Course Outcomes

COURSE OUTCOMES & PROGRAM OUTCOMES

DEPARTMENT OF CIVIL  ENGINEERING

Course Name

Course Code

Course Outcomes

MATHEMA

TICS -I

At the end of the course the students are able to:

C111.1

Determine the rank of a matrix and solution of equations using matrix theory 

C111.2

Demonstrate the matrix theory of Eigen value Eigen vector problems 

C111.3

Utilize the tool of sequence and series for learning advanced Engineering Mathematics 

C111.4

Analyze the nature of sequence and series 

C111.5

Solve the applications on the mean value theorems and Analyse the properties of Beta and Gama functions, determine the Improper Integrals 

C111.6

Apply partial differentiation to function of several variables in solving various engineering problems 

ENGINEER

ING

PHYSICS

At the end of the course the students are able to:

C112.1

Interpret the interaction of optic energy with matter on the basis of interference and explain the diffraction of light by the diffraction grating 

C112.2

Apply concepts of polarization of light to understand the wave nature of light and Apply the Principles of Lasers to various laser systems 

C112.3

State the Principles of optical fiber for the propagation of light  

C112.4

Enumerate the applications of optical fibers to the Engineering systems 

C112.5

 Illustrate the structure of various crystal systems 

C112.6

 Describe the various crystal imperfections and probing methods like X-RD 

PROGRAM

MING FOR

PROBLEM

SOLVING

At the end of the course the students are able to:

  C113.1

Develop the algorithms for simple problems  

C113.2

Translate given algorithms to working and correct program 

C113.3

Find Correct syntax errors as reported by the compilers 

C113.4

Identify and correct logical errors during  execution  

C113.5

Examine pointers  of different types  

C113.6

Make use of  read and write to and from simple text and binary file 

ENGINEER

ING

GRAPHICS

At the end of the course the students are able to:

C114.1

Explain the importance of Engineering drawing and Drawing instruments usage.

Appreciate the usage of engineering curves (i.e. Ellipse, parabola, hyperbola&

Rectangular Hyperbola) & Special Curves (i.e. Cycloid, Hypocycloid, Epicycloid) 

C114.2

Summarize the concept of projection and attain visualization projection of points, Lines and Planes 

C114.3

Apply the principles of Projection of solids also draw the projections of solids. 

C114.4

Solve the Problems on Sections of solid 

C114.5

Applying the knowledge and Draw the development of surfaces of different engineering components. Discuss the usage of intersections of solids 

C114.6

Summarize the concept of Orthographic & Isometric projections 

ENGINEER

ING

PHYSICS LAB

At the end of the course the students are able to:

C115.1

Differentiate  the basic principles of optics like interference and diffraction   

C115.2

Define the characteristics of Basic electronic circuits. 

C115.3

Explain the properties of semiconducting materials.  

C115.4

Interpret the theoretical, Practical Values of magnetic field values. 

C115.5

Explain the capabilities of materials. 

C115.6

Demonstrate  the basic Characteristics of physical experiments  

At the end of the course the students are able to:

PROGRAM

MING FOR

PROBLEM

SOLVING LAB

C116.1

Formulate the algorithms for simple problems 

C116.2

Translate given algorithms to working and correct program 

C116.3

Recognize Correct syntax errors as reported by the compilers 

C116.4

Identify and correct logical errors during execution  

C116.5

Use pointers of different types  

C116.6

Implementation, read and write to and from simple text and binary file 

MATHEMA

TICS -II

At the end of the course the students are able to:

C121.1

Apply first order and first degree differential equations to solve various types of differential equations which will be used in solving various engineering problems. 

C121.2

Solving a higher order differential equations with constant coefficients and variable coefficients. 

C121.3

Apply the concept to find areas, volumes, centre of mass and Gravity for cubes, sphere and rectangular parallelepiped 

C121.4

Identify multiple integral concepts that are useful  in Engineering sector. 

