Program: B.Tech. – ME 3rd |
Course: Engineering Mechanics |
Course Code: |
ESC-ME- 209G |
COURSE OUTCOMES |
Students will be able to: |
ESC-ME- 209G.1 |
Define the basic terminologies and fundamentals of engineering mechanics. |
ESC-ME- 209G.2 |
Understand the vector algebra, kinematics, dynamics and geometrical properties. |
ESC-ME- 209G.3 |
Apply the theorems and principles to solve the problems of engineering mechanics. |
ESC-ME- 209G.4 |
Analyze the structural members subjected to external loading. |
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Course: Basics of Mechanical Engineering |
Course Code: |
ESC-ME- 211G |
COURSE OUTCOMES |
Students will be able to: |
ESC-ME- 211G.1 |
Recall the basic concepts of mechanical engineering. |
ESC-ME- 211G.2 |
Understand the concepts of machine tools, metal cutting operations and hydraulic machines. |
ESC-ME- 211G.3 |
Understand the fundamentals of solid mechanics, thermal engineering & RAC. |
ESC-ME- 211G.4 |
Apply the concepts & knowledge to solve the engineering problems. |
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Course: Thermodynamics |
Course Code: |
PCC-ME- 213G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME- 213G.1 |
Define the technical terms related to thermal engineering. |
PCC-ME- 213G.2 |
Understand the thermodynamics laws, cycles and applications. |
PCC-ME- 213G.3 |
Apply the knowledge of thermodynamics to solve the real life problem. |
PCC-ME- 213G.4 |
Analyze various parameters associated to thermal engineering and its applications. |
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Course: Physics II (Optics & Waves) |
Course Code: |
BSC-ME- 201G |
COURSE OUTCOMES |
Students will be able to: |
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 |
Demonstrate the construction of lasers and discuss its applications. |
BSC-ME- 201G.4 |
Analyze wave optics and waves. |
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Course: Mathematics-III |
Course Code: |
BSC-ME- 203G |
COURSE OUTCOMES |
Students will be able to: |
BSC-ME- 203G.1 |
Recall the basics of differential equations, probability & statistics. |
BSC-ME- 203G.2 |
Understand the basic concept of probability & partial differential equations. |
BSC-ME- 203G.3 |
Apply the knowledge of probability, statistics and partial differential equations to solve the engineering problems. |
BSC-ME- 203G.4 |
Solve problems involving PDES, random variables and statistical methods. |
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Course: Biology |
Course Code: |
BSC-BIO- 205G |
COURSE OUTCOMES |
Students will be able to: |
BSC-BIO- 205G.1 |
Define the concepts of biology as an important scientific discipline. |
BSC-BIO- 205G.2 |
Explain the laws and concepts of genetics. |
BSC-BIO- 205G.3 |
Understand various aspects of bio-molecules as the basis of life. |
BSC-BIO- 205G.4 |
Apply the knowledge of genetic engineering and biotechnology in various fields. |
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Course: Basics of Electronics Engineering |
Course Code: |
ESC-ECE- 207G |
COURSE OUTCOMES |
Students will be able to: |
ESC-ECE- 207G.1 |
Define the basic terminologies of electronics and communications systems. |
ESC-ECE- 207G.2 |
Understand the fundamentals of oscillator, amplifier, digital electronics and electronic communication system. |
ESC-ECE- 207G.3 |
Apply the knowledge of electronics and communication system to solve the engineering problems. |
ESC-ECE- 207G.4 |
Analyze the characteristics of electronics and communication systems. |
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Course: Basics of Mechanical Engineering Lab |
Course Code: |
LC-ME- 215G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 215G.1 |
Describe various boilers with its mountings, accessories and IC engines. |
LC-ME- 215G.2 |
Determine various mechanical parameters such as MA, VR, MOI and efficiency of different mechanical devices. |
LC-ME- 215G.3 |
Examine the elastic properties of different members such as beams & curved bars. |
LC-ME- 215G.4 |
Analyse the structural behaviour of different members such as truss, hinged arc etc. |
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Program: B.Tech. – ME 4th |
Course: Applied Thermodynamics |
Course Code: |
PCC-ME- 202G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME- 202G.1 |
Define basic terminologies related to thermal engineering. |
PCC-ME- 202G.2 |
Understand the concepts of energy conversion. |
