B.E. Third Semester

Course Name : Applied Mathematics-III
Code : BEME301T
At the end of course Students will be able to –
CO1	Analyse Integral Transform techniques such as Laplace transform and apply Laplace Transform to solve Ordinary Differential Equations.
CO2	Apply Fourier Transform to Solve Integral Equation.
CO3	Calculate the maxima and minima value for functions of two variables.
CO4	Apply Complex variables to solve analytic functions, Taylor’s & Lauren’s series, Contour integration.
CO5	Analyse Ordinary and partial differential equations applied to Mechanical engineering such as mechanical vibrations and heat transfer.
CO6	Find the Eigen values and Eigen vectors to diagonalise and reduce a matrix to quadratic form.

Course Name : Kinematics of Machines
Code : BEME302T
At the end of course Students will be able to –
CO1	Design a suitable mechanism depending on application.
CO2	Draw velocity mechanisms.	and	acceleration	diagrams	for	different
CO3	Draw displacement diagrams and cam profile diagram for followers executing different types of motions and various configurations of followers.
CO4	Select gear and gear train depending on application.
CO5	Synthese Mechanism by graphical method.
CO6	Understand law of friction and design Clutches, Brakes & Dynamometers.

Course Name : Fluid Mechanics
Code : BEME303T
At the end of course Students will be able to –
CO1	Understand and describe concept of fluids and their properties.
CO2	Compute and measure pressure and force of buoyancy on a partially or fully submerged body and analyze the stability of a floating body.
CO3	Derive Euler’s Equation of motion and Deduce Bernoullis equation.
CO4	Apply dimensional analysis to predict physical parameters that influence the flow in fluid mechanics.
CO5	Examine energy losses in pipe transitions and sketch energy gradient lines.
CO6	Develop analytical abilities related to boundary layer and flow around immersed bodies.

Course Name : Manufacturing Process
Code : BEME304T
At the end of course Students will be able to –
CO1	Learn principles, operations moulding.	and	capabilities	of	various
CO2	Understand Gating System & Casting Processes and types of melting furnaces.
CO3	Select appropriate Joining Processes to join Work piece.
CO4	Differentiate various metal forming processes such as Hot and Cold Working, Rolling, Forging, Extrusion and Drawing Processes.
CO5	Apply suitable processes of press working for an engineering product.
CO6	Understand and describe importance of processing on plastics and its applications to industry

Course Name : Engineering Metallurgy
Code : BEME305T
At the end of course Students will be able to –
CO1	Identify engineering materials and understand the concepts of crystal structure, micro-structure and deformation.
CO2	Understand and draw equilibrium diagrams, describe its uses and limitations and understand solidification of pure metals.
CO3	Acquire the knowledge of phase diagrams which are useful for design and control of heat treating processes.
CO4	Select steel for various applications.
CO5	Understand various ferrous & non ferrous metals & alloys with engineering applications.
CO6	Apply non-destructive tests & powder metallurgy.

Course Name : Machine Drawing
Code : BEME306P
At the end of course Students will be able to –
CO1	Understand the principles and requirements of machine & production drawings.
CO2	Study orthographic Projections of Elements, References, Alignments and Dimensioning.
CO3	Study qualitative selection of type / size of various mechanical components.
CO4	Assemble and Dismantle Principles, Fits and Tolerances.
CO5	Assemble and disassemble important parts used in major mechanical engineering applications.
CO6	Produce name plates, drawings of mechanical components and their assemblies.

B.E. Forth Semester

Course Name : Applied Mathematics-IV
Code : BEME402T
At the end of course Students will be able to –
CO1	Apply mathematical concepts and principles to perform computations using Numerical methods.
CO2	Solve ordinary differential equations.
CO3	Apply mathematics to solve problems on Z-Transform and Series.
CO4	Find Series solution of differential equation and generate functions of recurrence relations.
CO5	Develop problem-solving techniques needed to accurately calculate probabilities.
CO6	Apply problem-solving techniques to solving real-world events.

Course Name : Engineering Thermodynamics
Code : BEME402T
At the end of course Students will be able to –
CO1	Describe fundamental laws of thermodynamics and its applications to various thermodynamic processes.
CO2	Apply First law of thermodynamics for Closed System undergoing a process and cycle.
CO3	Apply the concepts such as Entropy, Energy Balance and applications of First law of thermodynamics.
CO4	Examine the condition of steam and calculations of Work and Heat Transfer during various Thermodynamic Processes with steam as working fluid.
CO5	Study of various vapor power cycles.
CO6	Analyse various air standard cycles such as Otto, Diesel, Dual cycles.