C121.5

Explain gradients, potential functions, and directional derivatives of functions of

several variables. 

C121.6

Evaluate the Line ,Surface and Volume integrals by converting them one to another and  Compute line, surface and volume integral using Gauss divergence, Green’s and stoke’s theorems. 

CHEMISTR

Y

At the end of the course the students are able to:

C122.1

Summarize the knowledge of atomic, molecular and electronic changes, band theory related to conductivity. 

C122.2

Apply the required principles and concepts in electro chemistry. 

C122.3

Classify  the corrosion and in understanding the problem Of water and its treatment. 

C122.4

Use the spectroscope and application to medical and other fields. 

C122.5

 Determine the Structure, synthesis and pharmaceutical applications of paracetamol and aspirin. 

C122.6

Summarize principles of spectroscopy, selection rules and applications of electronic spectroscopy. 

ENGLISH

At the end of the course the students are able to:

C123.1

Discuss the development in sharing information about family and friends 

C123.2

Implement general comprehending skills and present lucid skills in free writing  

C123.3

Understand the basic grammar techniques  and utilize it  in  enhancing language development  

C123.4

Demonstrate an environment for reading and develop good language skills   

C123.5

Implement flair for any kind of writing with rich vocabulary and proper syntax   

C123.6

Implement proficiency in writing technical articles  and presenting papers on any topic of any generation  

ENGINEER

ING

MECHANI

CS

At the end of the course the students are able to:

C124.1

Determine resultant of forces acting on a body and analyze equilibrium of a body subjected to a system of forces. 

C124.2

Solve problem of bodies subjected to friction. 

C124.3

Find the location of centroid and calculate moment of inertia of a given section. 

C124.4

Find the Mass Moment of Inertia of the given section 

C124.5

Understand the kinetics and kinematics of a body undergoing rectilinear, curvilinear, rotatory motion and rigid body motion. 

C124.6

Solve problems using work energy equations for translation, fixed axis rotation and plane motion and solve problems of vibration. 

ENGINEER

ING

CHEMISTR

Y LAB

At the end of the course the students are able to:

C125.1

Differentiate the total hardness of water sample. 

C125.2

Identify the Chloride content present in water sample. 

C125.3

Estimation of rate constant of a reaction from concentration time relationship. 

C125.4

Identify the physical properties like adsorption 

C125.5

Identify the physical properties like viscosity. 

C125.6

Calculation of R_f values of some organic molecules by TLC technique. 

ELCS LAB

At the end of the course the students are able to:

C126.1

Implement proper body language. 

C126.2

Recognize visual experience. 

C126.3

Examine neutralization of accent for intelligibility. 

C126.4

Use speaking skills for clarity. 

C126.5

Interpret speaking skills for employment. 

C126.6

Execute personality development skills.  

ENGINEER

ING

WORKSHO

P

At the end of the course the students are able to:

C127.1

Experiment and practice on machine tools and their operations 

C127.2

Experiment on manufacturing of components using workshop trades including pluming, fitting, carpentry, foundry, house wiring and welding. 

C127.3

Identify and apply suitable tools for different trades of Engineering processes including drilling, material removing, measuring, chiseling 

C127.4

Characterize basic electrical engineering knowledge for house wiring practice. 

C127.5

Experiment and practical exposure to various welding and joining processes 

C127.6

Develop the construction, function, use and application of different working tools, 

Surveying and

Geomatics 

At the end of the course the students are able to:

C211.1

Execute  the knowledge to calculate angles, distances

C211.2

Discuss with the types of leveling equipment and their applications.

C211.3

Identify data collection methods and prepare field notes and calculate angles

C211.4

Explain the knowledge to the modern equipment and compute the distances.