PCC-ME- 202G.3 |
Apply the knowledge of thermal engineering. |
PCC-ME- 202G.4 |
Analyze the performance of thermodynamics system. |
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Course: Fluid Mechanics |
Course Code: |
PCC- ME- 204G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME- 204G.1 |
Define the fundamentals of fluid mechanics. |
PCC- ME- 204G.2 |
Understand the laws, equations and theorems of fluid static, kinematics and dynamics. |
PCC- ME- 204G.3 |
Apply the principles of fluid mechanics to solve practical engineering problems. |
PCC- ME- 204G.4 |
Analyze the various types of flow and its properties. |
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Course: Strength of Materials |
Course Code: |
PCC- ME- 206G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME- 206G.1 |
Recall the basic fundamentals of strength of materials. |
PCC- ME- 206G.2 |
Derive the expression for stress, strain, deflection and moment of inertia for different structural members. |
PCC- ME- 206G.3 |
Apply the appropriate methods to solve different engineering problems. |
PCC- ME- 206G.4 |
Analyze the behavior of the various structural members subjected to different loading conditions. |
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Course: Materials Engineering |
Course Code: |
PCC- ME- 208G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME- 208G.1 |
Define various technical terms related to materials science. |
PCC- ME- 208G.2 |
Understand the concept and process of material science. |
PCC- ME- 208G.3 |
Apply the knowledge of material engineering in real life situations. |
PCC- ME- 208G.4 |
Analyze different properties of materials and parameters. |
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Course: Instrumentation & Control |
Course Code: |
PCC- ME- 210G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME- 210G.1 |
Define the technical terms associated with measurement and instrumentation. |
PCC- ME- 210G.2 |
Explain the fundamental concepts of instrumentation & control. |
PCC- ME- 210G.3 |
Demonstrate the knowledge of measuring devices and instruments in real life situations. |
PCC- ME- 210G.4 |
Analyze the characteristics of different measuring devices and control systems. |
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Course: Environmental Science |
Course Code: |
MC-106G |
COURSE OUTCOMES |
Students will be able to: |
MC-106G.1 |
Define the terms related to environment science. |
MC-106G.2 |
Understand the environmental concepts, natural, man made systems and problems related to environment. |
MC-106G.3 |
Apply critical thinking for conservation of biodiversity, social quality and sustainable development. |
MC-106G.4 |
Analyze the complex environmental social challenges to design their solutions. |
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Course: Applied Thermodynamics Lab |
Course Code: |
LC-ME- 212G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 212G.1 |
Understand the various types of boilers, mountings & accessories and various turbines. |
LC-ME- 212G.2 |
Calculate the efficiency of steam condenser & air compressor. |
LC-ME- 212G.3 |
Find the efficiency of the steam turbine and cooling tower. |
LC-ME- 212G.4 |
Determine dryness fraction of steam and heat losses. |
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Course: Strength of Materials Lab |
Course Code: |
LC-ME- 214G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 214G.1 |
Understand different types of indenters, loads, and scales used in hardness test. |
LC-ME- 214G.2 |
Demonstrate the torsion testing machine and Enrichen sheet metal testing machine. |
LC-ME- 214G.3 |
Compare impact strength of materials using Charpy and Izod impact test. |
LC-ME- 214G.4 |
Evaluate mechanical properties of materials under different loading conditions. |
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Course: Fluid Mechanics Lab |
Course Code: |
LC-ME- 216G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 216G.1 |
Determine the coefficient of discharge for different flow meters. |
LC-ME- 216G.2 |
Calculate friction factor,Reynolds no and losses of flow through pipes. |
LC-ME- 216G.3 |
Analysis of stability of floating bodies and vortex flow. |
LC-ME- 216G.4 |
Verify the momentum equation and Bernoulli’s Theorem. |
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Course: Materials Engineering Lab |
Course Code: |
