Department: CIVIL Program: B.Tech Course : DESIGN OF ...
Transcript of Department: CIVIL Program: B.Tech Course : DESIGN OF ...
1. Pre-requisites: SM-1, SM-2, DRCS-I
2. Course Educational Objectives (CEOs):
Learn the design principles of shallow foundations. Study the design aspects of stair
cases. Know the design parameters of slabs, cantilever type retaining walls and RCC
water tanks.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1: Design the shallow foundations
CO2: Design the flat and grid slabs
CO3: Design the stair case
CO4: Design the retaining walls
CO5: Design the RCC water tanks
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T170
CO1 2 2 3 2 1 3 3 1 1
CO2 2 2 3 2 2 3 3 1 1
CO3 2 2 2 2 2 1 3 1 1
CO4 2 3 3 2 2 2 3 1 1
CO5 2 2 3 2 2 3 3 1 1
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: CIVIL Program: B.Tech
Course : – DESIGN OF REINFORCED CONCRETE STRUCTURES -II (S 275) SEM: VII Academic Year : 2017-18
LESSON PLAN
4. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
Unit-1
Content beyond the syllabus:
1 Introduction and types of
foundations
1 27/06/17 DM1
2 IS456-2000 Design specifications 1 29/06/17 DM1
3 Analysis of rectangular isolated
footing of uniform thickness
1 30/06/17 DM1
4 Analysis of square isolated footing
of uniform thickness and design
procedure
1 01/07/17 DM1
5 Design of rectangular isolated
footing of uniform thickness
1 04/07/17 DM1
6 Design of square isolated footing of
uniform thickness
1 06/07/17 DM1
7 Design problems 1 07/07/17 DM1
8 Design problems 1 08/07/17 DM1
9 Analysis of rectangular and square
isolated sloped footings
1 11/07/17 DM1
10 Design problems 1 13/07/17 DM1
11 Design problems 1 14/07/17 DM1
12 TUTORIAL-1 1 15/07/17 DM3
13 Analysis of combined footings 1 18/07/17 DM1
14 Design procedure and problems 1 20/07/17 DM1
15 Design problems 1 21/07/17 DM1
16 Design problems 1 22/07/17 DM1
17 TUTORIAL-2 1 27/06/17 DM3
Number of classes 17
Unit-II
Content beyond the syllabus:
18 Types of stair cases 1 25/07/17 DM1
19 IS Specification for staircases and
design procedure
1 27/07/17 DM1
20 Design of stairs spanning
horizontally
1 28/07/17 DM1
21 Design problems 1 29/07/17 DM1
22 Design of dog legged stair 1 01/08/17 DM1
23 Design problems 1 03/08/17 DM1
24 Design problems 1 04/08/17 DM1
25 TUTORIAL-3 1 05/08/17 DM3
Number of classes 8
UNIT-III
Content beyond the syllabus:
26 Introduction and yield line theory 1 08/08/17 DM1
27 Yield lines for different boundary
conditions
1 09/08/17 DM1
28 Design of circular slabs 1 10/08/17 DM1
29 Design problems 1 11/08/17 DM1
30 Design problems 1 12/08/17 DM1
31 Design problems 1 17/08/17 DM1
32 Design of grid slab 1 18/08/17 DM1
33 Design problems 1 19/08/17 DM1
34 MID-1 1 22/08/17 DM1
37 MID-1 1 24/08/17 DM1
38 MID-1 1 26/08/17 DM1