C211.5

Interpret survey data and compute areas and volumes, levels by different types of equipment

C211.6

Discuss the concept of Photogrammetric surveying

Engineering

At the end of the course the students are able to:

Geology  

C212.1

Define the  advanced knowledge of how geological principal can be applied to engineering practice 

C212.2

Explain the  data collected in the field and the laboratory and recognize their geological importance 

C212.3

Classify  the different types of minerals and rocks 

C212.4

Identify  the structure and composition of earth 

C212.5

Discuss the  how to use the  precious earth natural recourses in the management of construction industry and mineral based industry   

C212.6

Identify the  how human activates in construction of major projects such as dams, tunnels ,reservoir and its impact on earth environment 

Strength of Materials – I 

At the end of the course the students are able to:

C213.1

Explain the concepts of simple stresses and strains and estimation of stresses of bars of varying sections, composite bars and temperature stresses

C213.2

Identify and calculate the variation of bending moment and shear force at any section and identify the position and the magnitude of maximum and minimum values for all practical loading cases

C213.3

Solve the variation of flexural stresses across the section and identify the position and magnitude of maximum and minimum values in various sections.

C213.4

Explain the variation of shear stresses across the section and identify the position and magnitude of maximum and minimum values in various sections.

C213.5

Classify the deflections and rotations by various methods.

C213.6

Identify the principal stresses and strains by recognize the orientation of principal planes and develops an understanding of various theories of failures.

Probability and

Statistics 

At the end of the course the students are able to:

C214.1

Identify the basic terms of probability and illustrate problems involving random variables

C214.2

 Explain the Probability distributions such as Binomial and Poisson distribution by using their probability functions and parameters.

C214.3

Solve the expected values, variances of the continuous random variables for making decisions under randomized probabilistic conditions. 

C214.4

Recognize the normal probability distribution by the students  and apply it approximately 

C214.5

Solve the unknown dependent variable using curve fitting methods

C214.6

Use the tests of hypotheses for both large and small samples in making decisions over statistical claims

Fluid Mechanics  

At the end of the course the students are able to:

C215.1

Explain Newton’s law of viscosity classify fluids based on Newton’s  law of viscosity and solve problems on viscosity

C215.2

Explain the broad principles of kinematics and dynamics 

C215.3

Discuss the Euler’s theorem and deduce Bernoulli’s equation for a ideal fluid and comment on validation assumption made      

C215.4

Identify the flow measurement in pipes and explain flow over notches and weirs

C215.5

Discuss flow characteristics and classify  the flow through the pipes and to estimate the losses in pipes 

C215.6

Describe basics of boundary layer theory and sketch laminar and turbulent flow 

Surveying Lab 

At the end of the course the students are able to:

C216.1

Use conventional surveying tools such as chain/tape, compass, plane table, level in the field of civil engineering applications such as structural plotting and highway profiling

C216.2

Apply the procedures involved in field work and to work as a surveying team

C216.3

Use the theodolite along with chain/tape, compass on the field

C216.4

Apply geometric and trigonometric principles of basic surveying calculations

C216.5

Apply field procedures in basic types of surveys, as part of a surveying team

C216.6

Use the total station to calculate areas 

Strength of

Materials Lab 

At the end of the course the students are able to:

C217.1

Operate and Analyze engineering values (e.g. stress or strain) from laboratory measurements.

C217.2

Operate  the Toughness of the material using Charpy And Izod Test.

C217.3

Operate the Brinnell and Rockwell hardness number of the given specimen.

C217.4

Operate the elastic constants through compression test on springs and deflection test on beams

C217.5

Classify the structures and hardness of Unhardened and Hardened specimen through microscopic  examinations 

C217.6

Describe the Tension, shear and torsion test on solid materials

Engineering Geology Lab 

At the end of the course the students are able to:

C218.1

Discuss the method and ways of investigations required for Civil Engg projects

C218.2

State  the various rocks, minerals depending on geological classifications

C218.3

Discuss the able to learn to couple geologic expertise with the engineering properties of rock

C218.4

Explain the Un consolidated materials in the characterization of geologic sites for civil work projects and the quantification of processes such as rock slides and settlement.

