No

CO2- Solve basic application problems described by second order linear differential equations with constant and variable coefficients.

CO3- Demonstrate their understanding of how physical phenomena are modeled using special functions

CO4- Apply partial derivative equation techniques to predict the behavior of certain phenomena.

CO5- Understand purpose and functions of infinite series and Fourier series.

CO6- Evaluate integrals along a path in the complex plane and understand the statement of Cauchy’s theorems.

BCET 302

CO2 Understand chemistry, properties, characteristics and classification of cement, aggregate and lime.

CO3 Understand the constituent materials for properties of fresh and hardened concrete properties and their tests.

CO4 Understand the composition of steel, aluminum and their composites and application in construction field and treatments for increasing their durability.

CO5 Select the different forms of timber and composite panels for market requirement and mechanical treatments for increasing their durability.

CO6 Describe various latest and modern construction materials, properties and their application

CO2 Understand the modern field surveying instrument with their working principle.

CO3 Calculate the linear measurement, angular measurement, traversing, leveling, area and volume of field, coordinate of points and make the topography map of a particular area

CO4 Understand the component of curve and apply the setting out of curve on field.

CO5 Understand the phenomena of error in surveying and calculate adjustment and correction of the surveying errors

CO6 Understand the Astronomical survey and calculate the space coordinate.

BCET 304

CO2 Understand building Bye laws and codes followed at the time of planning of building and terminologies use in building planning

CO3 Understanding of building planning, drawing, building services and their engineering aspects in residential and institutional building and apply them as per need of building

CO4 Able to understand the principles of architecture and architecture composition.

CO5 Able to understand the fundamentals of Town planning

CO6 Able to understand various components forming one- and two-way perspective drawing and adapts them to draw basic shapes

BCET 305

CO2 Understand various stress combination on rigid and deformable solid materials

CO3 Determine the shear force and bending moment in beams for different support conditions

CO4 Apply the theory of simple bending on various sections

CO5 Determine the slopes and deflections of beams

CO6 Calculate the stress developed on thin cylinders and Spheres under internal and external pressure.

BCET 401

CO2 Distinguish the different energy generation systems and their environmental impacts.

CO3 To identify environmental problems and solutions through organized research.

CO4 To acquire analytical skills in assessing environmental impacts through a multidisciplinary approach.

CO5 Respond to global policy initiatives and meet the emerging challenges with sustainable technological solutions in the field of energy and environment.

CO6 To improve the communication and writing skill so as to face the competitive world.

BCET 402

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

PO1,PO2,PO3,PO4,PO6,PO7,PO8,PO12 PSO1,PSO2

CO2 Apply equations of equilibrium to truss structures and compute the reactions and member forces.

CO3 Evaluate and draw the influence lines for reactions, shears, and bending moments in beams and girders due to moving loads.

CO4 Calculate the internal forces in cable structures.

CO5Calculate the internal forces in arch type structures.

PO1,PO2,PO3 PSO1,PSO2

BCET 404

CO2 To understand the principles of Highway geometrics design as per IRC standards and Traffic engineering.

CO3 To understand Types of pavements & Materials required for highway construction

CO4 To understand Construction procedure for different type of pavements.

CO5 To understand maintenance procedure for different type of pavements.

CO6 Design rigid and flexible pavements which comply with IRC: 37 standards, and factor influencing their maintenance.

PO1,PO2,PO3,PO4 PSO1

BCET405

CO2 CLASSIFY minerals based on their physical properties and CLASSIFY rocks based on origination and engineering properties

CO3 UNDERSTAND the process of weathering of rocks and RECALL the factors affecting weathering, also EXPLAIN the different types of deposits

CO4 UNDERSTAND folds faults and their classification, and the consequences of geological failures

CO5 UNDERSTAND the principles of remote sensing and photogrammetry and ANALYZE digital images

CO6 UNDERSTAND basic concepts of GIS and ANALYZE vector and raster data

PO1,PO2,PO3, PO4,PO5, PO6,PO7,PO8,PO9,PO10,PO11, PO12, PSO1,PSO2

CO2 Understand and apply the design codes related to the design of reinforced concrete members.