39 MID-1 1 29/08/17 DM1
40 TUTORIAL-4 1 31/08/17 DM3
41 Design of flat slabs 1 01/09/17 DM1
42 Design problems 1 05/09/17 DM1
43 Design problems 1 07/09/17 DM1
44 Design problems 1 08/09/17 DM1
45 TUTORIAL-5 1 09/09/17 DM3
Number of classes 20
UNIT-IV
Content beyond the syllabus:
46 Introduction to retaining walls and
types of retaining walls
1 12/09/17 DM1
47 Forces acting on retaining walls 1 14/09/17 DM1
48 Stability requirements and design
procedures
1 15/09/17 DM1
49 TUTORIAL-6 1 16/09/17 DM3
50 Design of cantilever type retaining
wall
1 21/09/17 DM1
51 Design of cantilever type retaining
wall
1 22/09/17 DM1
52 Design problems 1 23/09/17 DM1
53 Design problems 1 26/09/17 DM1
54 Design problems 1 28/09/17 DM1
55 Design problems 1 03/10/17 DM1
56 Design problems 1 05/10/17 DM1
57 Design problems 1 06/10/17 DM1
58 Design problems 1 07/10/17 DM1
59 TUTORIAL-7 1 12/10/17 DM3
Number of classes 14
UNIT-V
Content beyond the syllabus:
60 Introduction to water tanks 1 13/10/17 DM1
61 Types of water tanks 1 14/10/17 DM1
62 Design of surface RCC water tanks 1 17/10/17 DM1
63 Design problems 1 19/10/17 DM1
64 Design problems 1 20/10/17 DM1
65 Design of underground water tanks 1 24/10/17 DM1
66 TUTORIAL-8 1 26/10/17 DM3
67 Design problems 1 27/10/17 DM1
68 Design problems 1 28/10/17 DM1
69 Design of elevated water tanks 1 31/10/17 DM1
70 Design problems 1 02/11/17 DM1
71 Design problems 1 03/11/17 DM1
72 Design problems 1 04/11/17 DM1
73 TUTORIAL-9 1 07/11/17 DM3
74 Repetition 1 09/11/17 DM1
75 Repetition 1 10/11/17 DM1
76 Repetition 1 11/11/17 DM1
Number of classes 17
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
Pre-requisites: Nil
Course Educational Objectives (CEOs):
1. To study the technical aspects and fundamentals of Remote sensing and GIS usage.
2. To learn the principles involved in interpreting photogrammetric images.
3. To learn the procedures involved in the analysis involved in analysis of image and spatial
data based on remote sensing and GIS data
4. To study the various techniques in image processing
5. To understand the techniques of RS & GIS suitable for solving civil engineering
applications
Course Outcomes (COs): At the end of the course, the student will be able to:
CO1 : Understand technical aspects and fundamentals of Remote sensing and GIS usage.
CO2 : Understanding different photogrammetric images.
CO3 : Analyze and apply the image and spatial data analysis based on remote sensing and
GIS data
CO4 : Understanding apply the different image processing
CO5 : Apply the RS & GIS techniques for solving civil engineering applications
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T170
CO1
CO2
CO3
CO4
CO5
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: Civil Program: B.Tech Course : RS & GIS
