CO1

Evaluate angles, distances, levels, areas and volume using different methods

CO2

Identify data collection methods and prepare field notes

CO3

Understand the working principles of survey instruments

CO4

Estimate measurement errors and apply corrections

CO5

Interpret survey for the construction of road, canals and contours by using different types of leveling techniques

CO6

Explain the concept of Photogrammetry surveying

CO1

Explain the physical and mechanical weathering

CO2

Understand weathering process and mass movement

CO3

Distinguish geological formations

CO4

Identify geological structures and processes for rock mass quality

CO5

Identify subsurface information and groundwater potential sites through geophysical investigations

CO6

Apply geological principles for mitigation of natural hazards and select sites for dams and tunnels

CO1

Analyze the stress and strains in the members subjected to different types of loads

CO2

Evaluate the shear force and bending moment of beams subjected to loads.

CO3

Determine the shear stresses in structural members and Evaluate the Shear stress distribution across various beam sections

CO4

Determine the flexural stresses in structural members

CO5

Evaluate the slope and deflection of beams subjected to loads.

CO6

Determine the principal stresses and strains in structural members.

CO1

Analyze random variables involved in the probability models and apply them for various branches of engineering

CO2

Understand the basic ideas of probability and random variables and various discrete probability distributions and their properties.

CO3

Understand the basic ideas of probability

CO4

Understand the Random variables and various Continuous probability distributions and their properties.

CO5

Understand the basic ideas of statistics including measures of central tendency, correlation and regression.

CO6

Calculate mean and proportion to make important decisions from few samples which are taken out of unimaginably huge populations which is useful for non circuit branches of engineering

CO1

Apply conservation laws to derive governing equations of fluid flow.

CO2

Compute hydrostatic and hydrodynamic force.

CO3

Analyze and design simple pipe systems

CO4

Apply principles of dimensional analysis to design experiments.

CO5

Compute drag and lift coefficients

CO6

Apply boundary layer theory Concepts for Laminar and Turbulent flows.

CO1

Surveying of an area by chain survey (closed traverse) & plotting. Chaining across obstacles

CO2

Determine of distance between two inaccessible points with compass, Survey of a given area by prismatic compass (closed traverse) and plotting after adjustment.

CO3

Radiation method, intersection methods by plane table survey. Two point and three point problems in plane table survey.

CO4

Leveling – Longitudinal and cross-section and plotting, Trigonometric leveling using Theodolite, Height and distances using principles of tachometric surveying

CO1

Conduct tension test on Materials like steel etc.

CO2

Conduct compression tests on spring, wood and concrete

CO3

Conduct flexural and torsion test to determine elastic constants

CO4

Determine hardness of metals

CO1

Study of physical properties and identification of minerals referred under theory. Megascopic description and identification of rocks referred under theory.

CO2

Microscopic study of rocks.

CO3

Interpretation and drawing of sections for geological maps showing tilted beds, faults, uniformities etc.

CO4

Simple Structural Geology problems. Electrical resistivity meter.

CO1

Recall fundamentals of electrical circuits and outline measuring instruments

CO2

Discuss DC generators and types of DC motors

CO3

Explain the working of transformers and AC machines

CO4

Analyze characteristics of diodes rectifiers

CO5

Analyze characteristics of diodes transistors

CO6

Explain construction of cathode ray oscilloscope

CO1

Distinguish between various engineering materials and understand their applications

CO2

Compare and select various power transmission elements and understand their usage in civil engineering equipment

CO3

Explain the various principles of Thermal engineering and their applications

CO4

Classify various manufacturing processes

CO5

Choose suitable process for civil engineering applications

CO6

Differentiate between various machine tools and select appropriate machine tool based on the requirement.

CO1

Understand properties of different building materials.

CO2

Study quality control tests on Cement.

CO3

Understand the importance of building components and building services.

CO4

Understand Masonry, Finishing and Form work standards.

CO5

Study the prevalent building by laws.

