Prepare for the viva voce before the committee.
B.TECH COMPUTER MECHANICAL ENGINEERING | |
Course Outcomes | |
Semester: 3 | |
Physics II (Optics & Waves) (BSC-ME- 201G) | |
BSC-ME- 201G.1 | Recall the concepts of harmonic and mechanical oscillators in details. |
BSC-ME- 201G.2 | Explain the phenomena of interference and diffraction in details. |
BSC-ME-201G.3 | Analyse wave optics and waves. |
BSC-ME-201G.4 | Illustrate construction of lasers and discuss its applications. |
Mathematics-III (BSC-ME- 203G) | |
BSC-ME- 203G.1 | Recall the basics of differential equations, probability & statistics. |
BSC-ME-203G.2 | Describe the basic concept of probability & partial differential equations. |
BSC-ME-203G.3 | Apply the various methods of probability, statistics & partial differential. |
BSC-ME-203G.4 | Determine the practical understanding of statistics, probability & partial differential equation. |
Biology (BSC-BIO- 205G) | |
BSC-BIO- 205G.1 | Recall the concepts of biology as an important scientific discipline. |
BSC-BIO-205G.2 | Explain the laws and concepts of genetics. |
BSC-BIO-205G.3 | Analyse the bio-molecules as the basis of life. |
BSC-BIO-205G.4 | Assess the role of genetic engineering and biotechnology in various fields. |
Basics of Electronics Engineering (ESC-ECE- 207G) | |
ESC-ECE-207G.1 | Recall the fundamental concepts of semiconductor components and devices. |
ESC-ECE-207G.2 | Understand the various aspects of oscillator, amplifier and electronic communication system. |
ESC-ECE-207G.3 | Demonstrate the Boolean algebra for simplify logic expression. |
ESC-ECE-207G.4 | Illustrate various OP amp applications such as amplifiers, integrators & differentiators. |
Engineering Mechanics (ESC-ME- 209G) | |
ESC-ME- 209G.1 | Understand the basic force system. |
ESC-ME- 209G.2 | Explain the concept of geometrical properties such as moment of inertia, centre of gravity. |
ESC-ME- 209G.3 | Apply conditions of equilibrium for solving problems of mechanics. |
ESC-ME-209G.4 | Analysis the behavior of object subjected to external loading. |
Economics For Engineers (HSMC-01G) | |
HSMC-01G.1 | Describe economics in context of Engineering. |
HSMC-01G.2 | Understanding all aspects /scope of economics. |
HSMC-01G.3 | Determine the phenomenon of demand and supply. |
HSMC-01G.4 | Differentiate the all possible costs occurring in context of Engineering. |
HSMC-01G.5 | Evaluating various consumer Equilibrium. |
HSMC-01G.6 | Formulate various strategies to different markets/situations. |
Basics of Mechanical Engineering (ESC-ME- 211G) | |
ESC-ME- 211G.1 | Define basics of various fields of mechanical engineering. |
ESC-ME- 211G.2 | Explain the concepts of solid mechanics, thermal engineering and fluid mechanics. |
ESC-ME- 211G.3 | Solve the problems of power transmission system. |
ESC-ME- 211G.4 | Compare the various machine tools. |
Thermodynamics (PCC-ME- 213G) | |
PCC-ME- 213G.1 | Define the fundamental laws of thermodynamics. |
PCC-ME- 213G.2 | Explain the applications of laws of thermodynamics to a wide range of systems. |
PCC-ME- 213G.3 | Apply energy balance to systems and control volumes, in situations involving heat and work interactions. |
PCC-ME- 213G.4 | Demonstrate the interrelations between thermodynamic functions to solve practical problems. |
PCC-ME- 213G.5 | Evaluate changes in thermodynamic properties of substances using steam tables and Mollier diagram. |
Basics of Mechanical Engineering Lab (LC-ME- 215G) | |
LC-ME- 215G.1 | Describe various boiler, accessories and IC engines. |
LC-ME- 215G.2 | Explain the power transmission systems. |
LC-ME- 215G.3 | Demonstrate refrigeration systems. |
LC-ME- 215G.4 | Appraise the basic structural mechanics. |
