• PO1 : An ability to independently carry out research/investigation and development work in engineering and allied streams
• PO2 : An ability to communicate effectively, write and present technical reports on complex engineering activities by interacting with the engineering fraternity and with society at large.
• PO3 : An ability to demonstrate a degree of mastery over the area as per the specialization of the program. The mastery should be at a level higher than the requirements in the appropriate bachelor program.
• PO4 : An ability to apply stream knowledge to design or develop solutions for real world problems by following the standards.
• PO5 : An ability to identify, select and apply appropriate techniques, resources and state-of-the-art tool to model, analyse and solve practical engineering problems.
• PO6 : An ability to engage in life-long learning for the design and development related to the stream related problems taking into consideration sustainability, societal, ethical and environmental aspects.
• PO7 : An ability to develop cognitive load management skills related to project management and finance which focus on Entrepreneurship and Industry relevance.

• 221TCE100 - PROBABILITY AND STATISTICS
• 221TCE007 - THEORY OF ELASTICITY
• 221TCE008 - STRUCTURAL DYNAMICS
• 221ECE038 - EXPERIMENTAL METHODS IN STRUCTURAL ENGINEERING
• 221ECE043 - FORENSIC ENGINEERING AND REHABILITATION OF STRUCTURES
• 221LCE003 - ADVANCED STRUCTURAL ENGINEERING LAB
• 221RGE100 - RESEARCH METHODOLOGY & IPR

• 222TCE100 - ADVANCED NUMERICAL METHODS
• 222TCE103 - FINITE ELEMENT METHOD
• 222ECE037 - DESIGN OF BRIDGES
• 222ECE043 - DESIGN OF EARTHQUAKE RESISTANT STRUCTURES
• 222EME106 - INDUSTRIAL SAFETY IN ENGINEERING
• 222LCE003 - COMPUTATIONAL LAB

• 223AGE010 - REUSE AND RECYCLE TECHNOLOGY
• 224PCE100 - DISSERTATION PHASE II

• 224PCE100 - DISSERTATION PHASE II

221TCE100 - PROBABILITY AND STATISTICS

• CO1 - To create an awareness of the concepts of statistics and probability distributions
• CO2 - To formulate and test hypotheses for civil engineering problems
• CO3 - To apply statistical data analysis tools such as ANOVA and experimental designs
• CO4 - To build regression models for civil engineering applications and to identify the principal components
• CO5 - To apply the concepts of data analysis for a time series

221TCE007 - THEORY OF ELASTICITY

• CO1 - Apply knowledge of mechanics and mathematics to model elastic bodies as continuum.
• CO2 - Formulate boundary value problems; and calculate stresses and strains.
• CO3 - Comprehend constitutive relations for elastic solids and compatibility constraints.
• CO4 - Solve two-dimensional problems (plane stress and plane strain) using the concept of stress function.

221TCE008 - STRUCTURAL DYNAMICS

• CO1 - Model single and multi-degree freedom systems for dynamic analysis and develop equations of motion
• CO2 - Estimate parameters of dynamic systems
• CO3 - Perform dynamic analysis of single degree freedom systems
• CO4 - Perform dynamic analysis of multi - degree freedom systems
• CO5 - Analyse and design vibration isolation systems
• CO6 - Perform dynamic analysis of distributed parameter systems

221LCE003 - ADVANCED STRUCTURAL ENGINEERING LAB

• CO1 - Understand basic test for the materials
• CO2 - Compute the mix proportion for various types of concrete as per IS guidelines.
• CO3 - Evaluate the mechanical properties of concrete
• CO4 - Analyse the behaviour of reinforced concrete elements.
• CO5 - Analyse the behaviour of steel members
• CO6 - Familiarise modern instruments.

221ECE038 - EXPERIMENTAL METHODS IN STRUCTURAL ENGINEERING

• CO1 - Understand characteristics of a measurement system
• CO2 - Understand working and types of strain gauges and force transducers
• CO3 - Understand working and types of potentiometers and accelerometers
• CO4 - Understand different types of Non-destructive testing methods
• CO5 - Understand the application of Two-dimensional photoelasticity in analysing stress or strain
• CO6 - Understand working of recording instruments like chart recorders and CROs

221ECE043 – FORENSIC ENGINEERING AND REHABILITATION OF STRUCTURES

• CO1 - To understand role and responsibility of a forensic engineer
• CO2 - To understand different cause of deterioration in structures and its prevention
• CO3 - To gain adequate knowledge for the uses of different NDT equipments
• CO4 - To get awareness regarding the structural health monitoring
• CO5 - To gain adequate knowledge in Different modern techniques of retrofitting

221RGE100 - RESEARCH METHODOLOGY & IPR

• CO 1 - Approach research projects with enthusiasm and creativity.
• CO 2 - Conduct literature survey and define research problem.
• CO 3 - Adopt suitable methodologies for solution of the problem.
• CO 4 - Deliver well-structured technical presentations and write technical reports.
• CO 5 - Publish/Patent research outcome.