C218.5

Identify the geological map features  

C218.6

Classify the various techniques to analyze and to made possible solution for various geological problems 

Basic

Electrical and

Electronics

Engineering 

At the end of the course the students are able to:

C221.1

Explain  the basic concept of dc circuits 

C221.2

Classify  the various concepts  AC circuits

C221.3

Discuss  the various components in electrical installation 

C221.4

Explain  the construction details and working principle of electrical machines 

C221.5

Identify  semiconductor devices like PN junction and Zener diode and transistors and their applications 

C221.6

Define  semiconductor devices like BJT and FET

Basic

Mechanical

Engineering for Civil

Engineers 

At the end of the course the students are able to:

C222.1

Discuss  the mechanical equipment for the usage at civil engineering systems

C222.2

Describe the general principles and requirement for refrigeration, manufacturing

C222.3

List out the techniques employed to construct civil engineering systems.

C222.4

Identify the kinematics and dynamics of mechanical elements such as linkages, gears

C222.5

Explain the basic concepts of design, material selection, component behavior subjected to loads, and criteria of failure.

C222.6

Identify the basic parts, operations of machine tools like Drilling, Boring, Shaping, Slotting, Planning and estimating their machining times.

Building

Materials,

Construction and

Planning 

At the end of the course the students are able to:

C223.1

Define the basic terminology that is used in the industry

C223.2

Classify different building materials, properties and their uses

C223.3

Understand the prevention of damage measures and good workmanship

C223.4

Explain different building services

C223.5

Discuss building bye-laws and building planning

C223.6

Report on Building plans

Strength of

Materials –

II 

At the end of the course the students are able to:

C224.1

Describe the concepts and principles, understand the theory of elasticity, and perform calculations, relative to the strength of structures and mechanical components in particular to torsion and direct compression

C224.2

Solve the strains and deformation that will result due to the elastic stresses developed within the materials for simple types of loading

C224.3

Describe strength and stability of structural members subjected to direct stresses.

C224.4

Describe strength and stability of structural members subjected to bending stresses.

C224.5

Interpret the stresses in thick and thin cylindrical and spherical shells under different loads and directions and member forces in a truss

C224.6

Discuss the shear center and unsymmetrical bending.

Hydraulics and

Hydraulic

Machinery 

At the end of the course the students are able to:

C225.1

Define their knowledge of fluid mechanics in addressing problems in open channels and hydraulic machinery.

C225.2

Identify the problems in uniform, gradually and rapidly varied flows in open channel in steady state conditions.

C225.3

Identify the dimensional analysis and to differentiate the models, prototype and similitude conditions  for practical problems

C225.4

Define the forces exerted by a jet of fluid on stationary and moving vanes of different shapes.

C225.5

State the different hydraulic machinery devices and its principles that will be utilized in hydropower development and for other practical usages.

C225.6

Explain the  different Centrifugal Pumps and Basic knowledge of hydro power plants

Structural Analysis – I 

At the end of the course the students are able to:

C226.1

Define statically indeterminate structures like propped cantilever and fixed beams using

SFD and BMD

C226.2

Recognize the statically determinate trusses, beams and frames using method of joints and method of sections

C226.3

Classify the deflections of beams and pin jointed frame trusses using classical methods like strain energy and unit load method

C226.4

Identify  three hinged arch structures and to solve normal thrust and radial shear 

C226.5

Use  slope deflection and moment distribution method to find moments in the continuous beams 

C226.6

Explain the effect of moving loads on structures using influence lines. 

Computer

aided Civil

Engineering Drawing 

At the end of the course the students are able to:

C227.1

Discuss Auto CAD commands and draw lines, circles and different types of polygon

C227.2

Describe the plan of Civil Engineering Buildings as per aspect and orientation

C227.3

Classify the Presenting drawings as per user requirements and preparation of Technical report.

C227.4

Explain the Study and draw the labeled sketch of arches, lintels, floors, doors and window on sheets with exposure to Auto CAD.