Semester: 4 | |
Applied Thermodynamics (PCC-ME- 202G) | |
PCC-ME- 202G.1 | List the various types of fuels used in power plants. |
PCC-ME- 202G.2 | Understand various properties of psychrometry & basics of compressible flow. |
PCC-ME- 202G.3 | Demonstrate simple VC cycle, air std cycle, gas & various power cycle. |
PCC-ME- 202G.4 | Analyze energy conversion in various thermal devices. |
Fluid Mechanics (PCC- ME- 204G) | |
PCC- ME- 204G.1 | Describe the properties of fluid along with pressure measurement. |
PCC-ME-204G.2 | Understand the characteristics of fluid and application of continuity and Bernoulli’s equation. |
PCC-ME-204G.3 | Apply conservation laws to fluid flow problems in engineering applications. |
PCC-ME-204G.4 | Analyse flows through pipes and open channels. |
PCC- ME-204G.5 | Evaluate velocity and pressure variations in various types of fluid flows. |
Strength of Materials (PCC- ME- 206G) | |
PCC- ME- 206G.1 | Understand the fundamental concepts of strength of materials. |
PCC- ME-206G.2 | Calculate shear force, bending moment, slope and deflection for various types of beams with different loading conditions. |
PCC- ME-206G.3 | Analyze the behavior of torsional members, columns, struts & thick and thin cylinders. |
PCC- ME-206G.4 | Evaluate the stress induced and deformation in various bodies subjected to loading. |
Materials Engineering (PCC- ME- 208G) | |
PCC-ME-208G.1 | List the defects in crystal and its effect on crystal properties. |
PCC-ME-208G.2 | Understand the methods of determining mechanical properties and their suitability for applications. |
PCC-ME-208G.3 | Interpret the phase diagrams of materials. |
PCC-ME-208G.4 | Select suitable heat-treatment process to achieve desired properties of metals and alloys. |
Instrumentation & Control (PCC- ME- 210G) | |
PCC- ME- 210G.1 | Recognize the concept of measurement and instrumentation. |
PCC- ME- 210G.2 | Explain different types of transducers used in measurement. |
PCC- ME- 210G.3 | Identify the devices used for motion, force and torque measurement. |
PCC- ME- 210G.4 | Classify the instruments used for measurement of pressure, flow and temperature |
Applied Thermodynamics Lab (LC- ME- 212G) | |
LC- ME- 212G.1 | Outline the various types of boilers, mountings & accessories. |
LC- ME- 212G.2 | Understand the working of steam turbine, steam condenser, cooling tower & reciprocating compressor. |
LC- ME- 212G.3 | Demonstrate the various components of steam power plant. |
LC- ME- 212G.4 | Analyze the performance parameters of various energy conversion devices. |
SOM Lab (LC- ME- 214G) | |
LC- ME- 214G.1 | Describe the UTM, torsion testing machine, Impact testing machine and hardness testing machine. |
LC- ME- 214G.2 | Understand the concepts of stress, strain of materials. |
LC- ME- 214G.3 | Compare Rockwell, Brinell & Vickers hardness testing machines. |
LC- ME- 214G.4 | Determine the tensile, compression and shear strength on UTM. |
Fluid Mechanics Lab (LC- ME- 216G) | |
LC-ME-216G.1 | Understand continuity and Bernoulli’s equation. |
LC-ME-216G.2 | Understand the techniques and concepts of stability. |
LC-ME-216G.3 | Determine the hydraulic losses under different conditions. |
LC-ME-216G.4 | Analyse the discharge measuring devices and hydraulic coefficients. |
Materials Lab (LC- ME- 218G) | |
LC-ME-214G.1 | Understand the microstructure of various metals. |
LC-ME-214G.2 | Explain the various testing methods for materials. |
LC-ME-214G.3 | Prepare the specimen for metallographic observation. |
Instrumentation Lab (LC- ME- 220G) | |
LC- ME- 220G.1 | Understand the applications of measurement system. |
LC- ME- 220G.2 | Understand the basic working principles of temperature, pressure and torsion measurement. |