SEM: VII Academic Year : 2017-18
LESSON PLAN
Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
UNIT-1
1 Introduction to Remote Sensing
1
2 Basic Concepts of Remote Sensing 1
3 Electromagnetic Radiation 1
4 Electromagnetic Spectrum 1
5 Interaction with Atmosphere 1
6 Energy Interaction with The Earth
Surfaces
1
7 Characteristics of Remote Sensing
Systems
1
8 Sensors and Platforms: Types of
Sensors
1
9 Image Data Characteristics 1
10 Tutorial-1 1
11 Digital Image Data Formats 1
12 IRS, LANDSAT, SPOT.
1
13 Tutorial-2 1
Number of classes 13
UNIT-II
14 Introduction Image Analysis
1
15 Elements of Visual Interpretations 1
16 Digital Image Processing 1
17 Image Pre-Processing 2
18 Image Enhancement 2
19 Tutorial-3 1
20 Image Classification 1
21 Supervised Classification 1
22 Unsupervised Classification.
1
23 Tutorial-4 1
Number of classes 14
UNIT-III
24
Introduction to Geographic
Information System
1
25
Key Components of GIS 1
26 Application Areas of GIS 1
27 Map Projections 1
28 Data Entry and Preparation 1
29 Spatial Data Input 1
30 Tutorial-5 1
31 Raster Data Models 2
32 Vector Data Models
2
33 Tutorial-6 1
Number of classes 12
UNIT-IV
34 Introduction To Spatial Data
Analysis
1
35 Overlay Function 1
36 Vector Overlay Operations 1
37 Raster Overlay Operations 1
38 Arithmetic Operators 1
39 Comparison and Logical Operators 1
40 Tutorial-7 1
41 Conditional Expressions 1
42 Overlay using a Decision Table 1
43 Network Analysis 1
44 Optimal Path Finding 1
45 Network Allocation and Network
Tracing
1
46 Tutorial-8 1
Number of classes 13
UNIT-V
47 RS and GIS Applications
1
48 Land Cover and Land Use 1
49 Agriculture 1
50 Forestry 1
51 Geology 1
52 Geomorphology 1
53 Tutorial-9 1
54 Urban Applications 1
55 Flood Zoning and Mapping 1
56 Groundwater Prospects And
Potential Recharge Zones
1
57 Watershed Management 1
58 Tutorial-10 1
Number of classes 12
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of
the Faculty
PRINCIPAL
1. Pre-requisites: IS 1343:1980 code book
2. Course Educational Objectives (CEOs):
CEO should be a paragraph in two or three sentences only.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : Understand the general mechanical behaviour of prestressed concrete.
CO2 : Perform analysis and design of prestressed concrete members and connections.
CO3 : Identify and interpret the appropriate relevant industry design codes.
CO4 : Become familiar with professional and contemporary issues in the design and
fabrication of prestressed concrete members.
CO5 : Perform an industry relevant design project in team setting etc .,,
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T348
CO1 2 2 1 3 2 2 2 2 2 2 2
CO2 3 3 2 3 2 2 2 2 2 2 3 2
CO3 3 3 2 2 2 2 2 2 2 3 2
CO4 3 3 2 2 2 2 2 2 2 2 2 2 3 2
CO5 3 3 3 2 2 2 2 2 2 2 2 3 2
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: CIVIL Program: B.Tech Course : –PRESTRESSED CONCRETE STRUCTURES (S348)
SEM: VII Academic Year : 2017-18
LESSON PLAN
4. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
Unit-1 Introduction about the prestreesed concrete
1 Introduction to prestreesed 1 27/06/17 1
2 Historic development of
prestreesed
1 29/06/17 1
3 General principles of prestreesing 1 30/06/17 1,6
4 Principles of pre tensioning and
post tensioning
1 01/07/17 1,6
5 Advantages of prestreesed concrete 1 04/07/17 1
6 Limitations of prestreesed concrete 1 06/07/17 1
7 Materials of prestreesed concrete 1 07/07/17 1
8 High strength concrete and High
tensile steel
1 08/07/17 1
9 Tutorial-1 1 11/07/17 3,4
10 Methods of prestressing 1 13/07/17 1,6
11 Pre-tensioning method and post
tensioning methods
1 14/07/17 1,6
12 Post tensioning methods analysis 1 15/07/17 1