C227.5

Sketch the plan, elevation and cross-sectional views of residential building with Auto CAD

C227.6

Sketch the how to use the Auto CAD commands for drawing 2D and 3D building Drawings required for civil Engineering applications

Hydraulics and

Hydraulic

Machinery Lab 

At the end of the course the students are able to:

C228.1

Explain the basic measurement techniques of fluid mechanics and its appropriate application.

C228.2

Describe the results obtained in the laboratory for various experiments.

C228.3

Identify frictional forces applicable in a flow channel to determine major and minor losses.

C228.4

Classify the practical working of Hydraulic machines- different types of Turbines, Pumps, and other miscellaneous hydraulics machines.

C228.5

Identify the results of analytical models introduced in lecture to the actual behavior of real fluid flows and draw correct and sustainable conclusions.

C228.6

Report  technical laboratory report on  different hydraulic experiments

Basic

Electrical and

Electronics

Engineering

Lab 

At the end of the course the students are able to:

C229.1

Solve the electrical circuits using network Law

C229.2

Explain  the basic concept of three phase system

C229.3

Define  the working principal of electrical machines

C229.4

State  the basic components of  electronics instruments

C229.5

Identify and characterize diode

C229.6

Identify and characterize different transistors

Structural Analysis-II 

At the end of the course the students are able to:

C311.1

Solve the two-hinged arches and moment distribution method

C311.2

Solve the impact of cables and suspension bridges on structures.

C311.3

Describe the approximate method of structures by using portal method and cantilever method

C311.4

Describe  The Approximate Method Of Structures By Using  Factor Method

C311.5

Describe the basics of stiffness and flexibility methods for structural loads analysis

C311.6

Define the  influence lines for analysis purpose and analyze the continuous beams and portal  frames

Geotechnical Engineering

At the end of the course the students are able to:

C312.1

Identify and classify soils as per Bureau of Indian Standards  (BIS)

C312.2

Describe effective stress  and vertical stress below ground level  

C312.3

Explain the permeability, calculate yield of an aquifer and seepage through soil.

C312.4

Define the soil stresses and prepare flow net diagram and also explain the process of compaction in soils.

C312.5

Explain consolidation and compressibility parameters and estimate the total settlement & time rate settlement of soil.

C312.6

Define the shear properties of cohesive and cohesion less soils.

Structural

Engineering

–I (RCC)

At the end of the course the students are able to:

C313.1

Identify the properties of materials used in reinforced concrete design, different methods of structural design such as working stress method, 

C313.2

Explain  the flexure, shear torsion and bond for singly and doubly reinforced beam

C313.3

Describe how to design the one way and two way slabs as per IS456:2000

C313.4

Solve and Design different types of staircases as per IS456:2000.

C313.5

Classify the columns and Design the axially loaded, uni-axial and biaxial bending columns as per IS456:2000.

C313.6

Classify the footings and Design the isolated square, rectangular and circular footings. 

Transportati on

Engineering  

At the end of the course the students are able to:

C314.1

Describe the problems of highway planning and its classification With good highway planning.

C314.2

Identify the geometric design of highway Knowledge and Modern tool usage for geometric design of highway.

C314.3

Explain about classified traffic volume count and spot speed study on highway.

C314.4

State on laboratory tests on aggregates and bituminous materials Utilizing laboratory tests.

C314.5

Describe about pavement failures, its maintenance, and importance of drainage, hill roads and their challenges.

C314.6

Identify flexible and rigid pavements.

Professional

Elective-I

Concrete

Technology  

At the end of the course the students are able to:

C315.1

Describe the properties of concrete  ingredients  

C315.2

Identify Quality Control tests on concrete making materials

C315.3

Discuss fresh concrete and its behavior on using admixtures

C315.4

Explain the durability requirements of concrete

C315.5

Use advanced laboratory techniques to characterize cement-based materials.

C315.6

Solve mix design and engineering properties of special concretes.