LC- ME- 220G.3 | Identify the different variations of measurement parameters with various input conditions. |
LC- ME- 220G.4 | Analyze the primary, secondary and tertiary measurements. |
Environment Science (MC-106G) | |
MC-106G.1 | Describe various structure and functions of different ecosystem. |
MC-106G.2 | Summarize the over exploitation and their effects on valuable natural resources. |
MC-106G.3 | Illustrate various causes, effects and control measures of different types of pollution. |
MC-106G.4 | Appraise the environmental issues and their feasible solutions. |
Semester: 5 | |
Solid Mechanics (PCC- ME-303G) | |
PCC-ME-301G.1 | Understand the concepts of wireframe modeling, surface modeling and solid modeling. |
PCC-ME-301G.2 | Understand the method of manufacturing of liquid based, powder based and solid based techniques. |
PCC-ME-301G.3 | Demonstrate the knowledge of Computer Aided design and Additive Manufacturing. |
Solid Mechanics (PCC- ME-303G) | |
PCC-ME-303G.1 | Define basic terminologies like pressure vessels, springs, curved beams etc. |
PCC-ME-303G.2 | Apply the basic knowledge for solving the complex problems. |
PCC-ME-303G.3 | Analyse the behavior and response of members under complex conditions. |
PCC-ME-303G.4 | Evaluate the stresses induced in body under combined loading. |
Manufacturing Technology-I (PCC- ME-305G) | |
PCC- ME-305G.1 | Understand the mechanics of metal cutting, cutting tool materials, tool wear and cutting fluids. |
PCC- ME-305G.2 | Describe the construction & working of lathe, shaping, milling & drilling machines and gear cutting & finishing process. |
PCC- ME-305G.3 | Choose various fusion, friction and special welding, soldering and brazing processes. |
PCC- ME-305G.4 | Analyze foundry practices like pattern making, mold making, core making and Inspection of defects. |
PCC- ME-305G.5 | Select materials, types and allowances of patterns used in casting. |
Kinematics of Machine (PCC- ME-307G) | |
PCC- ME-307G.1 | Define DOF, inversion, velocity and gear ratio. |
PCC- ME-307G.2 | Classify kinematic chains, mechanisms, cams and followers, gears, gear trains and chains. |
PCC- ME-307G.3 | Understand the friction in journal bearing, laws of belting and gear tooth geometry. |
PCC- ME-307G.4 | Analyze the gear trains, cam profiles and kinematics of planar mechanisms. |
Fluid Machines (PCC- ME-309G) | |
PCC- ME-309G.1 | Describes construction and working principles of various hydraulic turbines, pumps and other hydraulic systems. |
PCC- ME-309G.2 | Explain the impact of jet on various types of vanes, dimensional number and their significance. |
PCC- ME-309G.3 | Solve the different problems based on hydraulic machines. |
PCC- ME-309G.4 | Evaluate the performance of various hydraulic turbines and pumps. |
Economics for Engineers (HSMC-01G) | |
HSMC-01G.1 | Describe Economics in context of Engineering. |
HSMC-01G.2 | Understanding all aspects /scope of economics. |
HSMC-01G.3 | Determine the phenomenon of demand and supply. |
HSMC-01G.4 | Differentiate the all possible costs occurring in context of Engineering. |
HSMC-01G.5 | Evaluating various consumer Equilibrium. |
HSMC-01G.6 | Formulate various strategies to different markets/situations. |
Computer Aided Design & Manufacturing Lab (LC-ME-311G) | |
LC-ME-311G.1 | Display of the basic fundamentals of modeling package. |
LC-ME-311G.2 | Explore the surface and solid modeling features. |
LC-ME-311G.3 | Learning the techniques of 3D modeling of various mechanical parts. |
LC-ME-311G.4 | Expedite the procedures and benefits of FEA and CAE. |
Fluid Machines Lab (LC-ME-313G) | |