Course Name : Hydrolic Machines
Code : BEME403T
At the end of course Students will be able to –
CO1	Study different types of flows and channels.
CO2	understand and compute the performance of turbines.
CO3	Draw Velocity diagram and analyze various types of turbines.
CO4	Develop ability enhancement for the analysis and performance evaluation of centrifugal pumps.
CO5	Analyse positive displacement pumps and its work done.
CO6	Test Models and apply its knowledge to hydraulic turbine and hydrodynamic pumps.

Course Name : Machining Processes
Code : BEME404T
At the end of course Students will be able to –
CO1	Understand working of mechanisms of various machine tools and machining principles.
CO2	Construct simple lathe mechanism and attachments for various operations.
CO3	Identify the machining parameters, different types of cutting tool materials, cutting fluids and their properties.
CO4	Understand the importance of machining processes such as milling for gear operations.
CO5	Compute Process parameters and attainable grades of surface finish, surface measurement.
CO6	Apply the suitable machining processes for an engineering product.

Course Name : Mechanics of Material
Code : BEME405T
At the end of course Students will be able to –
CO1	Understand and explain the basic concepts of stress, strain and their variations under different types of loading.
CO2	Study and describe basic concepts involved in mechanics of materials.
CO3	Determine deflection of beam, principal stresses and strains.
CO4	Understand torsional shear stress in shaft, crippling load in struts and columns.
CO5	Describe fracture mechanics and Strain energy & impact loading.
CO6	Analyze different stresses, strains and deflections in a simple mechanical element under various loading and support conditions.

B.E. Fifth Semester

Course Name : Industrial Economics and Entrepreneurship Development
Code : BEME501T
At the end of course Students will be able to –
CO1	Understand and explain supply and demand analysis.
CO2	Define and explain concepts and laws related to production and solve problems of BEP and Depreciation.
CO3	Understand share market & some concepts of macroeconomics like inflation, deflation, stagflation and the types of market structure.
CO4	Understand concept of Creativity, Innovation, Invention, Discovery, Creativity and laws related to IPR and patent.
CO5	Know the Industries.	basics	of	entrepreneurship	and	Small	Scale
CO6	Explain the financial agencies and entrepreneurship support Government system & Agencies and Analyze the factors governing to project selection

Course Name : Design of Machine Elements
Code : BEME502T
At the end of course Students will be able to –
CO1	Understand the fundamentals of Mechanical Engineering Design, Design methods, Aesthetic and Ergonomics Consideration in design.
CO2	Design bolted and welded joints, Cylinder & Pressure Vessels.
CO3	Design shaft for power transmission, design of Springs.
CO4	Understand design of various mechanical joints, machine components such as shaft, keys, brakes clutches, power screws.

Course Name : Advanced Production Processes
Code : BEME503T
At the end of course Students will be able to –
CO1	Illustrate & Distinguish principles, operation and capabilities of different Non- conventional machining Processes and its applications.
CO2	Distinguish the principles, operations and capability of different Advanced joining Processes.
CO3	Compare the constructional details, mechanisms involved and working principle of Capstan and turret lathe machines
CO4	Illustrate & Select an appropriate press and press working operations for manufacturing sheet metal components.
CO5	Select appropriate jigs, fixtures and locating devices for various machining operations.
CO6	Select and apply appropriate super finishing operations for obtaining required precision and accuracy.

Course Name : Heat Transfer
Code : BEME504T
At the end of course Students will be able to –
CO1	Classify the basic modes of heat transfer and Explain the law and mechanism of heat transfer by conduction, convection and radiation.
CO2	Define the equations for conduction heat transfer and Apply it to calculate the heat transfer and temperature distribution in various geometries.
CO3	Apply the concept of hydrodynamic and thermal boundary layer and Find the heat transfer coefficient for given flow field.
CO4	Apply knowledge of Dimensional Analysis to free convection.
CO5	Analyse radiation with and without radiation shield.
CO6	Analyse & design heat exchangers.