222TCE100 - ADVANCED NUMERICAL METHODS

• CO1 - Obtain the solution of simultaneous Linear system of equations
• CO2 - Obtain the numerical solutions of ordinary differential equations
• CO3 - Obtain the numerical solutions for solving boundary value problems of partial differential equations
• CO4 - Describe the terminologies, applications or procedure of finite element method
• CO5 - Describe or apply the concept of finite element method

222TCE103 - FINITE ELEMENT METHOD

• CO1 - Develop approximate solution to boundary value problems in structural mechanics using method of weighted residuals and variational methods.
• CO2 - Develop field approximations for various one- and two-dimensional finite elements.
• CO3 - Formulate element equilibrium equations for 1D and 2D finite elements for solution of structural mechanics problems using energy principles.
• CO4 - Understand the computational techniques for numerical integrations, large system of equation solvers etc. and apply the same for implementation of finite element method

222ECE037 - DESIGN OF BRIDGES

• CO1 - Review bridge specifications as per current IRC and IRS standards for bridges
• CO2 - Design and detail slab and T beam bridges
• CO3 - Design and detail box culvert and Prestressed Concrete bridges.
• CO4 - Design and detail plate girder and composite bridges
• CO5 - Design elastomeric bearings in bridges.
• CO6 - Analyse substructures and foundations in bridges.

222ECE043 - DESIGN OF EARTHQUAKE RESISTANT STRUCTURES

• CO1 - Describe various engineering aspects of earthquakes, earthquake effects and earthquake resistant design.
• CO2 - Apply IS code provisions for the analysis, design and detailing of earthquake resistant structures.
• CO3 - Develop earthquake response spectrum.
• CO4 - Perform response spectrum analysis of multi-storied frames.
• CO5 - Analyse and design shear walls.
• CO6 - Describe different strategies for seismic evaluation and seismic retrofitting.

222EME106 - INDUSTRIAL SAFETY IN ENGINEERING

• CO1 - Discuss the basic concepts of Safety Management.
• CO2 - Explain the factors contributing to accidents and how that can be controlled.
• CO3 - Summarize general safety precautions and safe practices to be followed in Engineering Industries.
• CO4 - Explain the occupational health hazards and the methods of control.
• CO5 - Implement the firefighting techniques and understand the methods of pollution control.

222PCE100 - MINI PROJECT

• CO1 - To strengthen the understanding of fundamentals through application of theoretical concepts.
• CO2 - To boost their skills in preparing report and widen the horizon of their thinking
• CO3 - To resolve a problem by applying theoretical knowledge and thus to increase problem solving skills

22LCE003 - COMPUTATIONAL LAB

• CO1 - Model structural elements/ whole structures using finite element packages.
• CO2 - Analyse and design structural elements/ whole structures using finite element packages.
• CO3 - Interpret results from finite element analysis packages.
• CO4 - Draw structural details using AutoCAD
• CO5 - Write design reports.
• CO6 - Develop bar bending schedule and bill of quantities from the structural Drawings

223AGE010 - REUSE AND RECYCLE TECHNOLOGY

• CO1 - Explain the principles and technologies behind waste reduction, resource conservation, and sustainable practices
• CO2 - Describe and Analyze waste generation and management
• CO3 - Apply the knowledge of various reuse strategies and their application in different industries and analyze various recycling technologies
• CO4 - Appraise the methods of E-waste management and Eco-friendly packaging
• CO5 - Comprehend Environmental Regulations and Policies, Understand the importance of environmental regulations and policies in addressing environmental challenges

224PCE100 - DISSERTATION PHASE II

• CO1 - To strengthen the understanding of fundamentals through application of theoretical concepts.
• CO2 - To boost their skills in preparing report and widen the horizon of their thinking
• CO3 - To resolve a problem by applying theoretical knowledge and thus to increase problem solving skills

224PCE100 - DISSERTATION PHASE II

• CO1 - To strengthen the understanding of fundamentals through application of theoretical concepts.
• CO2 - To boost their skills in preparing report and widen the horizon of their thinking
• CO3 - To resolve a problem by applying theoretical knowledge and thus to increase problem solving skills