partitioning
67th Exercises on preparing tender
documents forTile flooring
including base course
68th Exercises on preparing tender
documents forConstruction of
W.B.M/Concrete road
69th Exercises on preparation of
comparative statements for item
rate contract
70th Valuation:
Purpose of valuation, principles of
valuation
15th 71th Definition of various terms related
to valuation like depreciation,
sinking fund
72th salvage and scrap value, market
value, fair rent, year’s purchase
etc.
73th Methods of valuation (i)
replacement cost method (ii) rental
LESSON PLAN
Name of faculty : Mr.AnoopBanwala
Discipline : Civil Engineering
Semester : 6th Semester
Subject :RAILWAYS, BRIDGES AND TUNNELS
Lesson Plan Duration :15 Weeks (from January, 2018 to April, 2018)
Work Load(Lecture / Practical) per week(in hours) :Lectures-05, Practicals-00
Week Theory Practical
Lecture
Day
Topic (Including
assignment/test)
Practical
Day
Topic
1st 1st RAILWAYS Introduction
2nd Introduction to Indian Railways
3rd Railway surveys: Factors
influencing the railways route,
4th brief description of
various types of railway survey
5th Classification of permanent way
describing its component parts
2nd 6th Classification of permanent way
describing its component parts
7th Rail Gauge: Definition, types,
practice in India
8th Assignment-1
9th Test-1
10th Rails – types of rails
3rd 11th Rails – types of rails
12th Rail Fastenings: Rail joints, types
of rail joints
13th fastenings for rails, fish plates,
bearing plates
14th Sleepers: Functions of sleepers,
types of sleepers,
15th types of sleepers, requirements of
an ideal material for sleepers.
4th 16th Ballast: Function of ballast,
17th requirements of an ideal material
for ballast
18th Assignment-2
19th Test-2
20th Crossings and signallings
5th 21th Brief description regarding
different types of crossings/
signallings (Latest electronics
operated signal devices )
22th Maintenance of track: Necessity,
maintenance of track, inspection
of soil, track and fixtures;
23th maintenance and boxing of ballast
maintenance gauges, tools
24th Earth work and drainage: Features
of rail road, bed level
25th width of formation, side
slopes, drains,
6th 26th methods of construction,
requirement of drainage system
27th Assignment-3
28th Test-3
29th BRIDGES Introduction
30th Bridge – its function and
component parts,
7th 31th difference between a bridge and a
culvert
32th Assignment-4
33th Test-4
34th Classification of Bridges
35th Their structural elements and
suitability:
-According to life-permanent and
temporary
8th 36th -According to deck level – Deck,
through and semi-through
37th -According to material –timber,
masonry, steel, RCC, pre-stressed
38th According to structural form
-Grade Seperators-Railway
Overbridges (ROB)
39th Railway underbridge (RUB)
40th Beam type –RCC, T-Beam
9th 41th steel girder bridges, plate girder
and box girder
42th balanced cantilever, Trussed
bridges
43th Arch type – open spandrel and
filled spandrel barrel and rib type
44th Suspension type – unstiffened and
stiffened and table (its
description with sketches)
45th According to the position of
highest flood level submersible
and non submersible
10th 46th Assignment-5
47th Test-5
48th IRC classification
49th Assignment-6
50th Bridge Foundations: Introduction
to open foundation
11th 51th pile foundation
52th Well foundation
53th Assignment-7
54th Test-6
55th Piers, Abutments and Wingwalls
Piers-definition, parts; types –solid
(masonry and RCC), open
12th 56th Abutments and wing walls –
definition, types of abutments
(straight and
tee),
57th abutment with wing walls
(straight, splayed, return and
curved)
58th Launching of Equipment Bridges
59th Bridge bearings
Purpose of bearings; types of
bearings
60th fixed plate, rocker and roller
13th 61th Maintenance of Bridges
Inspection of Steel and Equipment
bridges
62th Routine maintenance
63th Assignment-8
64th Test-7
65th TUNNELS
Definition and necessity of tunnels
14th 66th Typical section of tunnels for a
national highway and single and
double broad gauge railway track
67th Typical section of tunnels for a
national highway and single and
double broad gauge railway track
68th Ventilation –necessity and
methods of ventilation
69th by blowing, by exhaust
70th combination of blowing and
exhaust
15th 71th Drainage method of draining
Name of the faculty:Ms. Heena Makkar
Displine : Civil
Semestere: 6th Semester
Subject: CMA
Lession Plan Duration: 15 Weeks (January 2018 to April 2018)
Work Load (Lecture) Per Week:- Lecturer-5
Week
Theory
Lecture Day
Topic Including
Assignments/Test
1st
Week
1
Introduction of construction management, significance of construction
mang.
2 Objective of CMA & overview, function of construction management
3 Classification of construction into light, heavy & industrial const.
4
stages in construction from conception to completion, the constrution
team & thier function
5
Importance of construction planning,stages of construction planning:
pre & post tender
2nd
Week
1
introduction of scheduling of construction by bar charts: definition &
identification of activites
2
Prepration of bar chart & schedules for
labour,material,machiery,finance & limitation of bar chart
3
Introductin to network tech:CPM,PERT / Diff b/w CPM& PERT
terminology
4 Types of organization: line, staff their function & characterstics
5 Assignment(1) of chapter 1-3
3rd
Week
1 Introdction & principle of storing & stacking of material at site
2 Location of equipment & prepration of actual job layout for a building
3 organizing labour at site
4 Revise the chapter
5
Introduction about condition of construction work in India, wages paid
to workers
4th
Week
1
Important provision Act: Labour Welfare Fund Act 1936, Payment of
Wages Act 1936
2 Minimum Wages Act 1948
3 Revies the chapter
4 Class test chapter 1,2
5 discuss problem in chapters
5th
Week
1 Introduction about control of progress
2 Methods of recording progress
3 Introduction about analysis of progress
4 Taking corrective actions keeping head office informed
5 Cost time optimization of simple jobs
6th
Week
1 Sessional test 1
2 Discuss about Test questions
3 Direct & Indirect cost, Variation with time
4 Cost optimization
5 Revise this Chapter
7th
Week 1 Assignment - 2
2 Introduction about Inspection & quality control
3 Need for inspection & quality control
4 principles of inspection
5 stages of inspection & quality control: Earth work,Masonry
8th
Week
1 RCC, Sanitary & water supply services
2 Revise this chapter
3 Introduction about safety and accidents in construction
4 Accident causes and remedies
5 Safety measures for excavation work
9th
Week
1 Drilling & Blasting
2 Hot bituminous Works
3 scaffolding work
4 Ladders, Form work
5 Demolitions
10th
Week
1 Revise this chapter
2 Dicuss the numerical problems
3 Sessional test 2
4 Discuss about sessional test questions
5 Introduction about safety campaign and safety devices
11th
Week
1 Introduction about Accounts
2 Public Works accounts
3 Introduction of technical sanction
4 Administrative approval, allotment of funds
5 Assignment 3
12th
Week
1 Revise the chapter
2 Class test
3 Introduction about Re appropriation of funds Bill
4
Contractor ledger, measurement book runnuing & final account bill
complete
5 Prepration of bill of quantites(BOQ)
13th
Week
1 Completion certificate & report, hand receipt, aquittance roll
2
Muster roll Labour,casual labour roll duties & responsibilites of
different cadres
3 Budgets-stores,return account of stock , misc
4 P.W. Advances T&P
5
Road metal material charged direct to works, account- expeditre &
revenue head
14th
Week
1 Remittance & deposit head
2 Definition of cash,precaution in custody of cashbook
3 Imprest account,temporary advance, treasury challan