LC-ME- 218G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 218G.1 |
Understand the properties of plastics and chemical corrosion. |
LC-ME- 218G.2 |
Describe crystal structure & imperfection. |
LC-ME- 218G.3 |
Examine the microstructure & their defects in different specimen. |
LC-ME- 218G.4 |
Show creep behaviour & heat treatment process for a given specimen. |
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Course: Instrumentation Lab |
Course Code: |
LC-ME- 220G |
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COURSE OUTCOMES |
Students will be able to: |
LC-ME- 220G.1 |
Understand the working of various measuring instruments. |
LC-ME- 220G.2 |
Use various transducer for measurement of physical quantities like temperature, pressure, displacement, speed & torque. |
LC-ME- 220G.3 |
Calculate the errors present in measuring instruments and calibrate them. |
LC-ME- 220G.4 |
Analyze static and dynamic characteristics of measurement system. |
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Program: B. Tech. – ME 5th |
Course: Computer Aided Design & Manufacturing |
Course Code: |
PCC-ME-301G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME-301G.1 |
Define the fundamental concepts of CAD/CAM/CAE. |
PCC-ME-301G.2 |
Explain the fundamentals of additive manufacturing & flexible manufacturing systems |
PCC-ME-301G.3 |
Apply the appropriate method to solve the modeling problems. |
PCC-ME-301G.4 |
Analyze the engineering problems to design and develop its solution. |
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Course: Solid Mechanics |
Course Code: |
PCC- ME-303G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME-303G.1 |
Define fundamental concepts and properties of materials. |
PCC- ME-303G.2 |
Derive the theorems and equations related to force, stress, and displacement. |
PCC- ME-303G.3 |
Apply appropriate methods to solve numerical problems related to structural elements. |
PCC- ME-303G.4 |
Analyzing the behavior and response of a body under different loading conditions. |
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Course: Manufacturing Technology-I |
Course Code: |
PCC- ME-305G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME-305G.1 |
Recall the basic fundamentals of manufacturing technology. |
PCC- ME-305G.2 |
Understand various tools, operations, techniques and processes of manufacturing. |
PCC- ME-305G.3 |
Apply the knowledge of manufacturing technology and metrology to address the practical challenges. |
PCC- ME-305G.4 |
Analyze the various parameters, tools, processes and defects associated with manufacturing technology. |
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Course: Kinematics of Machine |
Course Code: |
PCC- ME-307G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME-307G.1 |
Define basic terminologies related to kinematics of machines. |
PCC- ME-307G.2 |
Understand the kinematic mechanisms and working principles of power elements. |
PCC- ME-307G.3 |
Apply appropriate laws & methods to solve the problems of kinematics of machines. |
PCC- ME-307G.4 |
Analyze the behavior and motion of different mechanisms and elements. |
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Course: Fluid Machines |
Course Code: |
PCC- ME-309G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME-309G.1 |
Define various components of fluid machines. |
PCC- ME-309G.2 |
Describe construction and working principles of hydraulic machines & systems. |
PCC- ME-309G.3 |
Calculate the work done and impact of jets on different surfaces. |
PCC- ME-309G.4 |
Analyze the performance characteristics of various hydraulic machines. |
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Course: Practical Training-I |
Course Code: |
PT-ME-317G |
COURSE OUTCOMES |
Students will be able to: |
PT-ME-317-G.1 |
Identify different tools, techniques & departments in the industry |
PT-ME-317-G.2 |
Understand the organization structure, advanced tools and techniques. |
PT-ME-317-G.3 |
Applying engineering knowledge and ethical practice to solve industrial problems. |
PT-ME-317-G.4 |
Analyze the experimental data of machine tools. |
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Course: Essence of Indian Traditional knowledge |
Course Code: |
MC-315G |
COURSE OUTCOMES |
Students will be able to: |
MC-315G.1 |
Define the concepts of traditional knowledge. |
MC-315G.2 |
Explain the need and importance of protecting traditions. |
MC-315G.3 |
