B.Tech in Civil Engineering Program Educational Outcomes 1: Be professionally and technically comply in taking leadership roles in private industry and public sector. 2: Pursue further studies to become researchers and administrators in corporate world. 3: Be successful entrepreneurs exhibiting sustainability and profitability. 4: Exhibit professional ethics and lifelong learning. Program Specific Outcomes 1: Analyze Design, Construct, Maintain and Operate infrastructural projects. 2: Assess the environmental impact of various projects and take required measures to curb environmental deterioration. 3: Able to use latest and relevant codes of practice, materials, techniques and software’s pertaining to various streams of Civil Engineering. Course Outcomes (COs) B.Tech in Civil Engineering 2019-20 batch Semester Course Code Course Name Course Outcomes (COs) 3 14CE33 FLUID MECHANICS CO1: Discuss the fundamental properties of fluid at rest and in motion, boundary layer theory and methods of pressure measurement and flow measurement CO2: Compute hydrostatic force on immersed surfaces CO3: Analyze the fluid flow problems using basic principles and theories 3 14CE34 SURVEYING - I CO1: Describe basic principles of surveying, types of compass, leveling instruments, theodolites and maps CO2: Explain chain surveying, compass surveying,
Transcript
B.Tech in Civil Engineering
Program Educational Outcomes
1: Be professionally and technically comply in taking leadership roles in private industry and
public sector.
2: Pursue further studies to become researchers and administrators in corporate world.
3: Be successful entrepreneurs exhibiting sustainability and profitability.
4: Exhibit professional ethics and lifelong learning.
Program Specific Outcomes
1: Analyze Design, Construct, Maintain and Operate infrastructural projects.
2: Assess the environmental impact of various projects and take required measures to curb
environmental deterioration.
3: Able to use latest and relevant codes of practice, materials, techniques and software’s
pertaining to various streams of Civil Engineering.
Course Outcomes (COs)
B.Tech in Civil Engineering 2019-20 batch
Semester Course Code
Course Name Course Outcomes (COs)
3 14CE33 FLUID MECHANICS CO1: Discuss the fundamental properties of fluid at rest and in motion, boundary layer theory and methods of pressure measurement and flow measurement
CO2: Compute hydrostatic force on immersed surfaces
CO3: Analyze the fluid flow problems using basic principles and theories
3 14CE34 SURVEYING - I CO1: Describe basic principles of surveying, types of compass, leveling instruments, theodolites and maps
CO2: Explain chain surveying, compass surveying,
leveling and contouring, Theodolite surveying
CO3: Solve Linear measurement using chain surveying, three point and two point problems using Plane table surveying , horizontal angles and Vertical angles by the methods of Reiteration and Repetition
CO4: Analyse errors in Compass surveying, adjustment of error by graphical method, Area and Volume by Simpson’s rule and Trapezoidal rule, compensating and cumulative errors , elimination of errors in Theodolite surveying
CO5 :
Plot Traverse and Contour Map
3 14CE35 STRENGTH OF MATERIALS
CO1: Explain the concepts of stress, strain, Elastic constants, Hooke's law, Poisson's ratio, temperature stresses and composite sections
CO2: Discuss stresses such as bending stresses, shear stresses, torsional stresses and two dimensional stress system
CO3: Draw bending moment and shear force diagrams. To understand thin and thick cylinders.
3 14CE36 BUILDING MATERIALS AND CONSTRUCTION
CO1: Identify types of structures, foundations, classes of bricks, types of roofs, doors, windows and stairs
CO2: Explain stone masonry, brick masonry and lintels based on method of construction
CO3: Describe and sketch components of stairs, arches, lintels, roof, doors, windows
CO4: Interpret the need for plastering, painting, Damp proofing, Fire-proofing,
Sound proofing in construction
3 14CEL37 SURVEY LABORATORY
CO1: Describe basic principles of surveying, types of compass, leveling instruments, theodolites and maps
CO3: Solve Linear measurement using chain surveying, three point and two point problems using Plane table surveying , horizontal angles and Vertical angles by the methods of Reiteration and Repetition
CO4: Analyse errors in Compass surveying, adjustment of error by graphical method, Area and Volume by Simpson’s rule and Trapezoidal rule, compensating and cumulative errors , elimination of errors in Theodolite surveying
CO5: Plot of Traverse and Contour Map
3 14CEL38 STRENGTH OF MATERIAL LABORATORY
CO1: Estimate tensile and compressive strength of a specimen for applying in a practical design based project work
CO2: Calculate hardness, impact strength, fatigue strength to analyze the application of a specific material for a given design requirements for different loading conditions of structures.
