Post on 24-Jan-2022
B.Tech - Mechanical Engineering
Program Educational Objectives (PEOs)
PEO1 Explore opportunities in the field of engineering to utilize their professional skills on
global platforms and would effectively complete their post graduation and research program.
PEO2 Contribute the specialized knowledge, effectively and consistently towards the
multidimensional growth of the society with primary focus on environment.
PEO3 Enhance the communication skills and work as a vibrant, dynamic team leader which
leads to an asset in a progressive society.
PEO4 Attain the ability to work in an ethical manner and prove to be an integral &
responsible resource in a high potential organization (society) and able to grow steadily,
consistently in a multifaceted way.
Program Outcomes (POs)
Engineering Graduates will be able to:
PO1.Engineering Knowledge: Apply the knowledge of mathematics, science, engineering
fundamentals, and an engineering specialization to the solution of complex engineering
problems.
PO2.Problem Analysis: Identify, formulate, review research literature, and analyze complex
engineering problems reaching substantiated conclusions using first principles of
mathematics, natural sciences, and engineering sciences.
PO3.Design/Development of Solutions: 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
PO4.Conduct Investigations of Complex Problems: 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.
PO5.Modern Tool Usage: 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.
PO6.The Engineer and Society: 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.
PO7.Environment and Sustainability: Understand the impact of the professional
engineering solutions in societal and environmental contexts, and demonstrate the knowledge
of, and need for sustainable development.
PO8.Ethics: Apply ethical principles and commit to professional ethics and responsibilities
and norms of the engineering practice.
PO9.Individual and Team Work: Function effectively as an individual, and as a member or
leader in diverse teams, and in multidisciplinary settings.
PO10.Communication: 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.
PO11.Project Management and Finance: 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.
PO12.Life-long Learning: Recognize the need for, and have the preparation and ability to
engage in independent and lifelong learning in the broadest of technological change.
Program Specific Outcomes (PSOs)
PSO1. Understanding of practical knowledge and hands on training to accomplish and to
enhance the course work in Mechanical Engineering.
PSO2. Ability to apply engineering knowledge, design & analysis tools to solve problems in
the domains of structural, thermal, fluid mechanics & manufacturing systems.
PSO3. Develop and device remedies, appropriate solutions for complex Mechanical
Engineering problems.
PSO4. Efficient demonstration of skills and knowledge as Mechanical Engineers with
environment and society as a primary concern.
COURSE OUTCOME (COs)
ENGINEERING PHYSICS (TPH-101)
TPH-101.CO1: Familiarize with the basics of special theory of relativity and interpret its
applications.
TPH-101.CO2: Illustrate the phenomenon of interference and Maxwell’s equations.
TPH-101.CO3: Articulate the Diffraction, Polarization phenomenon and resolving power
of an optical instrument.
TPH-101.CO4: Attain the knowledge about the fundamentals, construction and working
principle of Lasers.
TPH-101.CO5: Acquire the knowledge of Wave Mechanics & Superconductivity.
ENGINEERING PHYSICS LAB (PPH-101)
PPH-101.CO1: Demonstrate interference phenomena like Newton’s Rings and Fresnel Bi
prism.
PPH-101.CO2: Able to articulate observed spectral lines and enable measurement of
wavelength of these spectral lines and, resolving power of slits with the help of diffraction
grating.
PPH-101.CO3: Inspect energy band gap of a given semiconductor material like Germanium,
Nickel etc. in the form of a P-N junction diode.
PPH-101.CO4: Enable to take measurements through half shade and Bi-quartz Polarimeter,
Carey Foster’s bridge, Potentiometer and nodal slide.
PPH-101.CO5: Demonstrate and verify the phenomenon of variation of magnetic field and
Stefan's Law.
ENVIRONMENTAL STUDIES (TES-101)
TES-101.CO1: Master foundational knowledge enabling them to have life –long learning
related to natural resources and assess aesthetic and ethical importance of all the living flora
and fauna.
TES-101.CO2: Develop knowledge related to processes involved in softening of water
utilized in industries.
TES-101.CO3: Describe working of STP with an illustrated diagram along with
characterization of water.
TES-101.CO4: Interpret and propose solutions for effective management of different types
of environmental pollution.
TES-101.CO5: Keep updated and communicate knowledge regarding social issues and laws
related to environment.
EVS LAB (PES-101)
PES-101.CO1: Acquire knowledge regarding different glassware’s and instruments utilized
in EVS Lab.
PES-101.CO2: Estimate the quality of water related to chemical properties like alkalinity,
hardness and chloride content.
PES-101.CO3: Examine TS, TDS and TSS content for waste water analysis.
PES-101.CO4: Determine the moisture and ash content of solid waste sample regarding its
implication on environment
BASIC ELECTRICAL ENGINEERING (TEE-101)
TEE-101.CO1: Analyze DC networks by network theorems.
TEE-101.CO2: Analyze the behaviour of R, L & C AC circuits with their combination in
series & parallel.
TEE-101.CO3: Test single phase transformer and finds its efficiency.
TEE-101.CO4: Acquire the knowledge of DC machines & three phase Induction motor with
their practical life applications.
BASIC ELECTRICAL ENGINEERING LAB (PEE-101)
PEE-101.CO1: Evaluate and verified DC circuit theorems.
PEE-101.CO2: Analyze resonance phenomenon in series AC circuit.
PEE-101.CO3: Test single phase transformer & calculated its parameters.
PEE-101.CO4: Analyze the operation of three phase induction motor.
WORKSHOP PRACTICE (PWS-101)
PWS-101.CO1: Understand and application of various machine tools and their respective
operations.
PWS-101.CO2: Study and making of components using fitting, carpentry and welding shops.
PWS-101.CO3: Understand and perform various operations on lathe machine.
PWS-101.CO4: Study & practice making of components using sheet metal shop
ENGINEERING MATHEMATICS-I (TMA-101)
TMA-101.CO1: Constructed the understanding of applicability of matrix and determinant in
solution of system of equations and determination of eigen value and eigen vector
TMA -101.CO2: Learnt the concept of Leibnitz theorem on successive derivatives, Euler’s
theorem for homogeneous functions, and expansion of function of several variables in
engineering field.
TMA -101.CO3: Evaluated the extreme values of function and applications of Jacobians in
multi-disciplinary environment.
TMA -101.CO4: Learn and create the understanding of area, volume integrals, line surface,
volume integrals, Stokes, Green and Gauss divergence theorem for evaluation of engineering
problems.
COMPUTER CONCEPTS AND PROGRAMMING-I (TCS-101)
TCS-101.CO1: Interpret the terminologies regarding programming concepts of C.
TCS-101.CO2: Outline the basic data types in C programming.
TCS-101.CO3: Design and execute small programs using C programming language to know
the use and supportable Libraries of C.
TCS-101.CO4: Determine and implement various control structures in C programming-
Looping, If-Else statement, Switch case etc.
TCS-101.CO5: Identify and develop concepts like pointers, structures, recursion in C. and
apply them to solve basic mathematical as well as analyzing problems.
COMPUTER CONCEPTS AND PROGRAMMING-I LAB (PCS-101)
PCS-101.CO1: Build and formulate a functional hierarchical code organization.
PCS-101.CO2: Identify, analyze, and simplify the execution of programs written in C
language.
PCS-101.CO3: Build the code in C programming for a given algorithm.
PCS-101.CO4: Able to organize with various data types such as integers, floats, characters,
and strings, etc.
PCS-101.CO5: Analyzing programming patterns using various control structures.
PCS-101.CO6: Able to solve problems with function, array, structures, etc.
BASIC TECHNICAL COMMUNICATION (THU-101)
THU-101.CO1: Understand the meaning and the process of communication along with its
types and barriers.
THU-101.CO2: Develop proficiency in English Language through vocabulary building and
correct use of grammar.
THU-101.CO3: Acquire competency in reading by understanding the skills involved in
reading and assessing & analyzing literary texts critically.
THU-101.CO4: Acquire competency in listening by understanding the skills involved and
analyzing the thematic aspects of the prescribed literary text.
THU-101.CO5: Develop speaking skills by understanding the basic concepts and enhance
proficiency in verbal and non- verbal communication.