13 Different systems of prestressing 1 18/07/17 1 14 Hoyer’s , Magnel analysis 1 20/07/17 1
15 Freyssinet and Gifford analysis 1 21/07/17 1
16 Tutorial-2 1 22/07/17 3,4
Number of classes 16
Unit-II LOSSES OF PRESTRESS
17 Introduction to losses of prestress 1 25/07/17 1
18 Analysis of sections of flexure 1 27/07/17 1
19 Elastic analysis of concrete beams
prestressed with tendons
1 28/07/17 1
20 Problems on various elastic
tendons
1 29/07/17 1
21 Elastic shortage of concrete 1 01/08/17 1
22 Problems on elastic shortage
concrete
1 03/08/17 1
23 Problems on elastic shortage
concrete
1 04/08/17 1
24 Tutorial -3 1 05/08/17 3,4
25 Shrinkage of concrete ,Problems on
shrinkage of concrete
1 08/08/17 1
26 Creep of concrete, Relaxation of
steel
1 09/08/17 1
27 Problems on both the cases 1 10/08/17 1
28 Frictional losses and problems 1 11/08/17 1
29 Tutorial -4 1 12/08/17 3,4
30 Problems on Anchorage slip 1 17/08/17 1
31 Total loss of pretensioning & Post
tensioning
1 18/08/17 1
32 Losses problems 1 19/08/17 1
33 I-MID EXAMS 22/08/17
34 I-MID EXAMS 24/08/17
35 I-MID EXAMS 26/08/17
Number of classes 17
UNIT-III: DESIGN OF SECTION FOR FLEXURE AND SHEAR
36 Types of flexural failures 1 29/08/17 1
37 Problems on flexural failure 1 31/08/17 1
38 Flexural failure, Strain
compatibility method
1 01/09/17 1
39 Tutorial -5 1 05/09/17 3,4
40 Problems on strain compatibility 1 07/09/17 1
41 Problems 1 08/09/17 1
42 Shear and principles of stresses 1 09/09/17 1
43 Principal of stresses 1 12/09/17 1
44 Principal of stresses 1 14/09/17 1
45 Problems in principal of stress and
shear
1 15/09/17 1
46 Design of shear reinforcement 1 16/09/17 1
47 Tutorial -6 1 19/09/17 3,4
Number of classes 13
UNIT-IV: ANALYSIS OF END BLOKS
48 Introduction analysis of end blocks 1 21/09/17 1
49 Problems on end blocks 1 22/09/17 1
50 Mugnel method, Problems,
Anchorage zone stresses
1 23/09/17 1
51 Problems anchorage zone stresses 1 26/09/17 1
52 Tutorial -7 1 28/09/17 3,4
53 Approximate design consideration 1 03/10/17 1
54 Anchorage zone reinforcement
problems, Analysis of stresses
1 05/10/17 1
55 Differential shrinkage and
problems
1 06/10/17 1
56 Problems, General considerations 1 07/10/17 1
57 Tutorial -8 1 12/10/17 3,4
Number of classes 10
UNIT-V: DEFLECTION OF PRESTRESSED CONCRETE BEAMS
58 Introduction about Deflection of
beam
1 1 13/10/17 1
59 Importance of control of deflection 1 1 14/10/17 1
60 Factors influencing deflection 1 1 17/10/17 1
61 Tutorial -9 1 1 19/10/17 3
62 Short term deflection 1 1 20/10/17 1
63 Short term deflection Problems 1 1 24/10/17 1
64 Short term deflection problems 1 1 26/10/17 1
65 Long term deflection 1 1 27/10/17 1
66 Long term deflection Problems 1 1 28/10/17 1
67 Long term deflection Problems 1 1 31/10/17 1
68 Long term deflection Problems 1 1 02/11/17 1
69 Tutorial -10 1 1 03/11/17 3,4
70 Revision 1 1 04/11/17 3,4
71 II-MID EXAMS 07/11/17
72 II-MID EXAMS 09/11/17
73 II-MID EXAMS 10/11/17
74 II-MID EXAMS 11/11/17
Number of classes 13
Total Number of classes 67
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
1. Pre-requisites: Building Materials and Construction
2. Course Educational Objectives (CEOs):
This course aims to teach management of various projects and financial facilities, how to
plan and organize for any project and proper utilization of materials equipments and
labour. The students will also gain the procedure of scheduling and the programming for
any project by network analysis.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : Manage any project technically and Financially.
CO2 : Control project budget.
CO3 : Plan the project to complete in schedule.
CO4 : Perform detailed network analysis to complete project within schedule.