Apply various enactments related to the protection of traditional knowledge. |
MC-315G.4 |
Outline the relationship between modern science and the Indian knowledge system. |
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Course: Economics for Engineers |
Course Code: |
HSMC-01G |
COURSE OUTCOMES |
Students will be able to: |
HSMC-01G.1 |
Define various terms of economics in context of Engineering. |
HSMC-01G.2 |
Explain fundamental concepts of economics in various sectors. |
HSMC-01G.3 |
Apply the knowledge of economics in real life scenarios. |
HSMC-01G.3 |
Analyze the effects of economic changes and policies. |
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Course: CAD&M Lab |
Course Code: |
LC-ME- 311G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 311G.1 |
Understand the basic commands of CAD&M. |
LC-ME- 311G.2 |
Use of advanced tool to print coupling, crankshaft, pulley, piston, connecting rod, nut and bolts. |
LC-ME- 311G.3 |
Apply CAD tools for making models of engineering components and assemblies. |
LC-ME- 311G.4 |
Apply the knowledge of part programming, G&M codes development for machining operations. |
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Course: Fluid Machines Lab |
Course Code: |
LC-ME- 313G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 313G.1 |
Explain the construction, working principle and fluid flow circuit of various fluid turbines . |
LC-ME- 313G.2 |
Demonstrate centrifugal and reciprocating pump and draw their characteristics curves. |
LC-ME- 313G.3 |
Determine the various efficiencies of a hydraulic ram. |
LC-ME- 313G.4 |
Analyze the performance characteristics of various fluid turbines. |
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Course: Kinematics of Machines Lab |
Course Code: |
LC-ME- 315G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 315G.1 |
Understand various types of kinematics mechanism & its inversions. |
LC-ME- 315G.2 |
Describe various motion mechanisms like cam & followers, gears and gear trains. |
LC-ME- 315G.3 |
Calculate coefficient of friction between belt & pulley and efficiency of screw jack. |
LC-ME- 315G.4 |
Create spur gears involute teeth and cam profile. |
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Program: B. Tech. – ME 6th |
Course: Manufacturing Technology-II |
Course Code: |
PCC-ME-302G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME-302G.1 |
Recall the basic terminologies of various machining processes. |
PCC-ME-302G.2 |
Explain the mechanism of machining processes and cutting tool material selection. |
PCC-ME-302G.3 |
Understand the advanced manufacturing technologies, processes and machines. |
PCC-ME-302G.4 |
Apply the fundamental knowledge of manufacturing engineering to solve the problems. |
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Course: Design of Machine Element-I |
Course Code: |
PCC- ME-304G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME-304G.1 |
Describe concepts, philosophy & considerations of machine design. |
PCC- ME-304G.2 |
Calculate steady and variable stresses induced in machine elements. |
PCC- ME-304G.3 |
Analyze the behavior of various members subjected to different types of loading. |
PCC- ME-304G.4 |
Design various machine components as per given specifications. |
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Course: Heat Transfer |
Course Code: |
PCC- ME-306G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME-306G.1 |
Define fundamental concepts and terminologies of Heat Transfer. |
PCC- ME-306G.2 |
Understand the principles and modes of Heat Transfer. |
PCC- ME-306G.3 |
Apply laws & mathematical equations to solve the associated engineering problems. |
PCC- ME-306G.4 |
Analyze the heat exchange between two bodies and their performance variables. |
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Course: Dynamics of Machines |
Course Code: |
PCC- ME-308G |
COURSE OUTCOMES |
Students will be able to: |
PCC- ME-308G.1 |
Define the concepts and basics terminologies of dynamics of Machines. |
PCC- ME-308G.2 |
Understand the the mechanisms of static & dynamic body. |
PCC- ME-308G.3 |
Apply the knowledge of dynamics of machines to solve the engineering problems. |
PCC- ME-308G.4 |
Analyze the the problems of dynamics of machines to design the solutions. |
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Course: Internal Combustion Engines & Gas Turbines |
Course Code: |
PEC-ME-320G |
COURSE OUTCOMES |
Students will be able to: |