LC-ME-313G.1 | State the basic layout of hydroelectric power plant. |
LC-ME-313G.2 | Explain the construction, working principles of Hydraulic turbines, hydraulic pumps and hydraulic systems. |
LC-ME-313G.3 | Sketch the performance characteristics curve of various hydraulic turbines, and other hydraulic systems. |
Kinematics of Machine Lab (LC-ME-315G) | |
LC-ME-315G.1 | Describe kinematic chains, mechanisms, cams and followers. |
LC-ME-315G.2 | Illustrate the working of screw jack and determine its efficiency. |
LC-ME-315G.3 | Distinguish various types of gears and gear trains. |
Design & Analysis of Algorithms using C++ (LC-CSE-325G) | |
LC-CSE-325G.1 | Describe and Implementation of various algorithms and to analyze the performance of algorithms. |
LC-CSE-325G.2 | Compare a familiarity with major algorithms and data structures. |
LC-CSE-325G.3 | Apply important algorithmic design paradigms and methods of analysis. |
LC-CSE-325G.4 | Construct efficient algorithms in common engineering design situations. |
Practical Training-I (PT-ME-317G) | |
PT-ME-317G.1 | Identify various technologies and fields for practical training to enhance employability skills. |
PT-ME-317G.2 | Understand the ability to adapt with the latest changes in the technological world. |
PT-ME-317G.3 | Applying engineering knowledge and ethical practices to solve industrial problems and demonstrate presentation skills. |
PT-ME-317G.4 | Analyze the ability of learning skills to be job ready with real corporate exposure. |
Essence of Indian Traditional knowledge (MC-315G) | |
MC-315G.1 | Describe the concepts of traditional knowledge. |
MC-315G.2 | Explain the need and importance of protecting traditions. |
MC-315G.3 | Illustrate various enactments related to the protection of traditional knowledge. |
MC-315G.4 | Outline the relationship between modern science and Indian knowledge system. |
Semester: 6 | |
Manufacturing Technology-II (PCC-ME-302G) | |
PCC-ME-302G.1 | Describe various manufacturing techniques. |
PCC-ME-302G.2 | Understand the concepts of metal cutting, tool geometry and group technology. |
PCC-ME-302G.3 | Apply the fundamental principles of locating and clamping devices. |
PCC-ME-302G.4 | Appraise the knowledge of different advanced manufacturing techniques. |
PCC-ME-302G.5 | Develop part program for various turning and drilling operations. |
Design of Machine Element-I (PCC- ME-304G) | |
PCC- ME-304G.1 | State various feasibility, fits, tolerances and engineering considerations in design. |
PCC- ME-304G.2 | Understand the design of various mechanical joints. |
PCC- ME-304G.3 | Use design data books in designing various machine components. |
PCC- ME-304G.4 | Analyze belts, power screws, brakes, clutches and flywheel for given applications. |
Heat Transfer (PCC- ME-306G) | |
PCC- ME-306G.1 | Define various elements used for dissipation of heat. |
PCC- ME-306G.2 | Understand the basic concept of conduction, convection & radiation heat transfer. |
PCC- ME-306G.3 | Apply basic laws of heat transfer to general life problems. |
PCC- ME-306G.4 | Analyze & solve heat transfer problems by finding out temperature distribution & heat transfer rate. |
Dynamics of Machines (PCC- ME-308G) | |
PCC- ME-308G.1 | Describe the static and dynamic force in machineries. |
PCC- ME-308G.2 | Identify balancing problems in rotating and reciprocating machineries. |
PCC- ME-308G.3 | Apply the concept of centrifugal governors in stationary engines |
PCC- ME-308G.4 | Examine different type of dynamometers and their applications. |
PCC- ME308G.5 | Evaluate the gyroscopic couple in ships, aeroplanes and road vehicles. |
Workshop Lab-I (LC-ME-310G) | |
LC-ME-310G.1 | Understand the factors governing tool life and types of tool wear. |