CO5 : Deal contracts and bidding processes.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S172
CO1 2 1 3 3 3 3 1 1 2
CO2 2 1 3 1 3 1 1 2
CO3 2 1 1 3 1 1 2
CO4 3 3 2 1 3 1 3 1 3 3 2
CO5 2 3 1 3 1 1 2 2
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: CIVIL Program: B.Tech Course : –Construction Management (S172)
SEM: VII Academic Year : 2017-18
LESSON PLAN
4. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date D
M As per the
Schedule
Taken
Unit-1
1 Introduction to construction
management and objective of
construction management
1 1
2 Project life cycle 1 1
3 Major types of constructions 1 1
4 Stages in construction 1 1
5 Tutorial-1 1 3 6 Construction team 2 1
7 Financing of a construction 2 1
8 Legal and regularity requirements
role of project managers
1 1
9 Tutorial-2 1 3
Number of classes 11
Unit-II
10 Introduction to project planning &
organization
1 1
11 Stages of planning 2 1
12 Objective, principles, advantages and
limitation of planning 2 1
13 Types of plans and introduction to
scheduling 1
1
14 Tutorial-3 1 3
15 Advantages and methods of
scheduling 2
1
16 Problems on scheduling 1 1 17 Organization and principles for
forming an organization 2 1
18 Types of organizations 1 1
19 Tutorial-4 1 3
Number of classes 14
Unit-III
20 Introduction and objectives of
material management
2 1
21 Material procurement process and
material management functions
2 1
22 Material management functions 1 1
23 tutorial-5 1 3
24 Introduction to equipment
management
1 1
25 Classification of construction
equipment and selection of
equipment
2
1
26 Planning of infrastructure for
mechanization
2 1
27 Labour productivity and Factors
affecting job site productivity
2 1
28 Equipment maintenance &
Equipment management check list
1 1,3
29 Tutorial-6 1
Number of classes 15
Unit-IV 30 Introduction to network analysis 1 1
31 Important definitions in network
analysis
1 1
32 Use of CPM and PERT techniques 1 1
33 Applications of CPM and PERT and
tutorial -9
1 1,3
34 Problems 2 1
35 Tutorial 10 1 3
Number of classes 7 Unit-V
36 Introduction to contracts 1 1 37 Types of contracts 1 1
38 Contract document and
specifications
1 1
39 Important conditions of contract &
tutorial-7
2 1,3
40 Tender and tender document 1 1
41 Types of tenders 1 1 42 Specifications of tender document 1 1
43 Deposits by the contractors 1 1
44 Arbitration 2 1
45 M-book 1 1
46 RA bills and advances 2 1
47 Muster roll and stores 2 1
48 Tutorial -8 1 3
Number of classes 13 Total Number of classes 60
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
1. Pre-requisites: BUILDING MATERIALS & CCONSTRUCTION, CONCRETE
TECHNOLOGY
2. Course Educational Objectives (CEOs): Student can able to learn estimating all civil
engineering structures material requirement and quantities and cost estimation.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1: Apply the Basic concepts and prepare the Estimation of buildings using different centre
line method, longwall & short walls method.
CO2: Compute the quantity of steel reinforcement for different elements of R.C.C works in
building by preparing a bar bending schedule.
CO3: Compute the volume of earth work for roads and reservoir capacity.
CO4: Preparation of analysis of rates for general and detailed specifications.