CO3: Judge the capacity of a material to withstand torsional stresses for a safe and sustainable design of machine elements.
4 14CE42 STRUCTURAL
ANALYSIS-I CO1: distinguish slope-
deflection, moment area method, moment distribution method and conjugate beam method
CO2: Analyze columns by Euler's and Rankine's methods
CO3: Analyze frames by energy methods, Rolling loads and influence lines, Analysis of arches
4 14CE43 GEOLOGY CO1: Select the suitable sites for the construction of dams, bridges and tunnels
CO2: Identify folds, faults, joints in earth and identify different types of minerals and rocks
CO3: Identify the presence of ground water by different geophysical methods
4 14CE44 SURVEYING-II CO1: Describe Tacheometric surveying, Electromagnetic Waves in EDM, Concept of Triangulation, Geodetic Surveying and GPS
CO2: Compute error sources and accuracy in Satellite system surveying
CO3: Calculate angle and baseline measurement using triangulation and adjustment of errors, Spheroid, Datum and Projections using Geodetic surveying
CO4: Sequence simple, compound and reverse transition curves, SD and SSD
4 14CE45 SOIL MECHANICS CO1: Discuss the fundamentals of soil properties.
CO2: Analyze the interaction between water and soil and its effects
CO3: Distinguish the compaction and consolidation properties of soils
CO4: Examine to determine stress distribution in soils
4 14CE46 APPLIED HYDRAULIC
ENGINEERING CO1: Explain the fundamentals
of open channel flow and hydraulic machines
CO2: Develop the most economical open channel sections
CO3: Analyse and compute open channel surface profiles, bed load, discharge and hydraulic jump.
CO4: Classify and analyze hydro turbine and centrifugal pump
4 14CEL47 FLUID MECHANICS LAB
CO1: Explain the concept of types of flows, type of channels, velocity distribution, energy and momentum correction factors, Chezy’s, Manning’s and Bazin formulae for uniform flow.
CO2: Demonstrate the formulation of velocity triangles at inlet and out let ,expressions for work done and efficiency, Angular momentum principle, applications to radial flow turbines.
CO3: Estimate the performance characteristics and efficiency of various hydraulic machines under various conditions of working and apply momentum principle in hydraulic structures
4 14CEL48 SOIL MECHANICS LAB CO1: interpret soils with reference to their characteristics
CO2: Describe the behavior and effect of water in soils and Examine modes of soil behavior
CO3: Interpret different methods of improving soil stability including reference to compaction plant
CO4: Illustrate a variety of laboratory tests on soils and calculate soil properties from test results
5 14CE51 CONCRETE
TECHNOLOGY CO1: Classify cement,
aggregates and admixtures based on their physical and chemical characteristics
CO2: Describe special concretes like LWC, FRC, SPC
CO3: Analyze the test on aggregates, fresh and hardened concrete
CO4: Design Concrete mix
CO5: Differentiate corrosion mechanism of concrete in various applications
5 14CE52 HIGHWAY ENGINEERING
CO1: Explain the evolution of road construction methods and role of governmental agencies concerned with road development
CO2: Describe about components of highway, properties of highway construction materials and construction practices of WBM, WMM, DBM, their maintenance and evaluation
CO3: Solve problems related to sight distances, CBR, Modulus of subgrade reaction
CO4: Design Vertical, Horizontal, transition curves and surface drainage systems
5 14CE53 FOUNDATION ENGINEERING
CO1: Explain basic principles of foundation theories and limitations of it
CO2: Design foundations and retaining walls
CO3: Explain borehole log data to determine soil parameters and develop a geotechnical model, ability to write a geotechnical report
5 14CE54 DESIGN OF RCC STRUCTURES
CO1: Apply the basic requirements of the IS456-2000 design specification, concepts of strain compatibility and
equilibrium concepts to determine the strength of members
CO2: Design simple and continuous RC beams for shear, flexure, and deflection. Understand the issues related to designing slabs
5 14CE55 HYDROLOGY CO1: Distinguish the various components of the hydrological cycle and quantify the water balance in a watershed
CO2: Interpret the physical principles of all hydrological processes -evapotranspiration, precipitation, infiltration, and runoff
CO3: Estimate the values of hydrological processes and conduct hydrological analysis-river routing, rainfall-runoff, and statistical analysis of floods
CO4: Analyze steady state flow in confined and unconfined aquifers
5 14CE56 WATER SUPPLY ENGINEERING
CO1: Estimate the future trend of population and water demand required
CO2: Select suitable type of water sources and to analyze the different characteristics of water
CO3: Discuss the treatment mechanism and to design the water supply treatment units
CO4: Calculate the reservoir capacity and to analyze water distribution System
5 14DM57T67 DISASTER MITIGATION
CO1: Explain fundamental concepts relevant to natural disasters, their significance and types.
