Recognized under UGC Section (2f) of the UGC Act 1956

B.Tech Mechanical Engineering-PO/PSO



CO Sl. 


COURSE OUTCOMES  Mapping of course 

outcome with PO and PSO

PROGRAM – Mechanical Engineering
BMET102 Basic Mechanical Engineering


CO1- To Understand, describe and use basic engineering concepts.

CO2-Principles and components of mechanical equipment.

CO3- Basic Understanding thermodynamics and its applications.

CO4- Calculation of friction and revolution in mechanical parts.

CO5-Basic understanding of IC Engine.

CO6-Understand the basic of Engineering Materials (its applications)  and Stress-Strain.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10,  PO11, PO12, PSO1, PSO2
BAST 301 Mathematics III


CO1- Understand the Concept of Curve Fitting by the method of Least  Square.

CO2- Understand the solution of linear differential equation using  Runga-Kutta and Milne-Thomson Predictor and Corrector method.

CO3- Understand the concept of Skewness and Kurtosis and  Correlation and Regression.

CO4- Understand the Concept of Interpolation, Numerical  Differentiation and Numerical Integration.

CO5- Calculate the root of algebraic and transcendental equations by  the help of Numerical Methods.

CO6- Understand the concept of Laplace and Fourier Transform and  APPLY in solving Differential Equations and Engineering Problems.

PO1, PO2, PO3, PO4
BMET 302 Basic Thermodynamics


CO1-Understandabout work and heat interactions, and balance of  energy between system& surroundings

CO2-To know about application of first law to various energy  conversion devices

CO3-To Analyze the changes in properties of substance in various  process

CO4-Understand the difference between high grade and low grade  energies and second law limitation on energy conversion

CO5-Analyze different air standard cycle and there practical uses

CO6- Apply thermodynamics laws for real time application

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10,  PO11, PO12, PSO1, PSO2
BMET 303 Materials Science & Technology
BMET  303 CO1-Introduction and importance of materials, concept of unit cell  space lattice, imperfection and defect in solid.

CO2-Understand concept of mechanical behavior of materials and  calculations of same using appropriate equations

CO3-Explain the  concept of phase & phase diagram &understand the basic  terminologies associated with metallurgy. Construction and  identification of phase diagrams and reactions

CO4-Understand and suggest the heat treatment process & types.  Significance of properties Vs microstructure. Surface hardening & its  types. Introduce the concept of hardenability & demonstrate the test  used to find hardenability of steels

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10,  PO11, PO12, PSO1, PSO2
BMET 304 Strength of Material


CO1- Understand the free Body Diagrams (FBD) for rigid bodies,  beams, 2-D and 3-D structures, frames and machines, and set up  equilibrium equations (i.e. forces and couples) for them.

CO2-Understand and apply the fundamental concepts of stress and  strain and the relationship between both through the strain-stress  equations in order to solve problems for simple dimensional elastic  solids

CO3- Understand and apply the load transferring mechanism in beams  and stress distribution due to shearing force and bending moment

CO4- Determine the deflections and rotations produced by the axial  loads

CO5- Determine the stresses and strains in members subjected to  combined loading and apply the theories of failure for static loading

CO6- Analyze and design thin and thick shells for the applied internal  and external pressures

PO1, PO2, PO3, PO5, PO6,  PO7, PO8, PO9, PO10,  PO11, PO12, PSO1, PSO2
BMET 305 Manufacturing Science & Technology-I


CO1- To remember and understand the basic concept and idea of  various manufacturing process.

CO2- To understand basic concept of casting and will be able to  design the parts of casting and apply this knowledge to experiment.

CO3- To understand metal forming fundamentals, able to categories  forming processes, analyze the various aspects of forming.

CO4- To understand fundamentals of press working and able to  classify various press working processes ,and differentiate between  them.

CO5- To understand powder metallurgy concept, jigs and fixtures  and plastic manufacturing processes and able to apply this  knowledge to manufacture.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1,  PSO2
BMET 401 Applied Thermodynamics Engineering


CO1- Understand the laws of thermodynamics and determine  thermodynamic properties, gas laws.

CO2- APPLY the concept of properties during various phases of  pure substances, mixtures, usage of steam tables and Mollier chart,  psychometric charts.

CO3- Understand of ideal air standard, vapor cycles and evaluate  their performance in open systems. Like steam power plants engines,  gas turbines etc.

CO4- Solve problems of different types of cycles and their  performance which emphasizes knowledge in power cycles.

CO5- Classify different types of coupled vapor cycles and list the  advantages of combined cycles power plant.