Engineering

At the end of the course the students are able to:

Economics and

Accountancy 

C316.1

Describe  the relative importance of Engineering Economics and structure of Business Firms ranging from types, 

C316.2

Identify  the tools for analyzing Demand and costs as well as in forecasting product demand and to develop critical and integrative thinking 

C316.3

Describe the Concepts of National Income, Inflation, Money Supply in Inflation, New Economic policy

C316.4

Explain and evaluate present and future worth of the alternate projects and to appraise projects by using traditional and DCF Methods.

C316.5

Describe and analyze the cost & benefit of each financial decision in short run & long run with the Concept of Leverages 

C316.6

Explain   the students to understand the accounting language and to have a basic understanding of preparation of financial statement.

Highway

Engineering and

Concrete

Technology 

Lab 

At the end of the course the students are able to:

C317.1

Report different tests conducted on cement, aggregate and concrete at site.

C317.2

Report on the non-destructive test on concrete.

C317.3

Describe the concrete mix as per the site conditions and specification of materials available there.

C317.4

Solve  the different properties of aggregate

C317.5

Solve the concept of workability and testing of concrete

C317.6

Describe the properties of hardened concrete

Geotechnical

Engineering

Lab 

At the end of the course the students are able to:

C318.1

Classify the soils and predict its behavior in terms of Physical properties i.e. sieve analysis and hydrometer analysis.

C318.2

Explain the procedure to classify the coarse grained and fine grained soil.

C318.3

Classify the soils and predict its behavior in terms of mechanical properties i.e. strength, compressibility and permeability.

C318.4

Describe the concept of OMC to control compaction in the field.

C318.5

List the compressibility of soils. Understand compressibility characteristics of soil.

C318.6

List shear parameters of soil using various strength testing machines

Advanced

Communicat ion Skills

Lab 

At the end of the course the students are able to:

C319.1

Explain to use relevant vocabulary, using apt kinesics or body language in communication

C319.2

Define the meaning of the text easily through comprehension techniques like, skimming, scanning and effective reading through proper vocabulary

C319.3

Explain the writing skills through letters, reports and resume writing from the text and use for all professional settings

C319.4

Identify ideas, information and organize them relevantly in making presentations

C319.5

Identify to organize and deliver discussions, presentations and strategies to face  effectively

C319.6

 Repeat the  public speaking, group discussions and  Interviews

Hydrology

& Water

Resources

Engineering 

At the end of the course the students are able to:

C321.1

Explain the different concepts and terms used in engineering hydrology

C321.2

Identify the  abstractions from precipitation

C321.3

Identify and Explanation of the  unit Hydrograph

C321.4

Discuss the irrigation methods 

C321.5

Solve  the Permeability of soil 

C321.6

Solve the  runoff and discharge from catchment

Environmen

tal

Engineering 

At the end of the course the students are able to:

C322.1

Classification of water and wastewater and their impacts

C322.2

Describe the quantity of drinking water and domestic wastewater conveyance components

C322.3

Classify the different plans about components of water supply systems for a given population. 

C322.4

Report on the total program for analysis of water distribution system. 

C322.5

Identify the Characteristics sewage and describe the sewage methods 

C322.6

Describe the purpose and steps in secondary treatment of waste water by biological methods.

Foundation Engineering  

At the end of the course the students are able to:

C323.1

Discuss the principles and methods of Geotechnical Exploration

C323.2

State and explain the suitability of soils and check the stability of slopes.

C323.3

Solve the lateral earth pressures on different soil conditions.

C323.4

Explain the stability of various retaining walls.

C323.5

Explain how to design the shallow foundation.

C323.6

Explain how to design the deep foundation.

Structural

Engineering –II (Steel)

At the end of the course the students are able to:

C324.1

Explain the fundamental of steel structures and calculate the plastic moment of different cross-sections.

C324.2

Identify and analysis of steel tension and compression members.