LC-ME-310G.2 | Compare theoretical machining time with actual machining time. |
LC-ME-310G.3 | Develop part program for various turning and drilling operations. |
Workshop Lab-II (LC-ME-312G) | |
LC-ME-312G.1 | Draw the various types of I.C. engines and cycles of operation. |
LC-ME-312G.2 | Identify the effect of various operating variables on engine performance. |
LC-ME-312G.3 | Demonstration of fuel metering and fuel supply systems for different types of engines. |
LC-ME-312G.4 | Analyze the suitability of conventional and non-conventional fuels for IC engines. |
Heat Transfer Lab (LC-ME-314G) | |
LC-ME-314G.1 | State the mechanism & modes of heat transfer. |
LC-ME-314G.2 | Demonstrate all modes of heat transfer through experiments. |
LC-ME-314G.3 | Interpret heat transfer enhancement mechanisms. |
LC-ME-314G.4 | Estimate the size & type of heat exchanger. |
Dynamics of Machines Lab (LC-ME-316G) | |
LC-ME-316G.1 | Count the sensitiveness and stability of different types of governors. |
LC-ME-316G.2 | Estimate gyroscopic couple. |
LC-ME-316G.3 | Illustrate the moment of inertia. |
LC-ME-316G.4 | Compare static and dynamic balancing. |
Seminar (PCC-ME-318G) | |
PCC-ME-318G.1 | Identify various technologies and recent trends in engineering. |
PCC-ME-318G.2 | Understand the basic concepts of extracurricular activities. |
PCC-ME-318G.3 | Apply skills in preparing detailed report describing project. |
PCC-ME-318G.4 | Effectively communicate by making an oral presentation before an evaluation committee. |
Internal Combustion Engines & Gas Turbines (PEC-ME-320G) | |
PEC-ME-320G.1 | Define various types of IC engines and cycles of operation. |
PEC-ME-320G.2 | Understand normal and abnormal combustion phenomenon in SI and CI engines. |
PEC-ME-320G.3 | Choose Fuel metering and fuel supply for different type of systems. |
PEC-ME-320G.4 | Analyze the effect of various operating variables on performance of engines of gas turbines. |
PEC-ME-320G.5 | Evaluate performance analysis of IC engine and justify the suitability of IC engine for different applications. |
Fundamentals of Management (HSMC -08G) | |
HSMC -08G.1 | Define the fundamental concepts of management. |
HSMC -08G.2 | Explain the management functions of the organization- human resource management, marketing management, production management and financial management. |
HSMC -08G.3 | Examine knowledge of each of the functional areas of business human resource management, marketing management, production management and financial management. |
Semester: 7 | |
Strength of Material-II (ME-401-F) | |
ME-401-F.1 | Describe the Hook’s law and state of stress at a point. |
ME-401-F.2 | Apply the basic knowledge for solving the complex problem. |
ME-401-F.3 | Analyse the behavior and response of members under complex loading. |
ME-401-F.4 | Evaluate the stresses induce in body under combined loading. |
Refrigeration & Air- Conditioning (ME-403-F) | |
ME-403-F.1 | Understand the principles and applications of Refrigeration system. |
ME-403-F.2 | Compare Vapour Compression and Vapour Absorption. |
ME-403-F.3 | Illustrate the Air Conditioning processes using principles of Psychrometry. |
ME-403-F.4 | Analyze the performance of Vapour Compression Refrigeration System and various Air Conditioning processes. |
ME-403-F.5 | Evaluate Cooling and Heating Loads in Air Conditioning system. |
Operation Research (ME-405-F) | |
ME-405-F.1 | List various models and applications of operation research. |
ME-405-F.2 | Understand the importance of transportation, assignment, PERT and CPM techniques for project management. |
ME-405-F.3 | Solve an LP problem by graphical, simplex & dual simplex method and interpret its optimal solution. |