COURSE OUTCOME (COs)
ENGINEERING CHEMISTRY (TCY-101)
TCY-101.CO1: Gain knowledge regarding basic volumetric calculations and their use in
water analysis.
TCY-101.CO2: Apply the knowledge electrochemistry for the protection of different metals
from corrosion.
TCY-101.CO3: Develop basic knowledge of Nano chemistry, polymer reinforced
composites, polymer materials for futuristic engineering applications.
TCY-101.CO4: Select lubricants for application in industry and society.
TCY-101.CO5: Acquire knowledge in determination of the calorific value of fuels, perform
flue gas analysis and combustion analysis
ENGINEERING CHEMISTRY LAB (PCY-101)
PCY-101.CO1 Understand the basic concept and principles of Analytical Chemistry
PCY-101.CO2 Appraise about procedure of volumetric analysis, and their applications
related to industry and environment.
PCY-101.CO3 Estimate the properties of lubricants.
PCY-101.CO4 Ability to determine ash and moisture content of fuel to check its quality.
BASIC ELECTRONICS ENGINEERING (TEC-101)
TEC-101.CO1: Classify Conductors, Semiconductor, Insulators & their properties.
TEC-101.CO2: Understand P-N Junction diode and Zener diode.
TEC-101.CO3: Compare Bipolar Junction Transistor & Field Effect Transistor.
TEC-101.CO4: Apply the knowledge of Bipolar Junction Transistor & Field Effect
Transistor to design various types of electronics Circuit.
TEC-101.CO5: Elaborate Number system, Boolean algebra, logic gates.
BASIC ELECTRONICS ENGG LAB (PEC-101)
PEC-101.CO1: Understand Basic Electronic Component & their testing threw CRO.
PEC-101.CO2: Analyze bread board implementation of electronic circuits.
PEC-101.CO3: Draw PN junction diode & Zener Diode Characteristics.
PEC-101.CO4: Elaborate the concept of digital Logic gates.
COMPUTER AIDED ENGINEERING GRAPHICS LAB (PEG-101)
PEG-101.CO1: Understand the concept and role of graphics in geometric constructions.
PEG-101.CO2: Understand the method for letter writing in the engineering Graphics.
PEG-101.CO3: Practice about the projection of point, line and solids for various positions
with vertical and horizontal principle planes.
PEG-101.CO4: Study and understand the concept of first and third angle orthographic
projections
BASIC MECHANICAL ENGINEERING (TME-101)
TME.101.CO1: Understand the concept of thermodynamic systems with their relation to
energy and work.
TME.101.CO2: Apply the various thermodynamic laws, irrespective of the composition of
the material or system.
TME.101.CO3: Impart knowledge of basic machine elements used in various engineering
applications.
TME.101.CO4: Evaluate problems related to the loads and deformations for structural
elements.
TME.101.CO5: Acquire the knowledge of areas including mechanics, thermodynamics and
materials science.
BASIC MECHANICAL ENGINEERING LAB (PME-101)
PME-101.CO1: Understand the concept of thermodynamic systems with their relation to
energy and work.
PME-101.CO2: Apply the various thermodynamic laws, irrespective of the composition of
the material or system.
PME-101.CO3: Determine the various parts and performance parameters of vapour
compression refrigeration cycle.
PME-101.CO4: Find stress-strain and able to draw characteristic behaviour of the material
using, Universal Testing Machine.
ENGINEERING MATHEMATICS-I (TMA-101)
TMA-101.CO1: Constructed the understanding of applicability of matrix and determinant in
solution of system of equations and determination of eigen value and eigen vector
TMA -101.CO2: Learnt the concept of Leibnitz theorem on successive derivatives, Euler’s
theorem for homogeneous functions, and expansion of function of several variables in
engineering field.
TMA -101.CO3: Evaluated the extreme values of function and applications of Jacobians in
multi-disciplinary environment.
TMA -101.CO4: Learn and create the understanding of area, volume integrals, line surface,
volume integrals, Stokes, Green and Gauss divergence theorem for evaluation of engineering
problems.
COMPUTER CONCEPTS AND PROGRAMMING-I (TCS-101)
TCS-101.CO1: Interpret the terminologies regarding programming concepts of C.
TCS-101.CO2: Outline the basic data types in C programming.
TCS-101.CO3: Design and execute small programs using C programming language to know
the use and supportable Libraries of C.
TCS-101.CO4: Determine and implement various control structures in C programming-
Looping, If-Else statement, Switch case etc.
TCS-101.CO5: Identify and develop concepts like pointers, structures, recursion in C. and
apply them to solve basic mathematical as well as analyzing problems.
COMPUTER CONCEPTS AND PROGRAMMING-I LAB (PCS-101)
PCS-101.CO1: Build and formulate a functional hierarchical code organization.
PCS-101.CO2: Identify, analyze, and simplify the execution of programs written in C
language.
PCS-101.CO3: Build the code in C programming for a given algorithm.
PCS-101.CO4: Able to organize with various data types such as integers, floats, characters,
and strings, etc.
PCS-101.CO5: Analyzing programming patterns using various control structures.
PCS-101.CO6: Able to solve problems with function, array, structures, etc.
BASIC TECHNICAL COMMUNICATION (THU-101)
THU-101.CO1: Understand the meaning and the process of communication along with its
types and barriers.
THU-101.CO2: Develop proficiency in English Language through vocabulary building and
correct use of grammar.
THU-101.CO3: Acquire competency in reading by understanding the skills involved in
reading and assessing & analyzing literary texts critically.
THU-101.CO4: Acquire competency in listening by understanding the skills involved and
analyzing the thematic aspects of the prescribed literary text.
THU-101.CO5: Develop speaking skills by understanding the basic concepts and enhance
proficiency in verbal and non- verbal communication.
COURSE OUTCOME (COs)
ENGINEERING PHYSICS (TPH-201)
TPH-201.CO1: Familiarize with the basics of special theory of relativity and interpret its
applications.
TPH-201.CO2: Illustrate the phenomenon of interference and Maxwell’s equations.
TPH-201.CO3: Articulate the Diffraction, Polarization phenomenon and resolving power of
an optical instrument.
TPH-201.CO4: Attain the knowledge about the fundamentals, construction and working
principle of Lasers.
TPH-201.CO5: Acquire the knowledge of Wave Mechanics & Superconductivity.
ENGINEERING PHYSICS LAB (PPH-201)
PPH-201.CO1: Demonstrate interference phenomena like Newton’s Rings and Fresnel Bi
prism.
PPH-201.CO2: Able to articulate observed spectral lines and enable measurement of
wavelength of these spectral lines and, resolving power of slits with the help of diffraction
grating.
PPH-201.CO3: Inspect energy band gap of a given semiconductor material like Germanium,
Nickel etc. in the form of a P-N junction diode.
PPH-201.CO4: Enable to take measurements through half shade and Bi-quartz Polarimeter,
Carey Foster’s bridge, Potentiometer and nodal slide.
PPH-201.CO5: Demonstrate and verify the phenomenon of variation of magnetic field and
Stefan's Law.
ENVIRONMENTAL STUDIES (TES-201)
TES-201.CO1: Master foundational knowledge enabling them to have life –long learning
related to natural resources and assess aesthetic and ethical importance of all the living flora
and fauna.
TES-201.CO2: Develop knowledge related to processes involved in softening of water
utilized in industries.
TES-201.CO3: Describe working of STP with an illustrated diagram along with
characterization of water.
TES-201.CO4: Interpret and propose solutions for effective management of different types
of environmental pollution.
TES-201.CO5: Keep updated and communicate knowledge regarding social issues and laws
related to environment.
EVS LAB (PES-201)
PES-201.CO1: Acquire knowledge regarding different glassware’s and instruments utilized
in EVS Lab.
PES-201.CO2: Estimate the quality of water related to chemical properties like alkalinity,
hardness and chloride content.
PES-201.CO3: Examine TS, TDS and TSS content for waste water analysis.
PES-201.CO4: Determine the moisture and ash content of solid waste sample regarding its
implication on environment
BASIC ELECTRICAL ENGINEERING (TEE-201)
TEE-201.CO1: Analyze DC networks by network theorems.
TEE-201.CO2: Analyze the behaviour of R, L & C AC circuits with their combination in
series & parallel.