C324.3

Identify  the plastic sections by depends upon the support condition 

C324.4

Solve the beam Design  including built-up sections and beam and connections

C324.5

Identify and Design the various components of welded plate girder including stiffeners

C324.6

Classify and design the structural steel components of industrial building.

Professional

Elective –II

Prestressed Concrete

At the end of the course the students are able to:

C325.1

Describe the knowledge of evolution of process of pre-stressing.

C325.2

Discuss the different losses of pre-stressing.

C325.3

Recognize pre-stressed concrete beams under flexure resistance of concrete as per codal provisions of IS: 1343-1980.

C325.4

Recognize pre-stressed concrete beams under shear resistance of concrete as per codal provisions of IS: 1343-1980.

C325.5

Describe the transfer of pre-stress in pretension members

C325.6

Identify the deflection of beams and control of deflections.

Open

Elective –I 

FOM

At the end of the course the students are able to:

C326.1

Discuss the applicability of the concept of management to understand the behavior of people in the organization.

C326.2

Explain   the organization structure &explains the human resource management for the performance of people in the organization.  

C326.3

State  the principles and types of plant lay out for the production process 

C326.4

Solve the quality management using various inventory techniques, for proper utilization of resources in organization.

C326.5

Explain the   various marketing strategies to face competitive market for organization.  

C326.6

Define the various project management and program evaluation for better production methods in organization. 

Environmen

tal

Engineering

Lab 

At the end of the course the students are able to:

C327.1

Examine the pH and turbidity of water sample; classify the organic and inorganic by using conductivity and total dissolved solids

C327.2

Classify the alkalinity, acidity and chlorides in water sample

C327.3

the iron, dissolved oxygen in water sample

C327.4

Define the optimum does of coagulant in water sample 

C327.5

Define  the nitrates, chlorides present in water sample

C327.6

Examine the C.O.D, B.O.D present in water, Define coli form bacteria in water 

Computer

Aided

Design Lab 

At the end of the course the students are able to:

C328.1

Discuss the physical model of structural element  

C328.2

Execute the analyses of roof trusses by using STAAD.PRO

C328.3

Execute the RCC slab and RCC beams. 

C328.4

Interpret from the post processing results

C328.5

Sketch the space  frames with STAAD.PRO

C328.6

Discuss the structural elements and a system as per IS Codes

Estimation,

Costing and

Project

Management

At the end of the course the students are able to:

C411.1

List out the General items of work in Buildings and their quantities

C411.2

Identify the different types of  quantities of buildings  

C411.3

List out the Detailed estimation of bar bending schedule 

C411.4

List out the Detailed estimation of Earthwork for roads and canals.

C411.5

 Discuss with the rate analysis for different items of civil works

C411.6

Classify the different types of contract system and valuation methods 

Professional

Elective –III Remote

Sensing

&GIS

At the end of the course the students are able to:

C412.1

Describe the principles and components of remote sensing and its data.

C412.2

Recognize the principles of aerial and satellite remote sensing, Able to comprehend the energy interactions with earth surface features, spectral properties of water bodies.

C412.3

Explain the basic concept of GIS and its applications; know the different types of data representation in GIS.

C412.4

Identify the Spatial data base management system and explain the data models & data structures.

C412.5

Illustrate spatial and non spatial data features in GIS and analyze the spatial data.

C412.6

Compute knowledge of remote sensing and GIS in different civil engineering applications.

Professional

Elective –IV

Irrigation and

Hydraulic

Structures

At the end of the course the students are able to:

C413.1

Know types of water retaining structures for multiple purposes and its key parameters

C413.2

Considered for planning and designing of earth dams explain the causes of failure of different types of dams and their design criteria

C413.3

Considered for planning and designing of gravity dams Explain the causes of failure of different types of dams and their design criteria

C413.4

Understand details in any diversion head works and their design

C413.5

Understand details in any Irrigation System and its requirements Know, Analyze and Design of a irrigation system components

C413.6

Design minor irrigation structures such as regulators, cross drainage works and canal falls

ENGINEER

ING

At the end of the course the students are able to:

C414.1

Discuss on various phase diagrams and applications

MATERIAL

S (Open

Elective – II)

C414.2

To select and design components based on their properties and requirements

C414.3

Awareness about the electrical and electronic materials

C414.4

Summarize the properties of magnetic materials

C414.5

Describe the properties of dielectrics and superconducting materials

C414.6

Knowledge about bio materials like, titanium and stainless steel based.

