OUTCOME




Program Outcomes for B.E.

# Program Outcomes
PO - 1 Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
PO - 2 Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
PO - 3 Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
PO - 4 Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
PO - 5 Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
PO - 6 Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
PO - 7 Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
PO - 8 Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
PO - 9 Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
PO - 10 Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
PO - 11 Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
PO - 12 Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

Program Outcomes for M.B.A

# Program Outcomes
PO - 1 Apply knowledge of management theories and practices to solve business problems
PO - 2 Foster Analytical and critical thinking abilities for data-based decision making.
PO - 3 Ability to develop Value based Leadership ability.
PO - 4 Ability to understand, analyze and communicate global, economic, legal, and ethical aspects of business.
PO - 5 Ability to lead themselves and others in the achievement of organizational goals, contributing effectively to a team environment.

Civil Engineering: 

Civil Engineering Graduates will be able to: 

# Program Specific Outcomes
PSO - 1 Plan, analyse, design and execute cost effective Civil Engineering problems to meet the societal needs.
PSO - 2 To learn advance techniques in the state of the art Civil Engineering including interdisciplinary techniques and develop new solutions to critical problems without compromising the standards.

Mechanical Engineering:

The undergraduates of JNNCE Mechanical Engineering program shall demonstrate the following capability defined by the three PSO’s.

# Program Specific Outcomes
PSO - 1 Utilize the knowledge of mechanics, materials, design, thermal and production engineering to fulfill the requirements of industry.
PSO - 2 Use the fundamentals of Electrical Machines, Power electronics and Control systems in solving Real-time problems of industry.
PSO - 3 To Work individually and in team to develop new products and processes by using modern machine tools and software

Electrical & Electronics Engineering:

The student will be able to:

# Program Specific Outcomes
PSO - 1 Apply the acquired Knowledge of Power generation, Transmission, Distribution, Control and Protection of Power system equipments.
PSO - 2 Carry out development projects on mechatronic systems, industrial and agricultural related machineries, composite materials and bio-fuels for sustainable needs.
PSO - 3 Use the fundamentals of Electrical Machines, Power electronics and Control systems in solving Real-time problems of industry.

Electronics & Communication Engineering:

Engineering Graduates will be able to: 

# Program Specific Outcomes
PSO - 1 Specify, design, build and test analog, digital and embedded systems
PSO - 2 Understand and architect wired and wireless analog and digital communication systems as per specifications and determine their performance.

Computer Science & Engineering Department

Department of computer science and engineering define the following Program Specific Outcomes.

# Program Specific Outcomes
PSO - 1 Apply concepts in the core areas of Computer Science & Engineering – Networking, Data Structures, Computer Architecture, Mathematical Modeling and System Programming to address technical issues.
PSO - 2 Design and develop computer based systems by applying standard practices and principles using appropriate tools and programming languages for real world problems.

Information Science & Engineering Dept.

Department of Information Science and engineering define the following Program Specific Outcomes.

# Program Specific Outcomes
PSO - 1 Ability to understand and analyse the Information technology problems
PSO - 2 Design and develop solutions for computational problems using software

Telecommunication Engineering Dept.

Engineering Graduates will be able to:

# Program Specific Outcomes
PSO - 1 Understand and develop analog and digital telecommunication systems and determine their performance
PSO - 2 Design, build and test analog, digital and embedded systems according to specifications

Civil Engineering Dept.

The following tables indicate the Course Outcomes of one course per semester of study for all three batches such as 2012-16, 2013-17 and 2014-18.

Table B.3.1.1 Details of the course outcomes of one course from each semester for the batch 2014-18

Course Name: Fluid Mechanics

Course code:  C205

Year of Study:2015 – 16

  Students will be able to

C205.1

Apply the knowledge of fluid properties to various types of fluid problems and interpret the pressure variation in different fluid system

C205.2

Compute hydro static forces and apply the concepts of kinematics in different fluid flow problems.

C205.3

Apply the principles of fluid dynamics and analyze the fluid flow systems.

C205.4

Measure the depth, velocity and discharge using different flow measuring devices.

Course Name: Surveying-II

Course code: C212

Year of Study: 2015 – 16

Students will be able to

C212.1

Apply the knowledge of geometric principles to arrive at surveying problems.

C212.2

Interpreting the use of modern instruments to obtain geo-spatial data and analyze the same to appropriate engineering problems.

C212.3

Analyze geodetic data to process and perform analysis for survey problems with the use of Theodolite.

C212.4

Design and implement the different types of curves for deviating type of alignments.

 

Course Name: Geotechnical Engineering-I

Course code:  C304

Year of Study:2016 – 17

Students will be able to

C304.1

Determine the index properties in laboratory and its application in classification of soils

C304.2

Draw  Compaction  curve and Apply the knowledge of compaction to the field

C304.3

Compute the flow of water through soils.

C304.4

Apply knowledge of shear strength and Consolidation to determine shear strength and Consolidation parameters.

 

Course Name: Transportation Engineering-II

Course code:  C311

Year of Study: 2016 – 17

Students will be able to

C311.1

Describe the development of railways and determine the structural components, material quantities required for construction of railways.

C311.2

Assess the various aspects of geometric elements, points and crossings of railway system

C311.3

Design and plan the various components of the airport.

C311.4

Illustrate the features of tunnels and harbors.

Course Name: Design of Pre-Stressed Concrete

Course code:  C404

Year of Study:2017 – 18

Students will be able to

C404.1

Apply the provisions of IS 1343 1980 code to the design of flexure and shear of pre-stressed concrete structures.

C404.2

Perceive the concept of pre-stressing and analyze the behavior of concrete structures.

C404.3

Determine the losses of pre-stress in pre-stressed concrete structures.

C404.4

Analyze the deflection of beams and camber of pre-stressed concrete members and design the end blocks.

Course Name: Advanced Concrete Technology

Course code:  C407

Year of Study: 2017 – 18

Students will be able to

C407.1

Design a concrete mix for field applications as per professional codes by applying the mix proportion principles.

C407.2

Perceive the importance of characteristics of cement, chemical and mineral admixtures in both fresh and hardened state of concrete.

C407.3

Recognize the characteristics of special types of concrete.

C407.4

Evaluate the effect of the environment on service life performance and demonstrate techniques of measuring the Non Destructive Testing of concrete structure.

Mechanical Engineering:

Details of the course outcomes of one course from each semester

Semester: 3

Course: Mechanics of Materials

Course Code: 10ME34

Upon the completion of the course, Students will be able to

C205.1

Understand the fundamental concepts and principles of stresses, strains, elastic constants, volumetric strain and thermal stresses.

C205.2

Analyze stresses on inclined plane and principal stresses under plane stress condition, strain energy in bars, beams and stresses in thick and thin cylinders.

C205.3

Draw shear force and bending moment diagram for beams under different loads.

C205.4

Analyze beams with symmetrical and unsymmetrical secti