TEE-201.CO3: Test single phase transformer and finds its efficiency.
TEE-201.CO4: Acquire the knowledge of DC machines & three phase Induction motor with
their practical life applications.
BASIC ELECTRICAL ENGINEERING LAB (PEE-201)
PEE-201.CO1: Evaluate and verified DC circuit theorems.
PEE-201.CO2: Analyze resonance phenomenon in series AC circuit.
PEE-201.CO3: Test single phase transformer & calculated its parameters.
PEE-201.CO4: Analyze the operation of three phase induction motor.
WORKSHOP PRACTICE (PWS-201)
PWS-201.CO1: Understand and application of various machine tools and their respective
operations.
PWS-201.CO2: Study and making of components using fitting, carpentry and welding shops.
PWS-201.CO3: Understand and perform various operations on lathe machine.
PWS-201.CO4: Study & practice making of components using sheet metal shop.
ENGINEERING MATHEMATICS-I (TMA-201)
TMA-201.CO1: Constructed the understanding and applicability of ordinary differential
equations and their solutions in engineering field.
TMA-201.CO2: Learnt the concepts of Laplace Transform and its applications in multi-
disciplinary environment.
TMA-201.CO3: Understand Fourier series and its application in different engineering
problems.
TMA-201.CO4: Construct the understanding for classification of partial differential
equations (PDEs), method of separation and its solutions for engineering problems i.e.,
Laplace equation, Wave equation & Heat equation of one and two dimension
COMPUTER CONCEPTS AND PROGRAMMING-II (TCS-201)
TCS.201.CO1 Illustrate the techniques regarding programming concepts.
TCS.201.CO2 Extend the basic concept of modules used in C programming.
TCS.201.CO3 Demonstrate and execute small programs using python.
TCS.201.CO4 Compile and implement object oriented programming concepts,
encapsulation, classes, Objects, Data hiding, Inheritance, etc.
TCS.201.CO5 Examine concepts of constructors and methods.
COMPUTER CONCEPTS AND PROGRAMMING-II LAB (PCS-201)
PCS.201.CO1: Build problem-solving based on various file handling techniques.
PCS.201.CO2: Experimental programming with arrays of complex objects.
PCS.201.CO3: Build the concept of object thinking within the framework of the functional
model.
PCS.201.CO4: Build and formulate a functional hierarchical code organization.
PCS.201.CO5: Apply and evaluate a defensive programming concept.
PCS.201.CO6: Able how to handle possible errors during program execution.
ADVANCE TECHNICAL COMMUNICATION (THU-201)
THU-201.CO1: Understand the meaning, features, mediums and significance of technical
communication.
THU-201.CO2: Comprehend and develop paragraph writing skills.
THU-201.CO3: Form a clear concept of writing style in technical communication and
develop technical writing skills.
THU-201.CO4: Acquire competency in comprehension and analysis through in-depth
reading of the prescribed literary text.
THU-201.CO5: Understand the different types of non-verbal aspects of communication and
improve presentation skills and soft skills..
COURSE OUTCOME (COs)
ENGINEERING CHEMISTRY (TCY-201)
TCY-201.CO1: Gain knowledge regarding basic volumetric calculations and their use in
water analysis.
TCY-201.CO2: Apply the knowledge electrochemistry for the protection of different metals
from corrosion.
TCY-201.CO3: Develop basic knowledge of Nano chemistry, polymer reinforced
composites, polymer materials for futuristic engineering applications.
TCY-201.CO4: Select lubricants for application in industry and society.
TCY-201.CO5: Acquire knowledge in determination of the calorific value of fuels, perform
flue gas analysis and combustion analysis.
ENGINEERING CHEMISTRY LAB (PCY-201)
PCY-201.CO1 Understand the basic concept and principles of Analytical Chemistry
PCY-201.CO2 Appraise about procedure of volumetric analysis, and their applications
related to industry and environment.
PCY-201.CO3 Estimate the properties of lubricants.
PCY-201.CO4 Ability to determine ash and moisture content of fuel to check its quality.
BASIC ELECTRONICS ENGG (TEC-201)
TEC-201.CO1: Classify Conductors, Semiconductor, Insulators & their properties.
TEC-201.CO2: Understand P-N Junction diode and Zener diode.
TEC-201.CO3: Compare Bipolar Junction Transistor & Field Effect Transistor.
TEC-201.CO4: Apply the knowledge of Bipolar Junction Transistor & Field Effect
Transistor to design various types of electronics Circuit.
TEC-201.CO5: Elaborate Number system, Boolean algebra, logic gates.
BASIC ELECTRONICS ENGG LAB (PEC-201)
PEC-201.CO1: Understand Basic Electronic Component & their testing threw CRO.
PEC-201.CO2: Analyze bread board implementation of electronic circuits.
PEC-201.CO3: Draw PN junction diode & Zener Diode Characteristics.
PEC-201.CO4: Elaborate the concept of digital Logic gates.
COMPUTER AIDED ENGINEERING GRAPHICS LAB (PEG-201)
PEG-201.CO1: Understand the concept and role of graphics in geometric constructions.
PEG-201.CO2: Understand the method for letter writing in the engineering Graphics.
PEG-201.CO3: Practice about the projection of point, line and solids for various positions
with vertical and horizontal principle planes.
PEG-201.CO4: Study and understand the concept of first and third angle orthographic
projections
BASIC MECHANICAL ENGINEERING (TME-201)
BASIC MECHANICAL ENGINEERING LAB (PME-201)
PME-201.CO1: Understand the concept of thermodynamic systems with their relation to
energy and work.
PME-201.CO2: Apply the various thermodynamic laws, irrespective of the composition of
the material or system.
PME-201.CO3: Determine the various parts and performance parameters of vapour
compression refrigeration cycle.
PME-201.CO4: Find stress-strain and able to draw characteristic behaviour of the material
using Universal Testing Machine.
ENGINEERING MATHEMATICS-I (TMA-201) TMA-201.CO1: Constructed the understanding and applicability of ordinary differential
equations and their solutions in engineering field.
TMA-201.CO2: Learnt the concepts of Laplace Transform and its applications in multi-
disciplinary environment.
TMA-201.CO3: Understand Fourier series and its application in different engineering
problems.
TMA-201.CO4: Construct the understanding for classification of partial differential
equations (PDEs), method of separation and its solutions for engineering problems i.e.,
Laplace equation, Wave equation & Heat equation of one and two dimension
COMPUTER CONCEPTS AND PROGRAMMING-II (TCS-201)
TCS.201.CO1 Illustrate the techniques regarding programming concepts.
TCS.201.CO2 Extend the basic concept of modules used in C programming.
TCS.201.CO3 Demonstrate and execute small programs using python.
TCS.201.CO4 Compile and implement object oriented programming concepts,
encapsulation, classes, Objects, Data hiding, Inheritance, etc.
TCS.201.CO5 Examine concepts of constructors and methods.
TME.201.CO1: Understand the concept of thermodynamic systems with their relation to
energy and work.
TME.201.CO2: Apply the various thermodynamic laws, irrespective of the composition of
the material or system.
TME.201.CO3: Impart knowledge of basic machine elements used in various engineering
applications.
TME.201.CO4: Evaluate problems related to the loads and deformations for structural
elements.
TME.201.CO5: Acquire the knowledge of areas including mechanics, thermodynamics and
materials science.
COMPUTER CONCEPTS AND PROGRAMMING-II LAB (PCS-201)
PCS.201.CO1: Build problem-solving based on various file handling techniques.
PCS.201.CO2: Experimental programming with arrays of complex objects.
PCS.201.CO3: Build the concept of object thinking within the framework of the functional
model.
PCS.201.CO4: Build and formulate a functional hierarchical code organization.
PCS.201.CO5: Apply and evaluate a defensive programming concept.
PCS.201.CO6: Able how to handle possible errors during program execution.
ADVANCE TECHNICAL COMMUNICATION (THU-201)
THU-201.CO1: Understand the meaning, features, mediums and significance of technical
communication.
THU-201.CO2: Comprehend and develop paragraph writing skills.
THU-201.CO3: Form a clear concept of writing style in technical communication and
develop technical writing skills.
