PEOs, PSOs & POs

2. Demonstrate the ability of using Fourier Series in solving the Ordinary Differential Equations and Partial Differential Equations

3. Solve initial and boundary value problems involving ordinary differential equations

4. Identify the analytic function, harmonic function, orthogonal trajectories

5. Apply bilinear transformations and conformal mappings

6. Identify the applicability of theorems and evaluate the contour integrals.

2. Write steady flow energy equation for various flow and non-flow thermodynamic systems

3. Compute heat and work interactions in thermodynamics systems

4. Demonstrate the interrelations between thermodynamic functions to solve practical problems.

5. Use steam table and mollier chart to compute thermodynamics interactions

6. Compute efficiencies of heat engines, power cycles etc.

2. Draw the SFD and BMD for different types of loads and support conditions.

3. Analyse the stresses induced in basic mechanical components.

4. Estimate the strain energy in mechanical elements.

5. Analyse the deflection in beams.

6. Analyse buckling and bending phenomenon in columns, struts and beams.

2. Illustrate principles of forming processes

3. Demonstrate applications of various types of welding processes.

4. Differentiate chip forming processes such as turning, milling, drilling, etc.

5. Illustrate the concept of producing polymer components and ceramic components.

6. Distinguish between the conventional and modern machine tools.

2. Demonstrate understanding of various failure mechanisms of materials.

3. Interpret Iron-Iron carbide phase diagram, and different phases in microstructures of materials at

different conditions.

4. Select appropriate heat treatment process for specific applications.

5. Identify effect of alloying elements on properties of steels

6. Illustrate basics of composite materials, Nano- materials and smart materials.

1 Solve the system of linear equations using matrix algebra with its specific rules

2 Demonstrate basics of vector calculus

3 Apply the concept of probability distribution and sampling theory to engineering problems

4 Apply principles of vector calculus to the analysis of engineering problems

5 Identify, formulate and solve engineering problems

6 Illustrate basic theory of correlations and regression

1. Define properties of fluids and classification of fluids

2. Evaluate hydrostatic forces on various surfaces and predict stability of floating bodies

3. Formulate and solve equations of the control volume for fluid flow systems

4. Apply Bernoulli’s equation to various flow measuring devices

5. Calculate resistance to flow of incompressible fluids through closed conduits and over surfaces

6. Apply fundamentals of compressible fluid flows to relevant systems

1 Illustrate construction, working principles and applications of power electronic switches

2 Identify rectifiers and inverters for dc and ac motor speed control

3 Develop circuits using OPAMP and timer IC555

4 Identify digital circuits for industrial applications

5 Illustrate the knowledge of basic functioning of microcontroller

6 Analyse speed-torque characteristics of electrical machines for speed control

1. Demonstrate understanding of metal cutting principles and mechanism

2. Identify cutting tool geometry of single point and multipoint cutting tool

3. Demonstrate various concepts of sheet metal forming operations

4. Demonstrate concepts and use of jigs and fixtures

5. Illustrate various non-traditional machining techniques

6. Illustrate concepts and applications of additive manufacturing

1. Define various components of mechanisms

2. Develop mechanisms to provide specific motion

3. Draw velocity and acceleration diagrams of various mechanisms

4. Draw Cam profile for the specific follower motion

5. Analyse forces in various gears

6. Select appropriate power transmission for specific application

1. Identify data models and schemes in DBMS

2. Demonstrate the features of database management systems and Relational database

3. Use SQL- the standard language of relational databases

4. Demonstrate understanding of functional dependencies and design of the database

5. Design graphical user Interface for specific application

6. Create visual software entities

1. Demonstrate the working of different systems and processes of S.I. engines

2. Demonstrate the working of different systems and processes of C.I. engines

3. Illustrate the working of lubrication, cooling and supercharging systems.

4. Analyse engine performance

5. Illustrate emission norms and emission control

6. Comprehend the different technological advances in engines and alternate fuels

1. Classify various types of static characteristics and types of errors occurring in the system.

2. Classify and select proper measuring instrument for linear and angular displacement

3. Classify and select proper measuring instrument for pressure and temperature measurement

4. Design mathematical model of system/process for standard input responses

5. Analyse error and differentiate various types of control systems and time domain specifications

6. Analyse the problems associated with stability

1. Identify the three modes of heat transfer (conduction, convection and radiation).

2. Illustrate basic modes of heat transfer

3. Develop mathematical model for each mode of heat transfer

4. Develop mathematical model for transient heat transfer

5. Demonstrate and explain mechanism of boiling and condensation

6. Analyse different heat exchangers and quantify their performance

1. Demonstrate working Principles of different types of governors and Gyroscopic effects on the mechanical systems

2. Illustrate basic of static and dynamic forces

3. Determine natural frequency of element/system

4. Determine vibration response of mechanical elements / systems

5. Design vibration isolation system for a specific application

6. Demonstrate basic concepts of balancing of forces and couples

1. Calculate the values of various forces involved in the machining operations

2. Design various single and multipoint cutting tools

3. Analyse heat generation in machining operation and coolant operations

4. Illustrate the properties of various cutting tool materials and hence select an appropriate tool material for particular machining application

5. Demonstrate the inter-relationship between cutting parameters and machining performance measures like power requirement, cutting time, tool life and surface finish

6. Analyse economics of machining operations

1. Write methodically, the sequence of operations of simple work-piece

2. Identify and select locating and clamping points on work-piece

3. Demonstrate construction of drill jig

4. Illustrate construction of milling fixture

5. Identify appropriate combination of tools, jigs and fixture, suitable for a particular machining operation

6. Design assembly of jigs and fixtures on simple work-piece

1. Design a technical document using precise language, suitable vocabulary and apt style.

2. Develop the life skills/ interpersonal skills to progress professionally by building stronger relationships.

3. Demonstrate awareness of contemporary issues knowledge of professional and ethical responsibilities.

4. Apply the traits of a suitable candidate for a job/higher education, upon being trained in the techniques of holding a group discussion, facing interviews and writing resume/SOP.