CO6

Understand the impact of building construction on society and demonstrate awareness of contemporary issues.

CO1

Determine stresses in the member subjected to Torsion

CO2

Analyze columns and struts

CO3

Understand the concept of direct and bending stresses

CO4

Analyze and design springs, thin and thick cylinders

CO5

Distinguish between thin Cylinders and thick Cylinders

CO6

Understand the concept of unsymmetrical bending

CO1

Compare the types of open channel flows and most economical sections

CO2

Extend the knowledge on non-uniform flow and dynamic equation for Gradually Varied Flow

CO3

Interpret about dimensional analysis, similitude, hydraulic models and numbers

CO4

Distinguish between different types of hydrodynamic forces on jets

CO5

Summarize the different types of turbines and pumps and study their properties in hydropower plant

CO6

Design the working proportions of centrifugal and reciprocating pumps

CO1

Solve the forces in members for prefect frames

CO2

Calculate the deflections of beams using energy theorems

CO3

Analyze the three hinged arches

CO4

Analyze the propped cantilevers and fixed beams

CO5

Analyze continuous beams by clapeyron’s three moment theorem and analyze beams, and portal frames using Slope deflection method

CO6

Sketch influence line diagrams for the moving load

CO1

Explain and use the AutoCAD commands for drawing 2D building drawings required for different civil engineering applications.

CO2

Explain and use the AutoCAD commands for drawing 3D building drawings required for different civil engineering applications

CO3

Plan and construct the Civil Engineering Buildings as per aspect and orientation

CO4

To present drawings as per user requirements and preparation of technical report

CO1

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

CO2

To Interpret the results obtained in the laboratory for various experiments

CO3

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

CO4

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

CO1

Analyze and solve electrical circuits using network laws and theorems.

CO2

Understand and analyze basic Electric and Magnetic circuits

CO3

Study the working principles of Electrical Machines

CO4

Understand components of Low Voltage Electrical Installations and identify and characterize diodes and various types of transistors.

CO1

Analyze the two hinged arches.

CO2

Analyze the moment distribution method

CO3

Solve statically indeterminate beams and portal frames using classical methods

CO4

Analyze the kani’s method and cable suspension bridges

CO5

Sketch the shear force and bending moment diagrams for indeterminate structures

CO6

Formulate the stiffness matrix and analyze the beams by matrix methods

CO1

Study the basic properties of soil formation.

CO2

Understand the index properties of soils.

CO3

Calculate the properties and factors of permeability by conducting simple tests.

CO4

Analyze the effective stress and seepage through soils.

CO5

Demonstrate the properties of flow nets and uses.

CO6

Evaluate the various stress distribution of soils.

CO1

Compare and Design the singly reinforced, doubly reinforced and flanged sections.

CO2

Design for shear, torsion and bond

CO3

Distinguish and Design the one-way and two-way slabs.

CO4

Design the axially loaded, uniaxial and biaxial bending columns

CO5

Design of short column and long columns

CO6

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

CO1

Apply the knowledge of mathematics, science and engineering in the areas of traffic

engineering, highway development and maintenance

CO2

Design, conduct experiments to assess the suitability of the highway materials like

CO3

Soil, bitumen, aggregates and a variety of bituminous mixtures. Also the students will develop

CO4

Interpret the results and assess the suitability of these materials for construction of

Highways.

CO5

Design flexible and rigid highway pavements for varying traffic compositions as well

as soil sub grade and environmental conditions using the standards stipulated by Indian Roads

Congress.

CO6

Evaluate the structural and functional conditions of in-service highway pavements

and provide solution in the form of routine maintenance measures or designed overlays using

Indian Roads congress guidelines

CO1

Identify Quality Control tests on concrete making materials

CO2

Understand the behavior of fresh and hardened concrete

CO3

Design concrete mixes as per IS and ACI codes

CO4

Understand the durability requirements of concrete

CO5

Understand the need for special concretes

CO6

Perform mix design and engineering properties of special concretes such as high-performance

Concrete, self-compacting concrete, and fibre reinforced concrete.