THU-201.CO4: Acquire competency in comprehension and analysis through in-depth
reading of the prescribed literary text.
THU-201.CO5: Understand the different types of non-verbal aspects of communication and
improve presentation skills and soft skills.
MECHANICAL ENGINEERING
B.Tech (2nd Year 3rd Semester)
FLUID MECHANICS (TME-301)
TME-301.CO1: Understand various properties of the fluids including continuum concept,
surface tension, capillarity etc. for solving various fluid flow problems.
TME-301.CO2: Use the concept of fluid statics to determine forces on planer & curved
surfaces submerged in a static fluid.
TME-301.CO3: Implement the 3- Dimensional Continuity Equation & Bernoulli’s equations
for incompressible, in-viscid fluids to design simple piping systems to deliver fluids under
specified conditions.
TME-301.CO4: Frame equations for physical phenomenon by applying the concept of
dynamics of fluid flow and governing parameters.
TME-301.CO5: Acquire the knowledge of boundary layer theory for various types of flow
regimes.
STRENGTH OF MATERIALS (TME- 302)
TME-302.CO1: Understand the concept of stress and strain and also stress-strain
relationship for different types of materials.
TME-302.CO2: Estimate the stresses and strains in different members subjected to various
loadings conditions.
TME-302.CO3: Compute principal stresses and maximum shearing stress and also
deflections, rotations formed due to axial, torsional, and flexural loading.
TME-302.CO4: Investigate struts and long columns subjected to axial loads.
TME-302.CO5: Acquire the knowledge to frame bars, beams, and circular shafts for
permissible stresses.
ENGINEERING MATHEMATICS-III (ME) TMA-301
TMA-301.CO1: Develop the understanding of different type of complex function such that
analytic, entire and monomorphic functions.
TMA-301.CO2: Utilize the concepts of power series to particular mathematical problems
TMA-301.CO3: Apply various statistical models such as sampling, correlation and
regression analysis into real life problem.
TMA-301.CO4: Acquire the knowledge about different type of numerical methods and
techniques such that Newton Raphson method, Runge –Kutta method, Interpolation, etc.
MATERIAL SCIENCE (TME- 303)
TME-303.CO1: Understand the Classification of Engineering Materials with their structure
& property relationship.
TME-303.CO2: Interpretate the material fundamentals and the properties of ferrous and non
ferrous materials and concept of heat treatment process.
TME-303.CO3: Understand & plot Equilibrium diagrams to find out amount of phases of an
alloy during solidification.
TME-303.CO4: Study about the defects in crystal and their effects on crystal properties.
TME-303.CO5: Figure out the different mechanical properties of material by studying
various Destructive and non- destructive testing.
ENGINEERING THERMODYNAMICS (TME-304)
TME-304.CO1: Understand the fundamentals of First & Second Law of Thermodynamics
with their application.
TME-304.CO2: Apply the principle of entropy and the same to evaluate the feasibility of a
thermodynamic process.
TME-304.CO3: Calculate and compare work for a system executing a thermodynamic cycle
for different combinations of thermodynamic processes and to suggest the most economical
cycle.
TME-304.CO4: Understand the P-V, T-S, H-S and P-T diagrams for different
thermodynamics processes.
TME-304.CO5: Interpret the knowledge of available energy, exergy, irreversibility and also
development of thermodynamic relations and equilibrium.
ENGINEERING ECONOMICS (THU-301)
THU-301.CO1: Discuss the concepts of engineering economics. Apply the Law of Demand
and Law of Supply in the field of engineering.
THU-301.CO2: Understand the role of time value of money, future value and present value
along with their calculations; compare cash flows during different periods, calculations of
equivalent annual worth comparison and rate of return.
THU-301.CO3: Evaluation of projects, development, analyze the process of implementation,
focusing on participation of the community.
THU-301.CO4: Construct various Cost Curves and calculating the Cost values with the help
of formulas, describe various cost control techniques during the production process.
FLUID MECHANICS LAB (PME-351)
PME-351.CO1: Illustrate about the capillary action and find the surface tension on the liquid
surface.
PME-351.CO2: Apply the theoretical concept of metacentre and find the meta-centric height
for a given pontoon.
PME-351.CO3: Calculate pressure and velocity of fluid through pipe using Bernoulli’s
theorem.
PME-351.CO4: Demonstrate the basic difference between laminar and turbulent flow using
Reynold’s Number experiment.
PME-351.CO5: Solve the problems of friction in fluid flowing through pipe and find friction
factor.
MATERIAL SCIENCE LAB (PME-352)
PME-352.CO1: Study about theoretical relation and examination of microstructure for
different materials.
PME-352.CO2: Perform and make plastic products using Injection Moulding Machine.
PME-352.CO3: Understand the concept of corrosion, grain size and able to determine
hardness of a material using hardness testing machine.
PME-352.CO4: Find stress-strain and able to draw characteristic behaviour of the material
using Universal Testing Machine.
PME-352.CO5: Analyze the impact properties of a material by conducting Izod and Charpy
tests on the materials.
MACHINE DRAWING LAB (PME 353)
PME-353.CO1: Understand the basic concept of drawing orthographic projections of
sections of solids and threaded fasteners.
PME-353.CO2: Learn the concept of assembling drawing and drawing of machine
components.
PME-353.CO3: Develop knowledge to draw riveted joints. Threaded fasteners and
couplings.
PME-353.CO4: Analyse the concept of orthographic projections of welded joints.
MECHANICAL ENGINEERING
B.Tech (2nd Year 4th Semester)
APPLIED THERMODYNAMICS (TME-401)
TME-401.CO1: Understand the fundamentals of First & Second Law of Thermodynamics
with their application.
TME-401.CO2: Apply the thermodynamic laws to analyze various boilers, compressors and
nozzles.
TME-401.CO3: Analyze different air standard cycles and determine performance of steam
power cycles.
TME-401.CO4: Develop capability to determine the available energy and irreversibility of a
system.
TME-401.CO5: Examine the properties of pure substances and gas mixtures and study their
effect on processes.
MANUFACTURING SCIENCE –I (TME-402)
TME-402.CO1: Examine the Manufacturing Processes to manufacture various components
and applications of jigs and fixtures.
TME-402.CO2: Interpret the basic principles, Advantages, Disadvantages and application of
foundry practices and special casting processes.
TME-402.CO3: Describe and relate the metal forming processes above and below re-
crystallization temperature.
TME-402.CO4: Understand the concept how casting, forging, plastic moulding processes,
powder metallurgy is done and demonstrate primary working skills.
TME-402.CO5: Compare the various metals forming and their industrial applications.
KINEMATICS OF MACHINE (TME-403)
TME-403.CO1: Understand the velocity, acceleration and force analysis of different
mechanisms, power transmitting elements also knowledge about commonly used mechanism
for industrial application.
TME-403.CO2: Proficiency in drawing velocity and acceleration diagram for simple and
complex mechanisms also in solving kinematic problems using various methods.
TME-403.CO3: Design and plot various types of cam and follower profiles using analytical
& graphical techniques.
TME-403.CO4: Analyse the working principles of various types’ power transmission
systems such as gears, gear trains, rope and belt drives.
TME-403.CO5: Utilize the knowledge in the field of engineering industries, where
mechanisms and moving members force and kinematic analysis and power transmitting
elements play vital role.
MECHANICAL MEASUREMENT (TME-404)
TME-404.CO1: Understand the knowledge of tools and techniques to determine the
dimensions of Machine elements.
TME-404.CO2: Acquire knowledge about the principle of engineering metrology and the
application of measurement standards to various instruments.
TME-404.CO3: Describe the design of gauges to meet requirement in relation to realistic
constraints.
TME-404.CO4: Classify the techniques used in metrology of machine parts like gears and
threads.
TME-404.CO5: Discuss the various temperature and pressure measurement devices and
categorize them on basis of their functionality and application.
INDUSTRIAL ENGINEERING (TME-405)
TME-405.CO1: Interpret the concept of productivity, productivity index and value
engineering.
TME-405.CO2: Estimate the time study, work study and method study based on industrial
applications.
TME-405.CO3: Classify Plant layout and materials Handling, Replacement Analysis, and
Maintenance Management.