5. Deliver formal presentations effectively implementing the verbal and non-verbal skills

1. Demonstrate inspection methods and different gauges

2. Illustrate working principle of measuring instruments and calibration methodology

3. Illustrate basic concepts and statistical methods in quality control

4. Demonstrate characteristics of screw threads, gear profile, and tool profile

5. Illustrate the different sampling techniques in quality control

6. Illustrate different nondestructive techniques used for quality evaluation

1. Demonstrate understanding of various design considerations

2. Illustrate basic principles of machine design

3. Design machine elements for static as well as dynamic loading

4. Design machine elements on the basis of strength/ rigidity concepts

5. Use design data books in designing various components

6. Acquire skill in preparing production drawings pertaining to various designs

1. Solve differential equations using weighted residual methods

2. Develop the finite element equations to model engineering problems governed by second order differential equations

3. Apply the basic finite element formulation techniques to solve engineering problems by using one dimensional elements

4. Apply the basic finite element formulation techniques to solve engineering problems by using two dimensional elements

5. Apply the basic finite element formulation techniques to find natural frequency of single degree of vibration system

6. Use commercial FEA software, to solve problems related to mechanical engineering

1. Demonstrate fundamental principles of refrigeration and air conditioning

2. Identify and locate various important components of the refrigeration and air conditioning system

3. Illustrate various refrigeration and air conditioning processes using psychometric chart

4. Design Air Conditioning system using cooling load calculations.

5. Estimate air conditioning system parameters

6. Demonstrate understanding of duct design concepts

1. Identify the suitable sensor and actuator for a mechatronics system

2. Select suitable logic controls

3. Analyse continuous control logics for standard input conditions

4. Develop ladder logic programming

5. Design hydraulic/pneumatic circuits

6. Design a mechatronic system

1. Demonstrate basics of industrial automation

2. Identify various types of automation

3. Demonstrate use of automated controls using pneumatic and hydraulic systems.

4. Illustrate the control systems in automated system.

5. Demonstrate applicability of PLC in process industry

6. Design elecrto-pneumatic circuits

1. Select appropriate gears for power transmission on the basis of given load and speed.

2. Design gears based on the given conditions.

3. Select bearings for a given applications from the manufacturers catalogue.

4. Select and/or design belts for given applications.

5. Design cam and follower and clutches

1. Identify proper computer graphics techniques for geometric modelling.

2. Transform, manipulate objects and store and manage data.

3. Prepare part programming applicable to CNC machines.

4. Use rapid prototyping and tooling concepts in any real life applications.

5. Identify the tools for Analysis of a complex engineering component.

1. Describe operating principles of compressors and pumps

2. Evaluate performance of reciprocating/rotary compressors

3. Illustrate and analyze characteristic curves of pumps

4. Interpret possibilities of energy conservation in pumping and compressed air systems

1. Illustrate production planning functions and manage manufacturing functions in a better way.

2. Develop competency in scheduling and sequencing in manufacturing operations and effect affordable manufacturing lead time.

3. Manage and control inventory with cost effectiveness.

4. Get conversant with various documents procedural aspects and preparation of orders for various manufacturing methods.

1. Comprehend various equipments/systems utilized in power plants

2. Discuss types of reactors, waste disposal issues in nuclear power plants

3. Illustrate power plant economics

1. Illustrate the need to optimally utilize the resources in various types of industries.

2. Apply and analyze mathematical optimization functions to various applications.

3. Demonstrate cost effective strategies in various applications in industry.

1. Design material handling systems such as hoisting mechanism of EOT Crane, belt conveyors.

2. Design engine components such as cylinder, piston, connecting rod and crankshaft from system design point of view.

3. Design pumps for the given applications.

4. Prepare layout of machine tool gear box and select number of teeth on each gear.

1. Illustrate the need for optimization of resources and its significance in manufacturing industries, in order to enhance overall productivity.

2. Develop capability in integrating knowledge of design along with other aspects of value addition in the conceptualization and manufacturing stage of various products.

3. Demonstrate the concept of value analysis and its relevance.

4. Manage and implement different concepts involved in methods study and understanding of work content in different situations.

5. Describe different aspects of work system design and facilities design pertinent to manufacturing industries.

6. Identify various cost accounting and financial management practices widely applied in industries.

1. Discuss fundamental refrigeration and air conditioning principles

2. Identify and locate various important components of the refrigeration and air conditioning system

3. Illustrate various refrigeration and air conditioning processes using psychometric chart

4. Design and analyze complete air conditioning system

1. Demonstrate need of different renewable energy sources and their importance

2. Calculate and analyse utilization of solar and wind energy

3. Illustrate design of biogas plant

4. Estimate alternate energy sources India

1. Demonstrate & explain various systems in an automobile

2. Describe importance and features of different systems like axle, differential, brakes, steering, suspension, wheel and balancing etc.

3. Explain principle of operation, construction and applications of various sensors used in modern automobile