Professional

Practice law

& Ethics

At the end of the course the students are able to:

C415.1

Illustrate the core values that enrich the ethical behavior of an engineer & moral issues and theories of the profession.

C415.2

Discuss the importance of law of contracts & Sale of goods act 1930

C415.3

Illustrate ADR methods in real time application as responsible experimenters with various code of law issues.

C415.4

Relate the suitable safety measures towards risk benefit analysis for Employee rights and various Labour rights and related laws.

C415.5

Explain the concepts of law relating to IPR, Copy right Act,  Patent Act 

C415.6

Explain the global ethical &law issues related to various work place situations.

Professional

Elective –V 

Air pollution

At the end of the course the students are able to:

C421.1

Describe the nature and characteristics of the air pollutants.

C421.2

Discus the effects of air pollutants and global effects

C421.3

Explain the concepts of thermodynamics and kinetics of air pollution

C421.4

Discus the concepts of air quality management and ability to identify the various types of plume dispersion. \

C421.5

Discuss the operation of settling chambers and centrifugal separators

C421.6

Explain how to select appropriate equipments and models to control the pollutants

Professional

Elective –VI Urban

Transportati on Planning

At the end of the course the students are able to:

C422.1

Describe the various processes considered in Urban Transportation Planning

C422.2

Traffic survey fore casting.

C422.3

Identify the trip generation and analyze the various aspects of the trip generation models

C422.4

Classify the various selection of trip distribution models and understand the application 

C422.5

Define the concept and methods of trip distribution.

C422.6

Explain modal split and factors affecting modal split. And Describe the trip characteristics in urban areas.

Open

Elective –III

Organizatio nal Behavior 

At the end of the course the students are able to:

C423.1

Demonstrate the applicability of the concept of organizational behavior to understand the behavior of people in the organization.

C423.2

 Demonstrate the applicability of analyzing the complexities associated with management of individual behavior in the organization.

C423.3

Discuss the complexities associated with management of the group behavior in the organization.

C423.4

Discuss how the organizational behavior can integrate in understanding the motivation behind behavior of people in the organization.

C423.5

Define the applicability of analyzing the complexities of team work in understanding the behavior of people in the organization.

C423.6

Discuss the applicability of leadership styles in organization based on the behavior of people in the organization.

Program Outcomes of Department of CIVIL

P01

To apply the knowledge of Mathematics, Science and Engineering concepts in  solving Complex Engineering problems.

P02

Identify, formulate and solve complex problems to achieve demonstrated conclusions using mathematical principles and   engineering sciences.

PO3

To  design solution for complex engineering problems with appropriate consideration for society

PO4

To use research –based knowledge and research methods including design of experiments to provide valid conclusions

PO5

To select and apply appropriate techniques for the design & analysis of systems using modern CAD tools

PO6

Apply the contextual knowledge to assess societal, health, safety and cultural issues and endure the consequent responsibilities relevant to the professional engineering practice

PO7

To understand that the solutions have to be provided taking the environmental issues and sustainability into consideration.

PO8

Develop consciousness of professional, ethical and social responsibilities as experts in the field of Electronics and Communication Engineering

PO9

To function effectively either as a member or a leader in a multi disciplinary activities

PO10

To communicate effectively to both the peers and the others

PO11

To apply engineering & management principles in their own / team projects in

multidisciplinary environment

PO12

To Realize the need for lifelong learning and engage them to adopt technological change