TME-405.CO4: Planning the inventory control and management of material requirement and
supply chain Management.
TME-405.CO5: Understand the Queuing and CPM- PERT models and apply them to real-
life problems.
CONTROL SYSTEM (TME-406)
TME-406.CO1: Analyze different types of open & closed–loop control systems.
TME-406.CO2: Evaluate electrical & mechanical analogous systems.
TME-406.CO3: Estimate time domain specifications of first & second order control systems.
TME-406.CO4: Interpreted the systems stability in time and frequency domain.
APPLIED THERMODYNAMICS LAB (PME-451)
PME-451.CO1: Impart the knowledge of boilers and their construction features.
PME-451.CO2: Identify different parts and their function of simple steam engine.
PME-451.CO3: Understand the two and four stroke engines, steam turbines and their
working principle.
PME-451.CO4: Determine the various parts and performance parameters of vapour
compression refrigeration cycle.
PME-451.CO5: Explain and identify different components of air conditioning systems.
MANUFACTURING SCIENCE LAB-I (PME 452)
PME-452.CO1: Understand the theory of injection moulding techniques and relate the
theory for manufacturing of plastic components.
PME-452.CO2: Demonstrate the various sheet metal processes such as rolling, blanking and
piercing.
PME-452.CO3: Prepare a wooden pattern (with or without core) for various casting
processes.
PME-452.CO4: Perform the forming processes such as wire drawing and tube bending
operations.
MEASUREMENT AND METROLOGY LAB (PME 453)
PME-453.CO1: Measure the dimensions and of given part using Vernier callipers and screw
gauges.
PME-453.CO2: Inspect a given component using Bevel Protector for angularity and
parallelism.
PME-453.CO3: Measure the strain of cantilever beam by making use of different loading
conditions on strain measurements trainers’ kit.
PME-453.CO4: Test for various parameters by making use of instruments like stroboscope,
Dial gauge, Thermocouples etc.
CONTROL SYSTEM LAB (PME-454)
PME-454.CO1: Test the working of different control systems.
PME-453.CO2: Analyse the stability of given control system model.
PME-453.CO3: Design various controllers for given control system model.
PME-453.CO4: Apply MATLAB in simulating various control systems
MECHANICAL ENGINEERING
B.Tech (3rd Year 5th Semester)
HEAT & MASS TRANSFER (TME-501)
TME-501.CO1: Interpret the basic modes of heat transfer.
TME-501.CO2: Understand and analyse the unsteady, steady and transient heat transfer in
composite systems with and without heat generation on extended surfaces such as fins.
TME-501.CO3: Analyze the heat transfer system on the basis of free and forced convection.
TME-501.CO4: Analysis of condensation, boiling and heat exchanger concepts.
TME-501.CO5: Acquire knowledge and application of convective mass transfer
DYNAMICS OF MACHINE (TME-502)
TME-502.CO1: Competency in solving problems of static and dynamic force analysis for
four bar linkages, flywheel and etc, using different graphical and analytical methods.
TME-502.CO2: Determine the unbalanced forces produced in rotating and reciprocating
machines elements and to suggest the correction required.
TME-502.CO3: Acquire knowledge and application of Governors and analyze practical
problems of navigation using the concept of gyroscopic effect on different types of naval,
aircraft and other applications.
TME-502.CO4: Evaluate the moment of inertia of rigid bodies and to measure the power
absorbed by dynamometer and brakes respectively.
TME-502.CO5: Analyse the causes of vibration in the machines elements and to suggest
mathematical model for free and forced vibrations in various system.
MACHINE DESIGN I (TME-503)
TME-503.CO1: Understand the concept of Machine Drawing, Engineering Graphics and
ability to categorize the various standards related to materials.
TME-503.CO2: Examine the failure stress during static and fluctuating loading conditions.
TME-503.CO3: Analyze and calculate design parameters of temporary and permanent joint
at various loading condition..
TME-503.CO4: Understand the failure stresses in the springs & Design the spring subjected
to direct twisting, bending and combined stress.
TME-503.CO5: Design analysis of Power screw and screw jack.
MANUFACTURING SCIENCE –II (TME-504)
TME-504.CO1: Understand the basic concept of metal cutting, cutting tools with its forces
required to optimize of metal cutting parameters.
TME-504.CO2: Acquire Knowledge for selection of right tool geometry, tool material and
effects of tool geometry for metal cutting operations.
TME-504.CO3: Develop functional understanding of Lathe, Drilling & Milling machines
and estimate the machining time for these processes.
TME-504.CO4: Comparative study of various finishing processes and their applications and
recommend the best process that satisfies a design requirement.
TME-504.CO5: Apply knowledge of machining processes and principles of advanced
machining processes to various problems in Manufacturing Industries.
PRODUCTION PLANNING & CONTROL (TME-505)
TME-505.CO1: Interpret the objectives and applications of PPC techniques.
TME-505.CO2: Understand numerous control techniques of Inventory.
TME-505.CO3: Analyze the various types of industrial engineering problems using routing
and scheduling.
TME-505.CO4: Design production control solutions using techniques like MRP,
Dispatching etc.
TME-505.CO5: Develop a mathematical model by using Control Charts.
NON DESTRUCTIVE TESTING (TME-506)
TME-506.CO1: Understand & apply technical knowledge to the field of non destructive
testing.
TME-506.CO2: Identify the types of equipment used for each Non-Destructive and
Destructive Examination.
TME-506.CO3: Understand the purpose of the Equipment, Application, and standard
techniques required to perform major non-destructive testing for various engineering practice.
TME-506.CO4: Apply specific Code, Standard, or Specifications related to each testing
method and achieves high level of professionalism with the help of case studies in their work.
TME-506.CO5: Understand the strengths and weaknesses of each testing technique for their
selection and use in various engineering systems.
HEAT & MASS TRANSFER LAB (PME-551)
PME-551.CO1: Illustrate the knowledge of heat transfer processes to find temperature
profile and conduction rate of composite material.
PME-551.CO2: Identify various modes of heat transfer and match the appropriate mode of
heat transfer to the specific equipment under steady state condition.
PME-551.CO3: Perform experiments to determine the characteristics of the heat transfer
equipment.
PME-551.CO4: Determine the different temperature characteristic distribution of heat
exchangers.
PME-551.CO5: Evaluate performance parameters of Stefan Boltzmann’s constant and
condensation phenomenon.
TOM LAB (PME-552)
PME-552.CO1: Analyze various types of links, pairs, gears and their mechanisms.
PME-552.CO2: Identify the working principle, theory in single and double slider motion
mechanisms.
PME-552.CO3: Demonstrate the working of governor and gyroscope and determine the
effect of forces.
PME-552.CO4: Design and study of shafts under different loading conditions.
PME-552.CO5: Analyze the working of screw jack and design principle.
MANUFACTURING SCIENCE -2 LAB (PME-553)
PME-553.CO1: Demonstrate radial drilling and generate a job from a work piece to perform
boring and reaming operation on it.
PME-553.CO2: Discuss indexing on Milling Machine and use indexing to generate a gear.
PME-553.CO3: Generate work block with the use of shaper machine and perform surface
grinding operation.
PME-553.CO4: Perform and practice of Arc welding, soldering and Brazing operations.
PME-553.CO5: Prepare a job on Lathe machine involving different Operation.
MECHANICAL ENGINEERING
B.Tech(3rd Year 6th Semester)
REFRIGERATION & AIR CONDITIONING (TME-601)
TME-601.CO1: Understand various refrigeration cycles and evaluate performance using
various charts and refrigerant property tables
TME-601.CO2: Analyze the cooling capacity and coefficient of performance by using
analytical approach.
TME-601.CO3: Identify the different refrigeration properties and analyze their applications
and effect on environmental issues related to use of refrigerants.
TME-601.CO4: Evaluation of refrigeration requirements and performance of vapour
compression cycle to calculate heating or cooling load for air conditioning systems.
TME-601.CO5: Analyze the systems by making use of Psychometric charts and determine
essential properties related to Psychometric and other processes.
FLUID MACHINERY (TME-602)
TME-602.CO1: Apply the basic concept of momentum equation and its application in
impact of jet.
TME-602.CO2: Understand the various parameters like efficiency, specific speed of impulse
turbines and design methodology of turbines.