PEC-ME-320G.1 |
Define the parts and terminologies of IC engine. |
PEC-ME-320G.2 |
Understand the working cycle of IC engine and methods of emission control. |
PEC-ME-320G.3 |
Demonstrate the working of various systems of IC engines. |
PEC-ME-320G.4 |
Analyze the effect of operating variables on performance of engines & gas turbines. |
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Course: Fundamentals of Management |
Course Code: |
HSMC-08G |
COURSE OUTCOMES |
Students will be able to: |
HSMC-08G.1 |
Recall the concepts of management and management system. |
HSMC-08G.2 |
Understand the management principles and concepts in context to engineering. |
HSMC-08G.3 |
Demonstrate various tools and techniques of production, marketing and financial management etc. |
HSMC-08G.3 |
Analyze various functions and responsibilities of the management system of any organization. |
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Course: Seminar |
Course Code: |
PCC-ME-318G |
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COURSE OUTCOMES |
Students will be able to: |
PCC-ME-318G.1 |
Identify various technologies and recent trends in engineering. |
PCC-ME-318G.2 |
Understand problem identification, formulation and solution. |
PCC-ME-318G.3 |
Apply skills in preparing detailed report describing project. |
PCC-ME-318G.4 |
Demonstrate a sound technical knowledge of their selected seminar topic. |
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Course: Workshop Lab-1 |
Course Code: |
LC-ME- 310G |
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COURSE OUTCOMES |
Students will be able to: |
LC-ME- 310G.1 |
Understand tool life, speed and miscellaneous functions of drilling, milling and lathe machines. |
LC-ME- 310G.2 |
Understand the various preparatory and miscellaneous functions for CNC part programming. |
LC-ME- 310G.3 |
Apply the part programming for CNC Milling and CNC Lathe. |
LC-ME- 310G.4 |
Compare theoretical machining time with actual machining time. |
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Course: Workshop Lab-II |
Course Code: |
LC-ME- 312G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 310G.1 |
Describe various types of I.C. engines, cycles of operation and its related terms. |
LC-ME- 310G.2 |
Calculate various performance factor and show heat balance sheet of a multicylinder petrol/diesel engine. |
LC-ME- 310G.3 |
Compare various performance parameter curve of a multicylinder petrol/diesel engine. |
LC-ME- 310G.4 |
Analyze the effect of gases on various parameter from multicylinder engine. |
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Course: Heat Transfer Lab |
Course Code: |
LC-ME- 314G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 314G.1 |
Determine the thermal conductivity of metallic rod and insulating powder. |
LC-ME- 314G.2 |
Calculate the effectiveness of fin under natural and forced convection. |
LC-ME- 314G.3 |
Analyze the surface heat transfer coefficient, average heat transfer coefficient and emissivity. |
LC-ME- 314G.4 |
Verify stefen boltzmann constant for thermal radiation. |
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Course: Dynamics of Machine Lab |
Course Code: |
LC-ME- 316G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME- 316G.1 |
Understand the gyroscopic effects through models. |
LC-ME- 316G.2 |
Demonstrate the experiment for static balancing, dynamics balancing on balancing machine. |
LC-ME- 316G.3 |
Determine the gyroscopic couple, moment of inertia of connecting rod by different methods. |
LC-ME- 316G.4 |
Examine the performance characteristics curves, its stability and sensitivity of a governor. |
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Program: B.Tech. – ME 7th |
Course: Design of Machine Element-II |
Course Code: |
PCC-ME-401G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME-401G.1 |
Understand the concept of design for production, stresses and failure mechanisms. |
PCC-ME-401G.2 |
Apply the knowledge to solve the design problems. |
PCC-ME-401G.3 |
Analyze the feasibility of design of various machine elements. |
PCC-ME-401G.4 |
Design various elements of machine as per given specifications. |
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Course: Entrepreneurship Development |
Course Code: |
PCC-ME-403G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME-403-G.1 |
Define the basic concept of entrepreneurship development. |
PCC-ME-403-G.2 |