CO5: Interpret the valuation of buildings.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S391
CO1
CO2
CO3
CO4
CO5
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: CIVIL Program: B.Tech
Course : – Estimation & Quantity Surveying (T386)
SEM: VII Academic Year : 2017-18
LESSON PLAN
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per
the
Schedule
Taken
UNIT-I Estimate of Buildings&
methods of Building estimates
1 Introduction to Estimation & methods
of Estimating
1 1
2 Main items of work 1 1
3 Units of measurements 1 1
4 Different methods of Estimating 1 1
5 Deduction for openings 1 1
6 Degree of accuracy 1 1
7 Methods of building estimates 1 1
8 Individual wall method 1 1
9 Procedure to calculate quantities 1 1
10 TUTORIAL-1 1 1
11 Individual wall method problems 1 1
12 Individual wall method problems 1 1
13 Individual wall method problems 1 1 14 Centre line method procedure &
problems
1 1
15 Centre line method procedure &
problems
1 1
16 Arch masonry calculations 1
1
17 Estimate of steps 1 1
18 Estimate of a building from line plans 1 1
19 TUTORIAL-2 1 1
UNIT-II Estimate of RCC Works
20 Estimate of RCC Works introduction 1 1 21 Standard hooks & cranks in RCC 1 1
22 Standard hooks & cranks in RCC 1 1
23 Standard hooks & cranks in RCC 1 1
24 Estimate of RCC slab 1 1
25 Estimate of RCC slab 1 1
26 Estimate of RCC slab 1
27 Estimate of RCC Beam 1
28 Estimate of RCC Beam 1 29 Estimate of RCC Beam 1
30 TUTORIAL-3 1 31 Estimate of RCC T-Beam Slab 1
32 Estimate of RCC T-Beam Slab
1 1
33 Estimate of RCC T-Beam Slab 1 1
34 Estimate of RCC T-Beam Slab 1 1
35 Estimate of RCC column with
Foundation
1 1
36 Estimate of RCC column with
Foundation
1 1
37 Estimate of RCC column with
Foundation
1 1
38 Problems 1 1
39 Problems 1 1
40 TUTORIAL-4 1 1
I-MID EXAMINATION 1 1
I-MID EXAMINATION 1 1
I-MID EXAMINATION 1 1
41 UNIT-III Road Estimating & Canal Estimate
1 42 Estimate of earth work for plane
roads
1 1
43 Estimate of earth work for plane
roads
1 1
44 TUTORIAL-5 1 1
45 Estimate of earth work for plane
roads
1 1
46 Estimate of Pitching of slopes 1 1
47 Estimate of Earth work of road from
longitudinal sections
1 1
48 Estimate of Earth work of road from
longitudinal sections
1 1
49 TUTORIAL-6 1 1
50 Estimate of Earth work of road from
longitudinal sections
1 1
Estimate of earth work in hill roads 1 1
Estimate of earth work in hill roads 1 1
51 Canal estimate-Earth work in canals
different cases
1 1
52 Canal estimate-Earth work in canals
different cases
1 1
53 Estimate of earth work in irrigation
channels
1 1
54 TUTORIAL-7 1 1
UNIT-IV Specifications & Analysis of Rates
3
55 Purpose and method of writing
specifications
1 1
56 General specifications & Detailed
specifications for Brick work
1 1
57 Detailed specifications for RCC 1 1
58 Detailed specifications for Plastering 1 1
59 Detailed specifications for Mosaic
flooring
1 1
60 TUTORIAL-8 1 1
61 Detailed specifications for R.R Stone
masonry
1 1
62 Analysis of rates-task or Out-turn
work
1 1
63 Labour & material required for
different works
1 1
64 Preparing analysis of rates for
Concrete & RCC works
1 1
65 Preparing analysis of rates for Brick
work in foundation & super structure
1 1
66 Preparing analysis of rates for
Plastering
1 1
67 Preparing analysis of rates for CC
flooring & White washing
1 1
UNIT: V Valuation 1 1
68 Cost, Price & value 1 1
69 Methods of valuation 1 1
70 Outgoilngs,depreciation 1 1
71 Methods for estimating cost
depreciation
1 1
72 Valuation of building & Gross
income,Net income,Scrap value
1 1
73 TUTORIAL-9 1 1
74 Salvage value,Obsolescence & Life
of structures,sinking fund
1 1
75 Capitalized value,Years purchase
,Standard rent
1 1
76 Process of fixing standard rent 1 1
77 Annuity & Mortgage 1 1
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
S No. Experiments to be covered Num.