TME-602.CO3: Apply the concept of Reaction Turbine, Kaplan & Francis Turbine and their
performance characteristics for utilizing kinetic energy of water.
TME-602.CO4: Interpret the concept of power absorbing devices such as Centrifugal Pump
& Reciprocating Pump and able to draw characteristics curves.
TME-602.CO5: Analyze Model testing of hydraulic machines and its application in other
water lifting devices.
MACHINE DESIGN –II (TME-603)
TME-603.CO1: Formulate the design of spur gear and helical gear and examine failure
under the various loading conditions.
TME-603.CO2: Understand the design of bevel gear, worm gear and estimation of failure
under the various loading conditions.
TME-603.CO3: Analyze bearings like ball bearing and roller bearings based upon various
loading conditions.
TME-603.CO4: Examine the different lubrication system under the journal bearings i.e.
hydrostatic and hydrodynamic bearings
TME-603.CO5: Design of different components of IC Engine parts like cylinder, piston and
connecting rod
INTERNAL COMBUSTION ENGINES (TME-604)
TME-604.CO1: Understand and discuss different air standard cycles, SI and CI engine and
their fuels.
TME-604.CO2: Specify and interpret various ignition systems of SI and CI engines and to
examine their functions.
TME-604.CO3: Analyze various injection systems in Combustion and Spark Ignition
engines.
TME-604.CO4: Classify and explain various fuel supply systems in CI and SI engines.
TME-604.CO5: Determine the types of pollutants, their formation and control in I.C
Engines.
Departmental Elective-I (TME-06X)
GAS TURBINES (TME 061)
TME-061.CO1: Classification of Gas Turbines and various gas turbine power cycles.
TME-061.CO2: Understand function of various components of Gas Turbines such as cooling
systems, Starting ignition system, Combustion system types and Mechanical Design
consideration.
TME-061.CO3: Analyze the overall Mechanical Design consideration of gas turbines.
TME-061.CO4: Discuss various concepts of Aircraft gas turbine engines such as
Computation of net work, thermal efficiency- application to thrust equation.
TME-061.CO5: Parametric cycle analysis of engine design performance parameters, design
point Performance for ideal and turbojet engines.
ADVANCED THERMODYNAMICS (TME 062)
TME-062.CO1: Understand the concept of first and second law of thermodynamics.
TME-062.CO2: Determine availability, exergy, and energy by applying equilibrium
equations.
TME-062.CO3: Interpret various thermodynamic properties of real gases with property
equations.
TME-062.CO4: Grasp the thermodynamic properties and basic concepts of phase
equilibrium of multi component systems.
TME-062.CO5: Discuss the chemical thermodynamic basis and the thermodynamic process
and properties of special systems.
MECHANICAL VIBRATIONS (TME 063)
TME-063.CO1: Understand vibration analysis in design of machine elements operating
conditions.
TME-063.CO2: Ability to formulate the equation of motion for a model of a vibratory
system and find its outcomes.
TME-063.CO3: Analyze real life engineering systems through linear mathematical models.
TME-063.CO4: Apply tools like Lagrange’s equations for determination of linear and
nonlinear systems.
TME-063.CO5: Interpret response of Single & Multiple Degree of Freedom systems to
different types of excitation conditions.
FINITE ELEMENT METHOD (TME 064)
TME-064.CO1: Interpret the solutions given by numerous analytical methods.
TME-064.CO2: Analysis of machine elements using FEM.
TME-064.CO3: Acquire the knowledge of mathematical and engineering tools to design
solutions.
TME-064.CO4: Depict the design ideas in graphical and report formats.
TME-064.CO5: Identify the need to design models to meet the real life challenges.
OPERATIONS RESEARCH (TME-065)
TME-065.CO1: Construct the mathematical model of product mix problem and CPM- PERT
models, apply them to various problems.
TME-065.CO2: Illustrate the importance of Operations Research and mathematical tools for
solving product mix LPP.
TME-065.CO3: Formulate & solve the transportation problems for optimization with the use
of mathematical tool.
TME-065.CO4: Analyze and formulate the managerial decision problem into a mathematical
model using game theory & queuing model.
TME-065.CO5: Interpret the knowledge & tools of operational research in various industries
like marketing, material handling etc.
PLANT LAYOUT & MATERIAL HANDLING (TME 066)
TME-066.CO1: Understand the criteria and strategies, for sustainable and eco-efficient
Facility Design.
TME-066.CO2: Critically analyze the Layout Construction Techniques, Activity, Materials
Flow Analysis and Space Requirements.
TME-066.CO3: Discuss and study type of materials and their movement.
TME-066.CO4: Identify the industrial materials handling equipments and their suitable
applications.
TME-066.CO5: Apply design related mathematical and engineering Techniques such as
Layout Planning and cost estimation to solve real life Facility Layout Problem.
PRINCIPLES OF MANAGEMENT (THU-601)
THU-601.CO1: Compare various thoughts on management, describe current developments
in management practices and apply the Principles of Management in managing areas of
Engineering.
THU-601.CO2: List and describe the types of plans and common planning tools, analyze
organizational problems and develop optimal managerial decisions, identify techniques that
managers use to influence and control the internal environment.
THU-601.CO3: Describe organizational design, evaluate leadership styles and planning to
remove the complexities in the organizations and describe current trends and challenges in
HR management.
THU-601.CO4: Describe common types and causes of conflict that arise within teams,
describe the different levels and types of control.
FLUID MACHINERY LAB (PME-351)
PME-351.CO1: Illustrate and find the performance parameters of Pelton wheel turbines.
PME-351.CO2: Evaluate various performance parameters to find the efficiency of Francis
turbine.
PME-351.CO3: Apply theoretical knowledge to understand different types of Hydraulic
pumps.
PME-351.CO4: Obtain the efficiency of centrifugal and reciprocating pumps under varying
speeds.
REFRIGERATION & AIR CONDITIONING LAB (PME-652)
PME-652.CO1: Understand the principle and Basic Component of air or Window Air
conditioning System and Air washer system.
PME-652.CO2: Demonstrate Different type of Expansion and Evaporator Devices used in
Refrigeration System.
PME-652.CO3: Calculate the various performance parameters on Refrigeration or Air
conditioning Systems.
PME-652.CO4: Evaluation of performance parameter of two stage air Compressor.
MACHINE DESIGN II LAB (PME-653)
PME-653.CO1: Acquire the Knowledge of design procedures for Design of Machine
Element of Mechanical components used in Industries.
PME-653.CO2: Understand the design concept of spur and helical gears for various loading
types.
PME-653.CO3: Apply design applications and failure criteria’s for Ball and sliding contact
bearing for using design data standards.
PME-653.CO4: Design of I.C Engine parts for different working conditions as per design
data book.
MECHANICAL ENGINEERING
B.Tech (4th Year 7th Semester)
CAD/CAM (TME-701)
TME-701.CO1: Analyze and design real world components and develop understanding
basics of Computer Graphics for development of CAD models
TME-701.CO2: Understand CAD/CAM and Computed aided tools and their definitions,
input output devices, various algorithms used for representation of curves.
TME-701.CO3: Comprehend analytical methods to understand engineering analysis of
machine systems using finite element methodology.
TME-701.CO4: Develop into NC and CNC machines and how to do part program for
processes like Turning and milling operations and classify the devices used in NC
machines.(Motor, Interpolator) and control of NC system
TME-701.CO5: Understand the mechatronic system and produce them to help engineering
industry and society for improvement and safety. Sensors, its characteristics & identification
of Interfacing of Sensors /Actuators.
ENERGY CONSERVATION (TME-702)
TME-702.CO1: Examine the energy data of industries for energy audit.
TME-702.CO2: Express the importance of Energy, its conservation, Renewable Energy and
energy efficiency in day to day life as well as for future planning.
TME-702.CO3: Comparative study of Energy Audit and its importance in Industries.
TME-702.CO4: Recommend methodologies for energy savings in thermal systems and
electrical systems etc.
TME-702.CO5: Estimate and suggest the energy performance assessment for power plant
utilities and suggest conservation measures.
MAINTENANCE & SAFETY ENGINEERING (TME-703)
TME-703.CO1: Understand the concepts of reliability, availability, maintainability and to
develop hazard-rate models to know the behavior of engineering components.