Understand various insights required for entrepreneurship. |
PCC-ME-403-G.3 |
Apply the knowledge of entrepreneurship development in real life scenario. |
PCC-ME-403-G.4 |
Analyze the various factors/schemes/issues related to entrepreneurial growth. |
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Course: Refrigeration & Air Conditioning |
Course Code: |
PEC-ME-401G |
COURSE OUTCOMES |
Students will be able to: |
PEC-ME-401-G.1 |
Define technical terms related to refrigeration and air conditioning. |
PEC-ME-401-G.2 |
Understand various types of refrigeration and air conditioning systems. |
PEC-ME-401-G.3 |
Apply knowledge of psychrometric charts and cycles to solve the engineering problem. |
PEC-ME-401-G.4 |
Analyze the performance of various refrigeration and air condition cycles and systems. |
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Course: Noise and Vibrations |
Course Code: |
PEC-ME-409G |
COURSE OUTCOMES |
Students will be able to: |
PEC-ME-409-G.1 |
Define the fundamentals of vibrations & Noise. |
PEC-ME-409-G.2 |
Understand the causes, significance, impacts, and the need for the reduction/isolation of Vibrations and Noise. |
PEC-ME-409-G.3 |
Apply different methods, principles and techniques to solve related real life problems. |
PEC-ME-409-G.4 |
Analyze the Vibration and Noise characteristics in diverse systems. |
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Course: Seminar |
Course Code: |
PCC-ME-405G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME- 406-G.1 |
Identify various technologies and recent trends in engineering. |
PCC-ME- 406-G.2 |
Understand problem identification, formulation and solution. |
PCC-ME- 406-G.3 |
Apply skills in preparing detailed report describing project. |
PCC-ME- 406-G.4 |
Demonstrate a sound technical knowledge of their selected seminar topic. |
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Course: Project-I |
Course Code: |
PROJ-ME-407G |
COURSE OUTCOMES |
Students will be able to: |
PROJ-ME-407-G.1 |
Identify various tools, techniques and technologies used in mechanical engineering. |
PROJ-ME-407-G.2 |
Understand the process to make reports and presentations. |
PROJ-ME-407-G.3 |
Applying ethical practices and engineering knowledge to solve industrial problems. |
PROJ-ME-407-G.4 |
Analyze complex engineering problems and tools used in different technologies. |
PROJ-ME-407-G.5 |
Select the suitable tools, techniques and parameters to deal with real life problems. |
PROJ-ME-407-G.6 |
Design the solution for complex engineering problems. |
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Course: Practical Training-II |
Course Code: |
PT-ME-409G |
COURSE OUTCOMES |
Students will be able to: |
PT-ME-409-G.1 |
Identify different tools, techniques & departments in the industry |
PT-ME-409-G.2 |
Understand the organization structure, advanced tools and techniques. |
PT-ME-409-G.3 |
Applying engineering knowledge and ethical practice to solve industrial problems. |
PT-ME-409-G.4 |
Analyze the experimental data of machine tools. |
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Course: Constitution of India |
Course Code: |
MC-317G |
COURSE OUTCOMES |
Students will be able to: |
MC-317-G.1 |
Recall the salient features and basic structure of constitution of India. |
MC-317-G.2 |
Describe the types of legislative and financial powers allocated between the Union and the States in India. |
MC-317-G.3 |
Demonstrate the procedure for amending the Indian Constitution by providing a detailed description. |
MC-317-G.4 |
Analyze the interplay between Fundamental Rights and Fundamental Duties in the Indian Constitution and its impact on citizens and governance. |
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Course: Workshop Lab-III |
Course Code: |
LC-ME- 403G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME-403G.1 |
Describe the various control used in RAC & study the cut- sectional of the refrigerant compressor. |
LC-ME- 403G.2 |
Understand the various air conditioning process and plot them on Psychrometric chart. |
LC-ME- 403G.3 |
Calculate the cop of various refrigerating systems. |
LC-ME- 403G.4 |
Determine the bypass factor and sensible heat factor of heating and cooling coils. |
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Program: B. Tech. – ME 8th |
Course: Industrial Automation |
Course Code: |
PCC-ME-402G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME- 402-G.1 |