of
classes
1 Introduction about R.C.C and Steel
designs
3
2 Design of T- beam and L-
beam
3
3 Reinforcement details of T-beam and
L- beam
3
4 Design of foundation and
Reinforcement details drawing
3
5 Design of Lacing and battens and
Drawing
3
6 Design of gusset plate and drawing 3
7 Introduction about STAAD PRO 3
8 Analysis of continuous beam 3
9 Analysis of 2D Frames 3
10 Analysis of 3D Frames 3
11 Analysis of multi-storey building 3
12 Analysis of trusses 3
13 Analysis of Trusses 3
14 Analysis of tower 3
15 Repetition lab 3
16 Repetition lab 3
17 Repetition lab
Signature Of Faculty Head Of The Dept
Department: CIVIL Program: B.Tech
Course : – P 887 – CAAD LAB
SEM: VII Academic Year : 2017-18
LESSON PLAN
COMPUTER AIDED ANALYSIS AND DESIGN LAB
Date: 28-6-2017
I –CYCLE SCHEDULE
Date / batch A1 A2 A3 A4 A5 A6
03-07-17 1 1 1 1 1 1
10-07-17 1 1 1 1 1 1
17-07-17 2 2 2 2 2 2
24-07-17 2 2 2 2 2 2
31-07-17 3 3 3 3 3 3
7-08-17 4 4 4 4 4 4
Date / batch B1 B2 B3 B4 B5 B6
05-07-17 1 1 1 1 1 1
12-07-17 1 1 1 1 1 1
19-07-17 2 2 2 2 2 2
25-07-17 2 2 2 2 2 2
02-08-17 3 3 3 3 3 3
09-08-17 4 4 4 4 4 4
II CYCLE SCHEDULE
Date / batch A1 A2 A3 A4 A5 A6
14-08-17 5 5 5 5 5 5
04-09-17 6 6 6 6 6 6
11-09-17 7 7 7 7 7 7
18-09-17 8 8 8 8 8 8
25-09-17 9 9 9 9 9 9
14-10-17 10 10 10 10 10 10
Date / batch B1 B2 B3 B4 B5 B6
16-08-17 5 5 5 5 5 5
30-08-17 6 6 6 6 6 6
06-09-17 7 7 7 7 7 7
13-09-17 8 8 8 8 8 8
20-09-17 9 9 9 9 9 9
27-09-17 10 10 10 10 10 10
Batch A (14761A0101 to 14761A0135): Monday
Batch B (14761A0135 to 14761A0160 & 15765A0101 to 15765A0113): Wednesday
INCHARGE HOD
HIGHWAY AND CONCRETE TECHNOLOGY LAB
Date: 28-6-2017
I –CYCLE SCHEDULE
Date / batch A1 A2 A3 A4 A5 A6
12-07-17 1 2 3 4 5 6
19-07-17 6 1 2 3 4 5
25-07-17 5 6 1 2 3 4
02-08-17 4 5 6 1 2 3
09-08-17 3 4 5 6 1 2
16-08-17 2 3 4 5 6 1
Date / batch B1 B2 B3 B4 B5 B6
10-07-17 1 2 3 4 5 6
17-07-17 6 1 2 3 4 5
24-07-17 5 6 1 2 3 4
31-07-17 4 5 6 1 2 3
7-08-17 3 4 5 6 1 2
14-08-17 2 3 4 5 6 1
II CYCLE SCHEDULE
Date / batch A1 A2 A3 A4 A5 A6
30-08-17 7 8 9 10 11 12
06-09-17 12 7 8 9 10 11
13-09-17 11 12 7 8 9 10
20-09-17 10 11 12 7 8 9
27-09-17 9 10 11 12 7 8
4-10-17 8 9 10 11 12 7
Date / batch B1 B2 B3 B4 B5 B6
04-09-17 7 8 9 10 11 12
11-09-17 12 7 8 9 10 11
18-09-17 11 12 7 8 9 10
25-09-17 10 11 12 7 8 9
9-10-17 9 10 11 12 7 8
16-10-17 8 9 10 11 12 7
Batch A (14761A0101 to 14761A0135): Wednesday
Batch B (14761A0135 to 14761A0160 & 15765A0101 to 15765A0113): Monday
INCHARGE HOD