TME-703.CO2: Understand the principles and objectives of Maintenance Engineering and
various categories of maintenance to reduce frequency of failures of engineering components
& system.
TME-703.CO3: Formulate the optimal replacement policy subjected to breakdown and to
determine optimal interval for a replacement of equipments.
TME-703.CO4: Identify the key aspects of the safety methods used in manufacturing
processes such as Heat Treatment, Welding and various materials handling equipments.
TME-703.CO5: Apply the acquired knowledge in selection of appropriate Maintenance
System in accordance to Objectives, Functions, Forms, Policy and Planning of the
Organization.
DEPARTMENTAL ELECTIVE-II (TME-07X)
COMPRESSIBLE FLOW (TME 071)
TME-071.CO1: Apply the basic law of thermodynamics to derive the general one
dimensional flow equation.
TME-071.CO2: Impart knowledge of One-dimensional in viscid flow and stagnation
properties for ccompressible flow.
TME-071.CO3: Understand the isentropic flow and concept of normal and oblique shock to
flow systems.
TME-071.CO4: Develop the skills in applying the one-dimensional compressible flows for
converging and converging- diverging duct.
TME-071.CO5: Know the various measuring instruments used in compressible flow.
THERMAL TURBO MACHINES (TME 072)
TME-072.CO1: Elaborate the basic principle of turbo-machinery and use it to numerous
types of machines.
TME-072.CO2: Calculate the velocity triangles of turbo machines under various designing
conditions.
TME-072.CO3: Impart theoretical laws of pumps to determine their off-design behaviour.
TME-072.CO4: Discuss the off-design characteristic of turbines and compressors in relation
to velocity triangles.
TME-072.CO5: Interpret and measure the flow variation in downstream of a turbo-
machinery blade row.
EXPERIMENTAL STRESS ANALYSIS (TME 073)
TME-073.CO1: Evaluation of strains in machine elements under static and dynamic loading
conditions.
TME-073.CO2: Investigate the mechanical parameters making use of strain measurement
devices.
TME-073.CO3: Demonstrate the state of stress using gauges and depict temperature effects
in bonded gauges.
TME-073.CO4: Understand and Analyze the concept of strains, Light and utilize concepts
like photo elasticity and Tardy Compensation.
TME-073.CO5: Investigate the results by using shear difference and oblique incidence
method.
COMPUTATIONAL FLUID DYNAMICS (TME 074)
TME-074.CO1: Analyze the complex fluid-flow systems through modern CFD techniques.
TME-074.CO2: Understand the basic principles of fluid mechanics.
TME-074.CO3: Improve the research in complex fluid-flow problem and to represent the
results in report and graphical form.
TME-074.CO4: Simplify a real world fluid-flow design challenge by making use of
simplified model, their governing equations which represents the physics involved.
TME-074.CO5: Interpret the results of investigated problem analyse the fluid-flow
behaviour.
ADVANCE WELDING PROCESSES (TME-075)
TME-075.CO1: Categorize the various welding processes such as- Electric Arc, Gas, TIG,
MIG, and Resistance welding.
TME-075.CO2: Interpret the concept of thermal and metallurgical consideration of weld and
weldability analysis of metals.
TME-075.CO3: Describe the working and applications of Submerged Arc welding and
Plasma Arc welding.
TME-075.CO4: Compare Principle, working and application of laser beam welding,
Electron welding, Ultrasonic welding etc.
TME-075.CO5: Figure out the welding defects of different material by studying different
destructive and non- destructive testing.
ENGINEERING MATERIALS (TME – 076)
TME-076.CO1: Classify Engineering Materials according to their crystal structure &
property relationship.
TME-076.CO2: Interpretation of material fundamentals and the properties of ferrous and
non ferrous materials and concept of heat treatment processes
TME-076.CO3: Discuss & plot Equilibrium diagrams to find out amount of phases of an
alloy during solidification.
TME-076.CO4: Understand the applications of composite materials, polymers and
elastomers and ceramic.
TME-076.CO5: Distinguish the different mechanical properties of corrosion and wear
resistant materials.
OPEN ELECTIVE –I
RENEWABLE ENERGY (TOME- 701)
TOME-701.CO1: Discuss the necessitate of alternate energy, Hydrogen Energy and Nuclear
energy resources with their applications.
TOME-701.CO2: Understand the concept of solar energy and their components used in the
energy production.
TOME-701.CO3: Illustrate the concept of Wind energy and their components.
TOME-701.CO4: Examine and classify the concept of Biomass energy resources and their
applications
TOME-701.CO5: Evaluate Solar, Wind and bio energy systems with their Advantages and
limitations.
ENGINEERING MATERIALS (TOME – 702)
TOME-702.CO1: Understand the engineering Materials with according to their crystal
structure & property relationship.
TOME-702.CO2: Interpretation of material fundamentals and the properties of ferrous and
non ferrous materials and concept of heat treatment processes
TOME-702.CO3: Discuss & plot Equilibrium diagrams to find out amount of phases of an
alloy during solidification.
TOME-702.CO4: Differentiate the applications of polymers, elastomers, ceramic and
composite materials.
TOME-702.CO5: Distinguish the different mechanical properties of corrosion resistance
material.
EXPERIMENTAL STRESS ANALYSIS (TOME 703)
TOME-703.CO1: Evaluation of strains in machine elements under static and dynamic
loading conditions.
TOME-703.CO2: Investigate the mechanical parameters making use of strain measurement
devices.
TOME-703.CO3: Demonstrate the state of stress using gauges and depict temperature
effects in bonded gauges.
TOME-703.CO4:. Understand and Analyze the concept of strains, Light and utilize concepts
like photo elasticity and Tardy Compensation.
TOME-703.CO5: Investigate the results by using shear difference and oblique incidence
method.
QUALITY CONTROL & MANAGEMENT (TOME -704)
TOME-704.CO1: Understand the concept of Quality Control and Management for assessing
the quality of products and services.
TOME-704.CO2: Implement the Concept of various sampling techniques like acceptance
sampling, sampling by attributes and continuous sampling plans.
TOME-704.CO3: Analyze the variability and capability of different manufacturing process
through control charts.
TOME-704.CO4: Discuss the various Quality Management Concepts like House of quality
(HOQ), Failure mode effect analysis (FMEA), Just-in-time and POKA YOKE etc.
TOME-704.CO5: Develop insight into the Quality systems and their structure, quality
policies, quality audits and assessment.
HYDRAULIC MACHINERY (TOME – 705)
TOME-705.CO1: Apply the basic concept of momentum equation and its application in
impact of jet.
TOME-705.CO2: Evaluate parameters like efficiency, specific speed of impulse turbines
and design methodology of turbines.
TOME-705.CO3: Understand the concept of Reaction Turbine, Kaplan & Francis Turbine
and their performance characteristics for utilizing kinetic energy of water.
TOME-705.CO4: Interpret the concept of power absorbing devices such as Centrifugal
Pump & Reciprocating Pump and able to draw characteristics curves.
TOME-705.CO5: Able to understand Model testing of hydraulic machines and its
application in other water lifting devices.
OPTIMIZATION TECHNIQUES (TOME-706)
TOME-706.CO1: Classify the numerous optimization techniques, including linear
programming etc.
TOME-706.CO2: Analyze the problem by using, network flow algorithms, heuristic
methods.
TOME-706.CO3: Understand and solve problems of environmental and industrial
engineering.
TOME-706.CO4: Formulate the problems of optimization using computational methods.
ALTERNATE ENERGY RESOURCES (TOPE-702)
TOPE-702.CO1: Discuss the need of Alternate energy resources, historical and latest
developments
TOPE-702.CO2: Describe the use of solar energy and the various components used in the
energy production
TOPE-702.CO3: Appreciate the need of Wind Energy and the various components used in
energy generation and know the classifications.
TOPE-702.CO4: Examine the concept of Biomass energy resources and their classification,
types of biogas Plants- applications.
TOPE-702.CO5: Compare Solar, Wind and bio energy systems, their prospects, Advantages
and limitations.
CAD/CAM LAB (PME-751)
PME-751.CO1: Discuss and Compare the Absolute /Incremental Coordinate system and
G/M code.