Define basic terminologies, and elements of Industrial Automation. |
PCC-ME- 402-G.2 |
Understand the principles, strategies, components & circuits used in automation. |
PCC-ME- 402-G.3 |
Apply the knowledge in real life situations to solve the problem related to industrial automation. |
PCC-ME- 402-G.4 |
Analyze the control technologies, modeling and simulations of automation. |
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Course: Plant Maintenance Engg |
Course Code: |
PEC-ME-404G |
COURSE OUTCOMES |
Students will be able to: |
PEC-ME- 404-G.1 |
Define the basics of plant layout, maintenance and strategies. |
PEC-ME- 404-G.2 |
Understand the principles and practices of plant maintenance engineering. |
PEC-ME- 404-G.3 |
Explain the fundamental concepts and objectives of facility planning and plant layout. |
PCC-ME- 404-G.4 |
Demonstrate the various maintenance strategies & spare parts management. |
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Course: Power Plant Engineering |
Course Code: |
PEC-ME-412G |
COURSE OUTCOMES |
Students will be able to: |
PEC-ME- 412-G.1 |
Define fundamentals of different types of power plants. |
PEC-ME- 412-G.2 |
Understand the power plant economics and natural resources used in power plants. |
PEC-ME- 412-G.3 |
Explain the combined cycles and non-conventional Power Generation. |
PEC-ME- 412-G.4 |
Demonstrate the working principles of power plants with their applications. |
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Course: Automobile Engineering |
Course Code: |
PEC-ME-420G |
COURSE OUTCOMES |
Students will be able to: |
PEC-ME-420-G.1 |
List the various components and systems of Automobiles. |
PEC-ME-420-G.2 |
Understand the principles of various systems of Automobiles. |
PEC-ME-420-G.3 |
Apply theoretical understanding to practical solutions in Automobile. |
PEC-ME-420-G.4 |
Classify Automobile components and system based on functions and relationships, including engine parts, vehicle systems, safety features and emission control mechanism. |
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Course: Quality Engineering |
Course Code: |
OEC-ME-410G |
COURSE OUTCOMES |
Students will be able to: |
OEC-ME-410-G.1 |
Define the concepts of quality engineering. |
OEC-ME-410-G.2 |
Understand quality systems, elements of TQC and different forms of Inspection. |
OEC-ME-410-G.3 |
Apply the concepts of statistical quality control and quality management in real life scenario. |
OEC-ME-410-G.4 |
Analyze various quality parameters, approaches for quality management, control and improvement. |
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Course: Seminar |
Course Code: |
PCC-ME-406G |
COURSE OUTCOMES |
Students will be able to: |
PCC-ME- 406-G.1 |
Identify various technologies and recent trends in engineering. |
PCC-ME- 406-G.2 |
Understand problem identification, formulation and solution. |
PCC-ME- 406-G.3 |
Apply skills in preparing detailed report describing project. |
PCC-ME- 406-G.4 |
Demonstrate a sound technical knowledge of their selected seminar topic. |
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Course: Project-II |
Course Code: |
PROJ-ME-408G |
COURSE OUTCOMES |
Students will be able to: |
PROJ-ME- 408-G.1 |
Identify various tools, techniques and technologies used in mechanical engineering. |
PROJ-ME- 408-G.2 |
Understand the process to make reports and presentations. |
PROJ-ME- 408-G.3 |
Applying ethical practices and engineering knowledge to solve industrial problems. |
PROJ-ME- 408-G.4 |
Analyze complex engineering problems and tools used in different technologies. |
PROJ-ME- 408-G.5 |
Select the suitable tools, techniques and parameters to deal with real life problems. |
PROJ-ME- 408-G.6 |
Design the solution for complex engineering problems. |
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Course: Workshop Lab-IV |
Course Code: |
LC-ME- 404G |
COURSE OUTCOMES |
Students will be able to: |
LC-ME-402G.1 |
Explain various types of wheels& automotive emission / pollution control system. |
LC-ME- 402G.2 |
Demonstrate construction details, working principles and operation of lubricating system, ignition system & starting system. |
LC-ME- 402G.3 |
Illustrate construction details, working principles and operation of automotive transmission , drive lines, differential& suspension system. |
LC-ME- 402G.4 |
Demonstrate construction details, working principles and operation of fuel supply, steering, brake and clutch system. |