CO2: Analyze the factors that cause the disaster and
disaster management cycle.
CO3: Apply the approaches of Disaster Risk Reduction (DRR) and inter-relation between disaster and development.
CO4: Discuss the regulations, application of science and technology in disaster management.
5 14CEL58 CONSTRUCTION MATERIALS TESTING LAB
CO1: Classify cement, aggregates and admixtures based on their physical and chemical characteristics
CO2: Describe special concretes like LWC, FRC, SPC
CO3: Analyze the test on aggregates, fresh and hardened concrete
CO4: Design Concrete mix
CO5: Differentiate corrosion mechanism of concrete in various applications
5 14CEL59 COMPUTER AIDED DRAWING
CO1: Plan, elevation and sections of various types of buildings and Layouts using AutoCAD
CO2: Show imagination and creative skills in planning and detailing various types of buildings
6 14CE61 DESIGN OF STEEL STRUCTURES
CO1: Analyze and design steel members and connections
CO2: Design steel structural connections
CO3: Evaluate the steel structures using the moments resulted due to the load applies
CO4: Create economical and stable steel structure using IS codal provisions
6 14CE62 RAILWAY AND AIRPORT ENGINEERING
CO1: Develop good knowledge about design criteria of railways and airports.
CO2: Explain the basic principles of railways
CO3: indicate, identify and quantify various factors
and parameters of Airports and its elements.
6 14CE63 WASTEWATER ENGINEERING
CO1: Discuss the basic concepts of sewage Generation, its Effects and various components required for collection and transportation
CO2: Classify wastewater parameters and to describe the safe disposal of treated waste
CO3: Identify the various treatments required and to design the required treatment units
6 14CE64 ESTIMATING,COSTING AND SPECIFICATION
CO1: Distinguish different types of estimates
CO2: Compute cost and quantity estimation of buildings and its components
CO3: Estimate civil engineering structures like Culverts, manhole and septic tanks
CO4: Analyze and compare detailed construction specification and contracts
6 14CE65 DESIGN OF HYDRAULIC STRUCTURES
CO1: Discuss fundamentals of various hydraulic structures and their functions
CO2: Analyze the structural stability and behavior of hydraulic structures -spillways, dams, intakes and weirs.
CO3: Design the hydraulic structures using relevant codal procedure and methodologies.
CO4: Analyze and select the type of dam to be constructed.
6 14CEL68 EXTENSIVE SURVEY PRACTICE
CO1: Explain the applications of Surveying
CO2: Apply the use of total Station and other Measuring Equipments
CO3: Apply time management, communication and presentation Skills
6 14CEL69 DESIGN AND
DRAWING OF STRUCTURES
CO1: Draw the structural drawings
CO2: Design economically Structural Components
CO3: Create economical and stable steel structure using IS codal provisions
6 14CE661 GROUND IMPROVEMENT TECHNIQUES
CO1: Identify basic deficiencies of various soil deposits.
CO2: Classify different techniques involved in Ground improvement.
CO3: Compare Techniques involved in Ground improvement and analyze the soil strength.
6 14CE662 SMART MATERIALS AND STRUCTURES
CO1: Design and development of problem solving skills.
CO2: Explain the principles of Composite materials
CO3: Design and develop analytical skills.
CO4: Summerize the smart materials and structures
CO5 :
Discuss the concepts of control systems.