CO3 Analyze and design reinforced concrete flexural member.

CO4 Analyze and design for shear and development length in reinforced concrete members.

CO5 Analyze and design reinforced concrete compression member.

CO6 Analyze and design for Staircase and Retaining walls.

PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO12 PSO1,PSO2

CO2 Able to calculate the index and engineering properties of different types of soil

CO3 Understand the influence of water flow on the engineering behavior of soils.

CO4 Apply the concept of effective stress and understands stress distribution within a soil mass

CO5 Able to apply the concept of compressibility for determining the settlement in soil

CO6 Identify shear strength parameters for field conditions and able to classify soil slopes and interpret the FOS for different types of soil.

PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO10,PO12 PSO1,PSO2

CO2 Examine the pressure variation, pressure measurement and also determine the pressure on submerged and flowing bodies.

CO3 Understand the principles of continuity, momentum, and energy as applied to fluid motions and analyze the fluid flow problems with the application of the mass, momentum and energy equations.

CO4 Apply dimensional analysis to predict physical parameters that influence the flow in fluid mechanics.

CO5 Identify energy losses in pipe transitions and sketch energy gradient lines.

CO6 Understand viscous and no viscous flow over bodies, boundary layer calculation of lift and drag forces.

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1, PSO2

CO2 Apply moment distribution method toanalyze beam and portal frame.

CO3 Apply plastic method to analyze beam and portal frame.

CO4 Apply Clapeyron’stheorem toanalyze beam and portal frame.

CO5 Apply stiffness methods to analyze beam and portal frame.

CO6 Apply flexibility methods to analyze beam and portal frame.

PO1,PO2,PO3,PO4,PO5,PO6, PO8,PO9,PO10,PO12, PSO1,PSO2

CO2 Understand the procedure of pavement construction procedure

CO3 Understand the traffic loads for design and analysis of pavement

CO4 Understand the joint behavior in rigid pavements

CO5 Understand the principles of high maintenance

CO6 Understand the traffic characteristics.

PO1,PO2,PO3,PO4 PSO1,PSO2

CO2 Be able to identify and interpret the appropriate relevant industry design codes.

CO3 Use moment redistribution concept to Design of continuous RC beams.

CO4 Analyze and design the components of Teams bridge.

CO5 Analyze and design the various types of water tanks.

CO6 Analyze and design of RC framed buildings.

CO2 Select the treatment to raw water with suitable intake with usefulness for domestic andconstruction purpose.

CO3 Designing and laying the pipe network for water supply and Sewage disposal effectively.

CO4 Plan and implement plumbing work effectively by choosing suitable materials.

CO5 Calculate waste water generation with suitable water carriage system.

CO2 Analyze geometrical parameters of an open channel & evaluate efficient channel sections for different conditions.

CO3 Analyze the nature of flow and flow profiles using concept of Specific energy and GVF equation.

CO4 Understand and apply the principle of hydraulic jump to analyze various open channel surges and its applications Understand,

CO5 Classify the profile for spatially varied flow using numerical methods Apply

CO6 Apply Energy & momentum concepts of fluid in open channel, calculate Energy dissipation”

PO1,PO2,PO6,PO8,PO12 PSO1,PSO2

CO2 ANALYZE the stability of retaining walls

CO3 COMPARE the different types of shallow foundation and UNDERSTAND the theory of bearing capacity of soil and CALCULATE the stresses and settlement in shallow foundation

CO4 COMPARE the different types of deep foundation and CALCULATE the load capacity of piles and UNDERSTAND procedure of pile load test

CO5 EXPLAIN the different types of caissons and the method of construction and CALCULATE the bearing capacity of well foundation and ANALYZE the stability of well foundation

CO6 EXPLAIN the different types of machine foundation and UNDERSTAND the different ways of soil exploration

PO1,PO2,PO3,PO4,PO5 PSO1,PSO2

CO2 Students will able to describe pavement design, application and basic principles of pavement design.

CO3 Students will able to calculate the stresses and deflections in pavements, design methodology and arrive at design values for various transportation structures.