PME-751.CO2: Understand the CNC control in modern manufacturing system.
PME-751.CO3: Illustrate the use of Auto Cad Commands in Industry.
PME-751.CO4: Create 2D View Geometry using Auto Cad Software.
PME-751.CO5: Prepare CNC part programming and perform operations for turning,
Drilling, Threading.
MECHANICAL ENGINEERING
B.Tech (4th Year 8th Semester)
AUTOMOBILE ENGINEERING (TME- 801)
TME-801.CO1: Learn the basic concepts of an automobile, performance parameters and
torque etc.
TME-801.CO2: Understand the concept of steering mechanism and details of wheels and
tyres.
TME-801.CO3: Interpret performance of braking system, clutch, chassis and its usage in
small and heavy vehicles.
TME-801.CO4: Discuss the importance of lubrication system and temperature profile of heat
flow in an automobile.
TME-801.CO5: Specify concepts of electrical systems like starting system battery, Starting
motor ignition system, purpose and requirement.
POWER PLANT ENGINEERING (TME– 802)
TME-802.CO1: Estimate types of load factors and peak load value.
TME-802.CO2: Understand various operations in thermal Power Plant, pressurized boilers
and Fluidized bed systems.
TME-802.CO3: Identify elements, functions and operations of diesel and gas power plant.
TME-802.CO4: Describe the working and applications of Hydroelectric Plants.
TME-802.CO5: Study and compare the different types of Nuclear Reactors.
DEPARTMENTAL ELECTIVE-III (TME-08X)
SOLAR ENERGY – THEORY & APPLICATIONS (TME 081)
TME-081.CO1: Understand numerous possible source to deliver solar energy.
TME-081.CO2: Estimate new technology to harness the strength of solar energy.
TME-081.CO3: Interpret the pros and cons of solar energy in context to environment.
TME-081.CO4: Design and Formulate feasible solutions for opportunities and challenges for
societal implementation.
PROPULSION SYSTEMS (TME-082)
TME-082.CO1: Explain various terms used in flight propulsion- aircraft gas turbine engines
and performance Parameters.
TME-082.CO2: Apply ccomputational of net work, thermal efficiency- application to thrust
equation.
TME-082.CO3: Estimate the 1-D models and forces produced on aircraft gas turbine engine
and fuels-composition.
TME-082.CO4: Description of flow field-construction and no exit swirl conditions and
computation of ideal and real compressors flow losses.
TME-082.CO5: Estimate the range and velocity of single-stage rockets by determining
parameters like mass fractions and propulsion system performance.
MECHATRONIC (TME-083)
TME-083.CO1: Understand the newest design and modeling of actuators and intelligent
controls sensors.
TME-083.CO2: Classify the use of numerous electronics elements in mechatronics, logic
controllers, micro-controllers microprocessor etc.
TME-083.CO3: Analyze the block diagrams and representation of systems, time response
of a first and second order systems.
TME-083.CO4: Discuss static and dynamic performance characteristics, traditional and
mechatronic design and case studies of mechatronics systems engine management systems.
TME-083.CO5: Compare bionics and avionics mechatronics in manufacturing
manufacturing automatic protocol, adaptive control machine system challenges in
mechatronics production units.
OPTIMIZATION TECHNIQUES (TME-084)
TME-084.CO1: Classify the numerous optimization techniques, including linear
programming etc.
TME-084.CO2: Analyze the problem by using, network flow algorithms, heuristic methods.
TME-084.CO3: Understand and solve problems of environmental and industrial
engineering.
TME-084.CO4: Formulate the problems of optimization using computational methods.
UNCONVENTIONAL MANUFACTURING PROCESS (TME- 085)
TME-085.CO1: Discuss the need of unconventional manufacturing processes.
TME-085.CO2: Understand the concepts of unconventional machining process
TME-085.CO3: Compare various thermal energy based machining processes.
TME-085.CO4: Demonstrate the working and knowledge of various metal joining processes.
TME-085.CO5: Examine the Principle, advantage and limitations of processes of various
high energy forming processes.
ADVANCED METALLURGY (TME-086)
TME-086.CO1: Evaluate the stability of various phases against a metallic melt.
TME-086.CO2: Estimate the evolution of the electrical and thermal conductivity of an alloy
with temperature.
TME-086.CO3: Understand the general physical and mechanical properties of the dominant
metals and alloys.
TME-086.CO4: Define adequate metals and alloys for a given set of requirements.
OPEN ELECTIVE –II
SOLAR ENERGY – THEORY & APPLICATIONS (TOME-801)
TOME-801.CO1: Discuss the need of alternate energy resources and techniques to make
them efficient.
TOME-801.CO2: Understand the concept of solar energy and their components used in the
energy production.
TOME-801.CO3: Illustrate the concept of wind energy and their components.
TOME-801.CO4: Examine and classify the concept of Biomass energy resources and their
applications
TOME-801.CO5: Evaluate Solar, wind and bio energy systems with their advantages and
limitations.
PRODUCTION PLANNING & CONTROL (TOME-802)
TOME-802.CO1: Interpret the objectives and applications of PPC techniques.
TOME-802.CO2: Understand numerous control techniques of Inventory.
TOME-802.CO3: Analyze the various types of industrial engineering problems using
routing and scheduling.
TOME-802.CO4: Design production control solutions using techniques like MRP,
Dispatching etc.
TOME-802.CO5: Develop a mathematical model by using Control Charts.
PLANT LAYOUT & MATERIAL HANDLING (TOME-803)
TOME-803.CO1: Understand the criteria and strategies, for sustainable and eco-efficient
Facility Design.
TOME-803.CO2: Critically analyze the Layout Construction Techniques, Activity,
Materials Flow Analysis and Space Requirements.
TOME-803.CO3: Discuss and study type of materials and their movement.
TOME-803.CO4: Identify the industrial materials handling equipments and their suitable
applications.
TOME-803.CO5: Apply design related mathematical and engineering Techniques such as
Layout Planning and cost estimation to solve real life Facility Layout Problem.
TOTAL QUALITY MANAGEMENT (TOME–804)
TOME-804.CO1: Understand the quality concept in design of products and services.
TOME-804.CO2: Implement the concept of quality management and economics of quality
value.
TOME-804.CO3: Analyze the variability and capability of different manufacturing process
through control charts.
TOME-804.CO4: Discuss the various Quality Management Concepts like maintenance,
reliability and interpretation of test results.
TOME-804.CO5: Importance of significance of quality. Manage quality improvement teams
and Identify requirements of quality improvement programs
INDUSTRIAL ENGINEERING (TOME-805)
TOME-805.CO1: Interpret the concept of productivity, productivity index and value
engineering.
TOME-805.CO2: Estimate the time study, work study and method study based on industrial
applications.
TOME-805.CO3: Summarize Plant layout and materials Handling, Replacement Analysis,
and Maintenance Management.
TOME-805.CO4: Planning the inventory control and management of material requirement
and supply chain Management.
TOME-805.CO5: Understanding of the Queuing and CPM- PERT models and apply them to
real-life problems.
NON DESTRUCTIVE TESTING (TME-506)
TME-506.CO1: Understand & apply scientific / technical knowledge to the field of non
destructive testing.
TME-506.CO2: Identify the types of equipment used for each Non-Destructive and
Destructive Examination.
TME-506.CO3: Explain the purpose of the Equipment, Application, and standard techniques
required to perform major non-destructive testing for various engineering practice.
TME-506.CO4: Apply specific Code, Standard, or Specifications related to each testing
method and achieve high level of professionalism with the help of case studies in their work.
TME-506.CO5: Identify strengths and weaknesses of each testing technique for their
selection and relevant use in various engineering systems.
AUTOMOBILE ENGINEERING LAB (PME-851)
PME-851.CO1: Interpret and specify mechanical brakes and fuel supply of petrol engine.
PME-851.CO2: Examine and understand the concept of Davis and Ackerman steering
mechanism systems.
PME-851.CO3: Understand the working and emerging trends in diesel engines.
PME 851.CO4: Learn the working and principle of ignition systems, M.P.F.I system.
PME-851.CO5: Define and elucidate the basics of cooling systems, lubrication systems and
pollutant formation.