Course Name : Mechanical Measurement and Metrology
Code : BEME505T
At the end of course Students will be able to –
CO1	Explain static and dynamic characteristics of any instrument and calibrate the instrument.
CO2	Understand Classification, Principle, Sensing elements, Signal conditioning elements of Linear and Angular Displacement, Speed, Load, Strain, Force, Torque and Power.
CO3	Compare various instruments and use it for measuring variables like pressure, force, power, speed, light etc.
CO4	Understand various instruments for the measurement of different parameters.
CO5	Design Limit gauge and Process planning sheet and numerical treatment on it.
CO6	Understand use of Optical profile projectors, Tool maker’s microscope and Autocollimator.

Course Name : Computer Applications- I
Code : BEME506P
At the end of course Students will be able to –
CO1	Solve engineering problems using computers with knowledge of C/C++ programming.
CO2	Write the programs for Numerical Methods & Solve problem in the area of Mechanical Engineering
CO3	Understand the concept of OOPs and mathematical software.
CO4	Explore Softwares like MATLAB/ MATHCAD/ SCILAB / MATHEMATICA or any other relevant commercial software/s or freeware/s.

B.E. Sixth Semester

Course Name : Energy Conversion – I
Code : BEME601T
At the end of course Students will be able to –
CO1	Explain practical applications of thermodynamics and thermal layout.
CO2	Describe Draught and its classification
CO3	Understand Bubbling fluidized bed boilers, circulating fluidized bed boilers and Cogeneration.
CO4	Understand and Explain Steam nozzles and steam turbine.
CO5	Describe Energy losses in steam turbines, flow of steam through turbine.
CO6	Describe Types of condensers, classification of condensers, quality and quantity of cooling water required.

Course Name : Control Systems Engineering
Code : BEME602T
At the end of course Students will be able to –
CO1	Explain concepts related to the operation, analysis and stabilization of control systems.
CO2	Explain various types of control systems and analyze system stability using analytical and graphical techniques.
CO3	Analyze system stability in Time Domain and Frequency Domain.
CO4	Get Mathematical model and Transfer function of engineering systems.
CO5	Explain State space representation of Continuous Time systems.
CO6	Describe various control systems & explain their stability analysis.

Course Name : Operations Research
Code : BEME603T
At the end of course Students will be able to –
CO1	Explain the concept of Operations Research & basics of O.R. Models.
CO2	Evaluate Transportation Model and Assignment Model.
CO3	Explain Game Theory and Sequencing Model.
CO4	Explain Project Management and Describe formation of Network.
CO5	Explain and Analyse Replacement Model.
CO6	Explain Queuing Theory and Concept, applications in waiting line.

Course Name : Mechatronics
Code : BEME604T
At the end of course Students will be able to –
CO1	Understand and describe key elements of mechatronics systems.
CO2	Explain System Interfacing and Data Acquisition.
CO3	Understand and explain Mechanical and electrical Actuating Systems.
CO4	Explain the fundamentals of Digital logic and Components of Microprocessors.
CO5	Describe Programmable Logic Controller.
CO6	Explain the concept of SCADA, Electronics Interface Subsystems and Micro Electro Mechanical Systems.

Course Name : Dynamics Of Machines
Code : BEME605T
At the end of course Students will be able to –
CO1	Explain Concepts in machine element dynamics and D’Alembert principle
CO2	Evaluate Dynamic force analysis of planar linkages.
CO3	Evaluate Static & Dynamic balancing in rotating machines.
CO4	Explain Turning moment Vs crank angle diagram for single cylinder and multiple-cylinder engines.
CO5	Derive equation of motion for vibratory system.
CO6	Analyse motion for two-degree-of-freedom system

B.E. Seventh Semester

Course Name : Industrial Engineering
Code : BEME701T
At the end of course Students will be able to –
CO1	Explore the knowledge and skills for designing work system as a form of integrated system.
CO2	Describe the planning and controlling of a production system.
CO3	Develope an ability to design a facility lay out.
CO4	Evaluate the problem and organization of design process and value engineering skill.
CO5	Apply methods in value engineering to improve the competitiveness of product/service.
CO6	Apply ergonomics principles in industry and for planning and controlling maintenance system.

Course Name : Automobile Engineering
Code : BEME702T (Elective-1)
At the end of course Students will be able to –
CO1	Explain the basic concepts of automobile and its components.
CO2	Describe the engine auxiliary system used in SI and CI engine.
CO3	Ellaborate the various types of chassis, frame and functions of IC engine parts.
CO4	Describe the difference between the manual transmission systems with automatic transmission systems.
CO5	Understand and explain electrical systems used in automobile.
CO6	Explain the basics of vehicle, its components and recent advances in automobiles.