CO6- Understand the principles of jet propulsion, Turbojet and  turboprop engines & their processes.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1,  PSO2


CO1- Understand Human values, need and concept in individual’s  life

CO2-Analyze the concept of co-existence and evaluate the program  to ensure self-regulation

CO3- Understand and identify holistic perception of harmony at all  levels such as self , family , society and nature

CO4- Reshape the concept about different values and discriminate  them

CO5- Apply professional ethics in future profession and contribute  towards building a value based society

CO6- Incorporate self-exploration and its application for self evaluation and development.

PO1, PO2, PO3, PO4, PO5, PO6, PO7,PO8, PO9, PO10, PO11, PO12, PSO1, PAO2
BECT 402 Energy & Environmental Engineering


CO1-Apply advanced level knowledge, techniques, skills and  modern tools in the field of

Energy and Environmental Engineering.

CO2-Distinguish the different energy generation systems and their  environmental impacts.

CO3-Respond to global policy initiatives and meet the emerging  challenges with sustainable Technological solutions in the field of energy and environment.

CO4- Illustrate different eco systems and their inter linkages

CO5- Illustrate the role of government, NGO and other organizations  in protection of environment from different types of pollutions.

PO1, PO2, PO3, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1, PSO2
BMET 403 Theory Of Machine


CO1- Understand the principles of kinematic pairs, chains and their  classification, DOF, inversions, equivalent chains and planar  mechanisms also Analyze the planar mechanisms velocity and  acceleration.

CO2- Identify the various types of cams and followers and plot  velocity and acceleration time curves for different follower motion  and draw the suitable cam profiles, also analyze various motion transmission elements like gears and gear train depending on  application

CO3- Construct the turning moment diagrams for various engines and determine the dimensions of flywheel to control the fluctuation  of energy

CO4- Identify the static and dynamic unbalance present in the  system and the methods of balancing the primary and secondary  forces.

CO5- Apply the various types of governors used in engines and  explain various terms like sensitiveness, hunting, isochronisms  relating to governors

CO6- Analyze the force analysis and power calculations of brakes  and dynamometer

PO1, PO2, PO3, PO5, PO6,  PO7, PO8, PO9, PO10,  PO11, PO12, PSO1, PSO2
BMET-404 Fluid Mechanics
BMET 404 CO1- Identify and obtain the values of fluid properties and  relationship between them.

CO2- Examine the pressure variation, measurement and pressure on  submerged and floating bodies

CO3- Apply the principles of continuity, momentum, and energy and  application through fluid kinematics and dynamics

CO4- Formulate the relationship between physical parameters that  influence the flow in fluid mechanics and to predict the  performances of prototype by model studies.

CO5- Estimate losses in pipelines for both laminar and turbulent  conditions and analysis of pipes connected in series and parallel.

CO6- Understand viscous and non-viscous flow over bodies,  boundary layer and calculates the lift and drag forces on submerged  bodies.

PO1, PO2, PO3, PO12,  PSO1, PSO2
BMET 405 Manufacturing Science & Technology-II


CO-1: Illustrates the fundamental concepts of cutting processes,  distinguish various cutting tool materials and cutting fluids.

CO-2: Illustrates the working principals of various machine tools  such as milling, lathe shaper and planner

CO-3: Demonstrates various grinding, finishing and super operations  and their applications, to select appropriate manufacturing process to  manufacture any component

CO-4: Illustrates fundamentals of welding and allied processes and  select appropriate welding process to join any workplace.

CO-5: Illustrates various un-conventional manufacturing processes  and their applications

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1, PSO2
BMET 501 Industrial Engineering & Ergonomics
BMET  501  CO1: Understand the Productivity and find best suitable method for  doing a job.

CO2: Understand the work measurement and calculate the standard  time for completing a task.

CO3: Find the merit ratings and work sampling procedure and  understand managerial economics and Find the various job  evaluation techniques

CO4: Understand the relation between human and machine.

CO5: Apply the concept of Inventory, Audit and Supply chain  management

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1,  PSO2
BMET -502 Machine Component Design –I
BMET -502  CO1- Illustrate the fundamentals of stress analysis, theories of  failure and material science in the design

of machine components.

CO2- Analyze the principle of solid mechanics to design machine  member, under variable loading.

CO3- Analyze the shaft design based on strength, rigidity and  design various types of coupling based

on application

CO4- Compare and analyze design parameters of Springs& joints  on various loading application.

CO5- Illustrate the different types of Product design &  development.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10,  PO11, PO12, PSO1
BMET -503 Heat & Mass Transfer
BMET -503  CO1- Demonstrate an understanding of the basic concepts of  conduction, radiation, and convection heat transfer.