6 14CE663 REMOTE SENSING AND ITS APPLICATIONS
CO1: Analyze the principles of remote sensing and aerial photogrammetry
CO2: Describe the process of satellite image data acquisition and their characteristics
CO3: Explain the digital image processing techniques
CO4: Discuss RS applications and fundamental concepts of GIS
7 14CE71 STRUCTURAL ANALYSIS II
CO1: Describe Kani's method of structural analysis
CO2: Analyse structures by flexibility and stiffness matrix methods
CO3: Explain basic principles of dynamics
7 14CE72 IRRIGATION ENGINEERING
CO1: Discuss concepts of irrigation, various irrigation methods, water requirements of crops and reservoir planning.
CO2: Analyze various systems and methods of irrigation
and their respective usages
CO3: Calculate irrigation efficiencies, consumptive use of water, reservoir capacity and safe yield from a reservoir.
CO4: Design irrigation canals and canal regulation works.
7 14CE73 PRE-STRESSED CONCRETE
CO1: Discuss behavior of materials, strength concept and load balancing concept.
CO2: Analyze Losses of pre-stress occurred during the service of the pre-stressed structures
CO3: Distinguish Pre-tensioning and Post-tensioning and to analyse the pre-stressed concrete structures
CO4: Evaluate the stresses occurred in pre-stressed concrete structures using IS codal provisions
7 14CE74 CONSTRUCTION PLANNING AND MANAGEMENT
CO1: Describe steps involved in planning and scheduling construction projects
CO2: Compute project time through CPM and PERT, control the cost of the project by creating cash flows and budgeting
CO3: Analyze management of manpower, machinery and materials
CO4: Explain principles of economics and safety in construction projects
CO5: Use project information as decision making tool
7 14CEL77 COMPUTER AIDED IRRIGATION DRAWING LAB
CO1: Plot drawings to scale.
CO2: Produce relevant plans to different scales.
CO3: Design and draw different Irrigation structures
7 14CEL78 ENVIRONMENTAL ENGINEERING LAB
CO1: Experiment various test on Drinking water analysis to avoid water contamination and set up water treatment plant
CO2: Experiment the waste
water analysis and set up the waste water treatment plant
CO3: Analyze the Atmospheric pollutant
7 14CE751 AIR POLLUTION AND CONTROL
CO1: Discuss the basic concepts of air pollution and causes
CO2: Analyse the dispersion mechanisms of pollutants and its control
CO3: Design air pollution control equipments
CO4: Identify and analyze biological air pollution and noise pollution
7 14CE752 STRUCTURAL DYNAMICS
CO1: Design and development of problem solving skills.
CO2: Discuss the principles of Structural Dynamics
CO3: Design and develop analytical skills.
CO4: Summarize the Solution techniques for dynamics of Multi-degree freedom systems
CO5 :
Discuss the concepts of damping in structures.
7 14CE753 STRUCTURAL HEALTH MONITORING
CO1: Explain the fundamentals of maintenance and repair strategies
CO2: Investigate serviceability and durability aspects of concrete
CO3: Describe the materials and techniques used for repair of structures.
CO4: Use an appropriate health monitoring technique and demolition technique
7 14CE7604 SOLID WASTE MANAGEMENT
CO1: Classify different Sources and Types of Solid Wastes.
CO2: Analyze the onsite and offsite storage, Processing and collection and transfer of Solid waste.
CO3: Analyze about the Hazardous Waste, its Management and Treatment
CO4: Compare the safe
disposal methods of segregated solid waste.
8 14CE81 PAVEMENT ENGINEERING
CO1: Identify and categorize the factors affecting design and performance of pavements
CO2: Design flexible and rigid pavements in different design methods
CO3: Analyze the pavement failures and maintenance
CO4: Solve problems pertaining to road safety and management
8 14CE82 ADVANCED CONCRETE TECHNOLOGY
CO1: Discuss the role of Concrete in High rise building and special structures
CO2: Analyze the characteristics of admixtures, high density concrete and geopolymer concrete
CO3: Evaluate testing techniques and non-destructive testing methods
CO4: Discuss manufacturing, applications of RMC and durability aspects of conventional concrete
CO5: Identify, formulate and solve engineering problems in Concrete Mix Design.