Course Name : Computer Aided Design
Code : BEME703T
At the end of course Students will be able to –
CO1	develop a framework where the designer works with computer to develop an Engineering system.
CO2	Explain design process, computer graphics & procedure about the geometrical modeling of engineering objects.
CO3	Explain the various types of curves, patches and surfaces and the constructive solid geometry with Boundary representation techniques.
CO4	Understand and describe controls on modeling parameter and graphics visualization techniques using computer.
CO5	Analyze application of numerical method (FEA) for the analysis of mechanical elements.
CO6	Explain numerical methods for modeling, designing & analysis of mechanical components.

Course Name : Energy Conversion – II
Code : BEME704T
At the end of course Students will be able to –
CO1	Explain the energy conversion systems and power generation systems.
CO2	Explain the construction, operation and analysis of air compressors.
CO3	Describe the construction, operation and analyse internal combustion engines.
CO4	Explain conventional refrigeration and air conditioning.
CO5	Evaluate the performance of air compressors and internal combustion engines.
CO6	Evaluate the performance of refrigeration and air conditioning Installations.

Course Name : Design of Mechanical Drives
Code : BEME705T
At the end of course Students will be able to –
CO1	Explain design principles & design procedure of mechanical drives
CO2	Design belt drives (flat belt, V-belt), chain drives, rope drives, belt drive pulleys & chain sprockets.
CO3	Design journal bearing, IC engine components & Select antifriction bearings.
CO4	Design coupling and flywheel.
CO5	Design spur and straight helical gears based on strength and wear consideration.
CO6	Design straight bevel gear, worm gear pair and cross helical gear.

B.E. Eighth Semester

Course Name : Industrial Management
Code : BEME801T
At the end of course Students will be able to –
CO1	Explain the concept of administration & management.
CO2	Explain the recruitment, man power planning at industry as well as various aspect governing with industrial acts.
CO3	Explain plant management, Lay-outs, Industrial safety programes, classification of production systems.
CO4	Explain product Life cycle, Pricing, Channel of product distribution, concept of material management, Purchase function, Vender Selection, Ethics in purchasing and various codifications
CO5	Describe concept of finance management, various sources of generating the finance.
CO6	Explain account & recent trends in management.

Course Name : Refrigeration & Air-Conditioning
Code : BEME802T(Elective-II)
At the end of course Students will be able to –
CO1	Explain the basic concept of refrigeration and air conditioning.
CO2	Describe the non conventional refrigeration system and cryogenics.
CO3	Evaluate the psychometric processes, heat load calculations.
CO4	Evaluate design of air conditioning system performance and industrial applications.
CO5	Explain transmission and distribution of conditioned air.
CO6	Explain environmental impact of refrigerants and alternative refrigerants.

Course Name : Advanced Manufacturing Techniques
Code : BEME803T(Elective-III)
At the end of course Students will be able to –
CO1	Understand and explain non traditional machining processes for processing of engineering materials.
CO2	Explain Abrasive Jet Machining, Mechanics of AJM-process parameters & Compute Machining parameters.
CO3	Explain Electro-Chemical Machining.
CO4	Explain unconventional welding techniques such as Inert Gas (MIG & TIG).
CO5	Understand and Describe Solid Phase welding techniques such as Ultrasonic welding.
CO6	Explain Advance casting process.

Course Name : Automation in Production
Code :BEME804T
At the end of course Students will be able to –
CO1	Understand and describe fundamentals of automation and types of automation.
CO2	Evaluate Numerical control system, NC machines.
CO3	Understand and explain Industrial Robotics.
CO4	Explain Automated material handling & storage.
CO5	Explain Automated inspection & Group technology.
CO6	Explain Computer aided manufacturing and flexible manufacturing system [FMS].

Course Name : Energy Conversion – III
Code :BEME805T
At the end of course Students will be able to –
CO1	Explain Gas Turbines plants.
CO2	Explain Principles & working of turbojet, tuboprop, Ramjet and pulse jet
CO3	Explain Principle of solar energy collection, solar energy and sources of power generation
CO4	Explain the current energy scenario, various energy conservation techniques, energy auditing
CO5	Explain various Hydraulics and Pneumatic techniques used in various applications.