CO1

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

CO2

To carry out cost benefit analysis of projects and to calculate BEP of different alternative projects.

CO3

Understand Macroeconomic Concepts:

CO4

Analyze Cash Flows and Capital Budgeting:

CO5

Understand Borrowings on Investment:

CO6

Analyze Introduction to Accounting:

CO1

Categorize the test on materials used Civil Engineering Building & Pavement constructions

CO2

To perform the tests on concrete for it characterization.

CO3

To Design Concrete Mix Proportioning by Using Indian Standard Method.

CO4

Examine the tests performed for Bitumen mixes. To prepare a laboratory report

CO1

At the end of the course, the student will be able to

CO2

Classify the behavior of the soils subjected to various loads.

CO3

Analyze the behavior of the soils subjected to various loads.

CO4

Evaluate the behavior of the soils subjected to various loads.

CO1

Develop a strong vocabulary and successfully use functional English.

CO2

Analyze the given text and respond appropriately and develop efficacious writing skills

CO3

Improve your public speaking skills to increase your work opportunities.

CO4

Create numerous types of presentations utilizing various strategies.

CO1

Analyze hydro-meteorological data

CO2

Estimate abstractions from precipitation

CO3

Compute yield from surface and subsurface basin

CO4

Develop rainfall-runoff models

CO5

Formulate and solve hydrologic flood routing models

CO6

Estimate runoff, design discharge from catchment

CO1

Analyze characteristics of water and wastewater

CO2

Estimate the quantity of drinking water and domestic wastewater generated

CO3

Design components of water supply systems Design sewerage system

CO4

Understand and conduct various experiments to purify water.

CO5

Determine the parameters of wastewater, by conducting BOD, COD.

CO6

Determine biological parameters of wastewater.

CO1

Understand the principles and methods of geotechnical exploration

CO2

Decide the suitability of soils and check the stability of slopes

CO3

Understand the earth pressure theories

CO4

Calculate lateral earth pressures and check the stability of retaining walls

CO5

Analyze and design the shallow and deep foundations

CO6

Understand the types of pile foundation

CO1

Design tension and compression members

CO2

Design beams and beam columns

CO3

Design the tension members, compression members and column bases and joints and connections

CO4

Design built up members and Column base

CO5

Identify the various components of welded plate girder including stiffeners

CO6

 Design the various components of welded plate girder including stiffeners

CO1

Acquire the knowledge of evolution of process of prestressing.

CO2

Acquire the knowledge of various prestressing techniques.

CO3

Analyze the flexural and shear stress

CO4

Analyze the Transfer of Prestress in Pretension Members:

CO5

Analyze the Composite Beams and deflections

CO6

Develop skills in analysis design of prestressed structural elements as per the IS codal

provisions

CO1

The students understand the significance of Management in their Profession.

CO2

The various Management Functions like Planning, Organizing, Staffing, Leading, Motivation and Control aspects are learnt in this course.

CO3

The students can explore the Management Practices in their domain area.

CO4

Understand operation management

CO5

Understand marketing management

CO6

Evaluate project management

CO1

Understand the importance of potable water, determine PH and Turbidity.

CO2

Conduct experiment to determine physical parameters of water. Conduct experiment to determine chemical parameters of water.

CO3

Determine the parameters of wastewater, by conducting BOD, COD. Understand and conduct various experiments to purify water.

CO4

Determine biological parameters of wastewater.

CO1

Detailing of reinforcement in Cantilever, Simply supported and Continuous Beams (Both

Singly & Doubly Reinforced Beams), Detailing of reinforcement in canopy & columns (both uniaxial & biaxial)

CO2

Detailing of reinforcement in RC isolated footings square, rectangular, circular and combined footings. Detailing of reinforcement in RC one-way, two-way slabs and dog-legged staircases.