CO2- Calculate steady and unsteady state heat conduction in one  dimension

CO3- Calculate the convection heat transfer coefficient in  different convection environments

CO4- Calculate the radiant heat transfer between solid bodies,  black or gray in nature

CO5- Apply the basic concepts of heat transfer and fluid flow to  heat exchanger design

CO6- Test performance and measure heat/ mass transfer  parameters of several engineering systems

PO1, PO2, PO3, PO5, PO6,  PO7, PO8, PO9, PO10,  PO11, PO12, PSO1, PSO2
BMET-504.1 (A) I. C. Engine

504.1 (A)

CO1- Understand working phenomenon and Analyze performance  behavior of SI and CI engines as per classification with real cycle  analysis.

CO2- Analyze combustion characteristics of internal combustion  engines and identify the abnormalities in combustion.

CO3- Understand working phenomenon of different types of  accessories used in SI and CI engines like fuel injectors and  injection system, carburetor, fuel pumps and nozzles etc.

CO4- Analyze the rating factors and quality of SI and CI engine  fuels and modern alternative fuels.

CO5- Apply principles of thermodynamics, fluid mechanics, and  heat transfer to the design and analysis of specific engine  components like performance, power and efficiency booster  accessories used in SI and CI and specific techniques.

CO6- Determine performance, cycle efficiency, work output and  required heat input for SI, CI engine and its accessories with a  given set of operating parameters.

PO1, PO2, PO3, PO4, PO6,  PO7, PO8, PO11, PO12,  PSO1, PSO2
BOET 504(D) Innovation and Entrepreneurship


CO1- Key concepts underpinning entrepreneurship and its  application in the recognition and exploitation of product/ service/ process opportunities.

CO2- Key concepts underpinning innovation and the issues  associated with developing and sustaining innovation within organizations

CO3- How to design creative strategies for pursuing, exploiting  and further developing new opportunities.

CO4- Issues associated with securing and managing financial  resources in new and established organizations.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1, PSO2
BMET 601 Turbo Machinery
BMET 601  CO1- Determine the velocity triangles in turbo machinery stages  operating at design and off design conditions.

CO2- Apply the affinity laws to pumps such as to determine their  off-design behavior.

CO3- Perform the preliminary design of turbo machines (pumps,  compressors, turbines) on a 1- D basis

CO4- Recognize relations between choices made early in the turbo  machinery design process and the final components and operability.

CO5- Recognize and discuss today’s and tomorrow’s use of turbo  machines for enabling a sustainable society.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10,  PO11, PO12, PSO1, PSO2
BMET 602 Machine Component Design–II
BMET 602  CO1- Enable students to attain the basic knowledge required  understanding, analyzing, designing and select machine elements  required in transmission systems.

CO2- To develop the ability of the selection of gear types,  sizing, analysis and material selection of gear systems.

CO3- To develop the ability of the selection of bearings, analysis  and material selection of bearings.

CO4- To develop an ability to design I.C. Engine parts,  component, or process to meet desired needs.

CO5- To analyze, identify, formulate, and solve engineering  problems.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9,PO10, PO11, PO12, PSO1
BMET -603 Refrigeration and Air-condition
BMET -603  CO1: Understand the basic of refrigeration and define the  various applications and working principle of refrigeration  system.

CO2: Define the concept of Vapor compression Refrigeration  cycle and identify various methods to improve the Performance  of the cycle.

CO3: Demonstrate the working principles of Vapor  Absorption and compare it with Vapor compression cycle.

CO4: Analyze air-conditioning processes using the principles of  psychrometry and estimate various essential properties related to  Psychrometry and processes.

CO5: Evaluate cooling and heating loads in an air-conditioning  system and Classify the various types of Refrigerant and their  properties

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1, PSO2
BMET 604(A) Mechatronics


CO1- Install, troubleshoot, maintain and repair mechatronic  systems using industry-standard tools, practices, and procedures.

CO2- Assist in design and rebuilding projects.

CO3- Follow, develop, and troubleshoot manufacturing  processes and procedures.

CO4- Organize, interpret, and use technical information and  documentation.

CO5- Mechatronics applications and the use of micro-sensors  and microprocessors.

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1,  PSO2
BOME 605 (C) Renewable Energy Technology
BOME 605  (C) CO1-Illustrate the environmental aspects of non-conventional  energy resources.

CO2-Illustrate the need of renewable energy resources, historical  and latest developments.

CO3-Apply the use of solar energy and the various components  used in the energy production with respect to applications like – heating, cooling, desalination,  power generation, drying, cooking etc

CO4-Appreciate the need of Wind Energy and the various  components used in energy generation and Know the classifications.

CO5-Appreciate the concept of Biomass energy resources and  their classification, types of biogas Plants applications

PO1, PO2, PO3, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1
BMET 701 Maintenance and Safety
BMET 701  CO1- Analyze failure data, maintainability, availability and  reliability.