ME-405-F.4 | Differentiate between various queuing models used in industries. |
ME-405-F.5 | Defend them by taking right decision under various decisions – making environments. |
Power Plant Engineering (ME-407-F) | |
ME-407-F.1 | Describe the Basic knowledge of Different types of Power Plants, Non-conventional Energy sources. |
ME-407-F.2 | Explain the Power Plant Operations, turbine governing. |
ME-407-F.3 | Demonstrate various power generation methods. |
ME-407-F.4 | Examine the power plant economics , environmental and safety aspects |
Mechanical Vibration (ME-409-F) | |
ME-409-F.1 | State the fundamentals of vibration and its types. |
ME-409-F.2 | Understand the causes and effects of vibration in mechanical systems. |
ME-409-F.3 | Apply the governing equations of motion to schematic physical models. |
ME-409-F.4 | Analyze rotating and reciprocating systems and compute critical speeds. |
ME-409-F.5 | Evaluate machine supporting structures, vibration isolators and absorbers with a perspective of health and safety. |
Quality Engineering (ME-417-F) | |
ME-417-F.1 | Define the importance of quality and philosophy of quality. |
ME-417-F.2 | Describes quality control, statistical quality control and total quality management. |
ME-417-F.3 | Apply the traditional and latest quality management tools and techniques. |
ME-417-F.4 | Analyze the quality of manufacturing and service processes. |
Refrigeration & Air- Conditioning Lab (ME-411-F) | |
ME-411F .1 | Define refrigerant compressors, expansion devices used in vapour compression refrigeration system, thermostat with range and differential setting & charging of refrigeration system. |
ME-411F .2 | Explain the humidification, cooling, heating and dehumidification processes. |
ME-411F .3 | Evaluate cycle performance and actual coefficient of performance of Ice plant. |
Advanced CAD/CAM Lab (ME-413-F) | |
ME-413F .1 | List various commands used in 3D CAD modelling. |
ME-413F .2 | Describe the part programming and G&M codes development for machining operations. |
ME-413F .3 | Use 3D modelling software’s for construction of machine parts and assembly drawing. |
ME-413F .4 | Design various machine part & assembly drawings. |
Practical Training-II (ME-415-F) | |
ME-415-F.1 | Identify various technologies and fields for practical training. |
ME-415-F.2 | Understand the process to make reports and presentation. |
ME-415-F.3 | Applying engineering knowledge to solve industrial problems. |
ME-415-F.4 | Analyze ethical practices and tools used in different technologies. |
ME-415-F.5 | Evaluate the performance on parameters such as communication skills, technical knowledge. |
ME-415-F.6 | Design and develop the skills to make software/hardware, related to industrial training. |
General Fitness for the Profession (GFME- 435-F) | |
GFME- 435-F.1 | Identify the basic knowledge and academic performance. |
GFME- 435-F.2 | Understand the basic concept of Extracurricular activities. |
GFME- 435-F.3 | Examine contribution in NSS social welfare relief and other society. |
GFME- 435-F.4 | Evaluate briefly academic performance & achievements. |
GFME- 435-F.5 | Prepare for the viva voce before the committee. |
Semester: 8 | |
Industrial Training/Institutional Project Work (CSE- 402-F ) | |
ME- 402-F .1 | Identify various technologies and fields for practical training. |
ME- 402-F .2 | Understand the process to make reports and presentation. |
ME- 402-F .3 | Applying engineering knowledge to solve industrial problems. |
ME- 402-F .4 | Analyze ethical practices and tools used in different technologies. |
ME- 402-F .5 | Design and develop the solution for complex engineering problems. |