CO3

Drawing of Steel bolted and welded connections. Drawing of steel compression and tension members.

CO4

Drafting of steel beams-built-up sections. Drafting of steel plate girder, Drafting of steel roof truss.

CO1

Identify and calculate the units for various quantities of item of work.

CO2

Calculation of earth work quantity for roads and canals.

CO3

Analyze the rates for various items of work and prepare abstract estimate.

CO4

Prepare bar bending schedule for reinforcement works.

CO5

Prepare tenders and contract documents as per prevalent standards.

CO6

Evaluate and compare the valuation of building for different specifications.

CO1

Know the necessity of ground improvement

CO2

Understand the various ground improvement techniques available

CO3

Select & design suitable ground improvement technique for existing soil conditions in the field

CO4

Understand the Hydraulic Modification

CO5

Understand the Physical and Chemical Modification

CO6

Understand the Modification by Inclusions and Confinement

CO1

Plan an Irrigation System

CO2

Design irrigation canals and canal network

CO3

Plan and design diversion head works

CO4

Design irrigation canal structures

CO5

Analyze gravity and earth dams

CO6

Design spillways and energy dissipations works, Analyze and design gravity dams

CO1

Understand to Entrepreneurship

CO2

Analyze Financing and Managing the new ventures

CO3

Analyze Industrial Financial Support

CO4

Understand schemes and functions of directorate of industries

CO5

Understand Production and marketing management

CO6

Understand Labour legislation,

CO1

The students will understand the importance of Values and Ethics in their personal lives

CO2

Professional careers.

CO3

The students will learn the rights and responsibilities as an employee,

CO4

Team member and a global citizen.

CO5

Understand the responsibilities as an employee

CO6

Understand the professional laws and ethics

CO1

Select a suitable project making use of the technical and engineering knowledge gained from previous courses with the awareness of impact of technology on the society and their ethical responsibilities.

CO2

Gather and spread information about the chosen project.

CO3

Assemble a group and divide the work among them.

CO4

Use a literature survey to understand, plan, and execute a Mini Project with your team.

CO1

An ability to write technical documents and give oral presentations related to the work completed and improves personality development and communication skills.

CO2

Train the students to approach ethically any multidisciplinary engineering challenges with economic, environmental and social contexts and to set them for future recruitment by potential employers

CO3

Identify and use to their academic study relevant well-practiced note-taking interactivity and time management tactics.

CO4

Create audience-centered presentations that meet specific professional goals and include ethical and legal visual aids.

CO1

Identify the issue, undertake a literature review, and then formalize it.

CO2

Analyze & design efficient, cost-effective and eco-friendly solutions using relevant tools (if necessary) and processes

CO3

Implement the design and demonstrate the functionality of developed model

CO4

Evaluate the results to derive the conclusion and provide scope for future enhancement.

CO1

Identify the physical and chemical composition of solid wastes

CO2

Analyze the functional elements for solid waste management.

CO3

Understand the techniques and methods used in transformation, conservation, and recovery of

Materials from solid wastes.

CO4

Evolution of landfills

CO5

Understand Hazardous waste Management:

CO6

Identify and design waste disposal systems

CO1

Scope of transport planning process

CO2

Understand trip generation

CO3

Understand trip distribution methods

CO4

Analyze modal split analysis

CO5

Understand the planning

CO6

Analyze route assignment

CO1

Understand The concept of TQM

CO2

Analyze Customer Focus and Satisfaction

CO3

Evolution of Bench Marking

CO4

Organizing for TQM

CO5

Understand The Cost of Quality

CO6

Understand ISO 9000 Universal Standards of Quality: ISO around the world

CO1

Identify the issue, undertake a literature review, and then formalize it.

CO2

Analyze & design efficient, cost-effective and eco-friendly solutions using relevant tools (if necessary) and processes

CO3

Implement the design and demonstrate the functionality of developed model

CO4

Evaluate the results to derive the conclusion and provide scope for future enhancement.