CO2- Evaluate different Maintenance Strategies

CO3- Interpret different Replacement techniques and planning

CO4- Compare various handling techniques in engineering  industries.

CO5- Use different concepts of Maintenance Management and  spare parts planning and control.

CO6- Select appropriate recovery method for machine elements.

PO1, PO2, PO3, PO4, PO5,  PO6, PO7, PO8, PO9, PO10, PO11 PO12, PSO1,  PSO2
BMET-702 Computer Integrated Manufacturing
BMET-702  CO1- Explain the CIM concepts and basic elements of an  automated system.

CO2- Explain the concept of Computer aided process planning  and material requirement planning.

CO3- Discuss the concept of cellular manufacturing using Rank  order clustering and Hollier method.

CO4- Explain FMS planning and applications of Automated  guided vehicle systems.

CO5- Explain the concepts of robot control system and part  programming.

PO1, PO2, PO3, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1, PSO2
BMET 703(C) Mechanical Vibration


CO1- Constructing the governing differential equation and its  solution for a vibrating mass subjected to an arbitrary force.

CO2- Solve the motion and the natural frequency for forced  vibration of a single degree of freedom damped or undamped  system.

CO3- Solve vibration problems that contain two degrees of  freedom.

CO4- Solve vibration problems that contain multiple degrees of  freedom.

CO5- Estimate numerical solutions to vibration problems by  simple algorithms, and display the findings in graphical form.

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12,  PSO1, PSO2
BMET 704(A) Energy Conservation


CO1- Analyze the Need for Energy Conservation, Energy  Sources, Supply & Demand Overview of Electrical and Thermal  Energy.

CO2- Illustrate the knowledge of basic principles of energy  auditing, types and objectives, instruments used.

CO3- Analyze energy systems from a supply and demand  perspective

CO4- Understand and evaluate the energy economy final energy  consumption energy needs of growing economy

CO5- Apply appropriate energy conservation method to reduce  the wastage of energy.

CO6- Perform evaluation on energy systems, efficient system  operation, flow control strategies and energy conservation  opportunities

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12,  PSO1
BMET 801 Operation Research
BMET 801  CO1- Define and formulate linear programming problems and  appreciate their limitations.

CO2- Apply the concept of simplex method and its extensions to  dual simplex algorithm.

CO3- Solve the problem of transporting the products from  origins to destinations with least transportation cost and also  assigning the cost with time.

CO4- Understand the concepts and prominent applications of  Game Theory

CO5-Recognize the basic type of queuing model, derive and  calculate steady state system performance characteristics and  analyze projects with a view to managing resources, minimizing  costs, and coping with uncertainty

CO6- Design new simple models, like: CPM to improve decision  –making and develop critical thinking and objective analysis of  decision problems

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12,  PSO1, PSO2
BMET 802 Automobile
BMET 802  CO1- Identify the automobile and its parts and about SI &  CI engine

CO2- Analyze the cooling and lubrication system

CO3- Describe how the steering and the suspension systems  operate.

CO4- Understand the chassis system

CO5- Develop a strong base for understanding future  developments in the automobile industry.

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12,  PSO1, PSO2
BMET-802 (A) Power Plant Engineering
BMET-802  (A) CO1: Describe and analyze different types of sources and  mathematical expressions related to thermodynamics and various  terms and factors involved with power plant operation.

CO2: Analyze the working and layout of steam power plants and  the different systems comprising the plant, and discuss about its  economic and safety impacts

CO3: Define the working principle of diesel power plant, its  layout and various system involve in diesel engine and analyze  its operation and efficiency

CO4: Discuss the working principle of Gas power plant, its  layout and Discuss various auxiliary systems used in Gas power  plant and find its efficiency.

CO5: Discuss and Analyze the working principle and basic  components of the hydro electric plants and Nuclear energy  Power Plant

PO1, PO2, PO3, PO4, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12,  PSO1, PSO2
BMET-803 (B) Environment and Ecology
BMET-803  (B) CO1- Explain the process and philosophical basis of scientific  inquiry.

CO2- Describe the basic principles of ecology, including  population ecology, community ecology, and ecosystem  function.

CO3- Describe the characteristics of the major biomes and  ecosystems of the Earth.

CO4- Describe the interrelationships between land, sea, the  atmosphere and the living things that occupy these  environments.

CO5- Discuss the role that humans play in affecting the  characteristics of the environment.

CO6- Evaluate current environmental issues and problems  including the solutions and management practices that have been  used or offered to address these issues and problems.

PO1, PO2, PO3, PO5, PO6, PO7, PO8, PO9, PO10, PO11, PO12, PSO1