CO4 Students will able to identify various construction procedures of both Flexible and igid pavements.

CO5  Students will able to categorize the safety aspects of the pavements specifically in terms of friction and other related distresses.

CO6 Students will able to measure the pavements based on the functional and structural characteristics.

PO1,PO2,PO3,PO4 PSO1,PSO2

CO2 Communicate effectively in oral and written presentations to technical and non-technical audiences the applications of waste water treatment and its significance in society.

CO3 Be able to understand the concept of sewerage system and its network layout.

CO4 Appreciate the understanding of different processes involved in the treatment of sewage.

CO5 Be able to apply the basis of an Environmental Management System (EMS) to an industrial activity.

CO2 Able to identify and interpret the appropriate relevant industry design codes.

CO3 Identify the different failure modes of steel tension and compression members and beams, and compute their design strengths.

CO4 Students will be able to check and specify the serviceability requirements of the designed steel structures.

CO5 Identify the different failure modes of bolted and welded connections, and determine theirdesign strengths.

PO1,PO2,PO3,PO6,PO8 PO11,PO12 PSO1,PSO2

CO2 Plan and design various elements of railway.

CO3 Explain the various principles traffic control in railway.

CO4 Explain about layout, design and construction of permanent way, runway and taxiway.

CO5 Illustrate the various principles traffic control in airport.

CO6 Explain the function of various elements of railway & and airway and their maintenance.

PO1,PO2,PO3,PO4 PSO1,PSO2

CO2 Interpret the role of hydrology, water resources management and the legal and economic frameworks associated with addressing these challenges.

CO3 Experiment with basic water properties and can measure basic physical and biochemical aspects of water associated with hydrologic processes.

CO4 Appraise statistical, analytical and numerical methods and associated limitations of modeling hydrologic flow and transport processes, and can apply quantitative models towards the analysis of water quantity, quality and management problems.

CO5 To influence runoff and hydrograph estimation and apply into engineering practices.

CO6 Anticipate water management, communication and teamwork skills needed    to work constructively and professionally on multidisciplinary teams.

CO2 Develop schedule of activities in a construction project.

CO3 Explain the function and application of different types of equipment used in construction site.

CO4 Understand quality control and inspection in construction industry.

CO5 Integrate and apply theoretical concepts, ideas, tools and techniques to Construction practice.

CO6 Understand Significance of variability and estimation of risk in construction.

PO1,PO2,PO3,PO4,PO5,PO6,PO7,PO8,PO9,PO10,PO11, PO12,PSO1,PSO2

CO2 Determine the free and forced vibration response of single degree of freedom structure

CO3 Calculate the natural frequency and mode shapes of the two degree of freedom system.

CO4 Determine the response of second degree of freedom structure under harmonic motion

CO5 Determination of the mode shapes and approximate natural frequencies of multi storied buildings

CO6 Analyze the structure using IS 1893code

CO2 UNDERSTAND the concept and need of diversion works RECALL the various parts of weir and barrage

CO3 DESIGN weir and CLASSIFY earthen dams and spillways

CO4 UNDERSTAND types of irrigation canals and DESIGN lined and unlined irrigation canals

CO5 UNDERSTAND cross drainage works and its types and UNDERSTAND canal escapes and canal falls and DESIGN canal fall CO6EXPLAIN water logging causes and the principles of drainage

PO1,PO2,PO3,PO4,PO6 PO7,PO12,PSO1,PSO2

CO2 Identify and calculate the Losses of Prestress& Deflections in prestressed members

CO3 Calculate the Flexural Strength of Prestressed Concrete Sections.

CO4 Calculate the Shear Strength of Prestressed Concrete Sections.

CO5 Understand the mechanism of the Transfer of Prestress forces in Pre tensioned Members and Anchorage Zone Stresses in Post Tensioned Members.

CO6 Understand the mechanism of the Transfer of Prestress forces in Pre tensioned Members and Anchorage Zone Stresses in Post Tensioned Members.

PO1,PO2,PO3,PO6,PO8 PSO1,PSO2