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.
B.L.D.E.Association’s Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Program Outcomes
Department: Automobile Engineering
List of 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.
PO12. Life-long learning: Recognize the need for, and have the preparation and ability to engage in
independent and life-long learning in the broadest context of technological change.
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.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Program Specific Outcomes Department: Automobile Engineering
By the time of graduation, Automobile Engineering students can
List of Program Specific Outcomes (PSO)
PSO1. Automobile engineering graduates will be able to provide feasible solutions to problems of
automotive industry.
PSO2. Automobile engineering graduates will be able to use modern CAE tools to design and develop
automotive systems.
PSO3. Automobile engineering graduates will be able to estimate the servicing and overhauling cost and
troubleshoot automobile sub-components and assembly.
C01
CO2
CO3
CO4
CO5
C01
CO2
CO3
CO4
CO5
1. TRANSFORM
CALCULUS, FOURIER
SERIES AND NUMERICAL
TECHNIQUES
18MAT31
Use Laplace transform and inverse Laplace transform in solving differential/ integral equation
arising in network analysis, control systems and other fields of engineering.
Demonstrate Fourier series to study the behaviour of periodic functions and their applications in
system communications, digital signal processing and field theory.
Make use of Fourier transform and Z-transform to illustrate discrete/continuous function arising
in wave and heat propagation, signals and systems.
Solve first and second order ordinary differential equations arising in engineering problems
using single step and multistep numerical methods.
Determine the externals of functional using calculus of variations and solve problems arising
in dynamics of rigid bodies and vibrational analysis.
2. STRENGTH OF
MATERIALS
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
18CV32
Understand the basics of stress, strain, Elastic constants and strengths of different engineering materials
Calculate stresses and strains in different sections/materials under different loading conditions
Understand different energy methods, calculate stresses in thick & thin cylinders.
Understand the concepts and calculate Shear forces, Bending moments & deflections in beams under different loading
conditions.
Understand the concepts of torsion of shafts and calculate torsional shear forces, rigidity/stiffness of shafts, Power
transmitted.
Understand the concepts of buckling of columns and calculate buckling loads and corresponding stresses.
III Semester
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
CO5
C01
CO2
CO3
CO4
CO5
3. MANUFACTURING
PROCESS-I18AU35
Explain moulding sand, Ingredient of sand and Properties of sand to obtain high quality casting
Define core and its need in casting process.
Explain criterion to select suitable machines by which cores can be prepare in large scale.
Explain working of different moulding system and enter molten metal to mould casting.
Explain construction features of welding and different welding process.
Define newer welding system, laser beam welding and metallurgical aspect of welding.
4. MATERIAL SCIENCE
AND METALLURGY18AU34
Understand Crystal structures & Crystal Defects
Understand Elastic and Plastic properties of materials and types of Fracture their theories
Understand construction of Phase diagram, Solidification of metals and alloys and importance of Fe-C diagram
Understand importance of composite materials and their applications in engineering field
Understand ferrous and non ferrous Engg alloys and their applications in engineering field
Realize importance & use of different types of heat treatment and their applications in engineering field
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
CO5
CO6
C01
CO2
CO3
CO4
CO5
6. MECHANICAL
MEASUREMENTS AND
METROLOGY
18CV36
Define measurements and metrology; explain the significance of mechanical measurements, characteristics of measuring
instruments, components of a generalized measurement system, and standards of length.
Classify comparators and explain the working principle of comparators; explain the working principle of angle measuring
instruments.
Classify transducers, explain the working principle of different types of transducers; explain the functions and types of
intermediate modifying devices; explain the working principle of inter-ferometry and autocollimator.
Explain the working principle of instruments used for measurement of Force and Torque; explain the working principle of
terminating devices
Explain the principle of interchangeability and selective assembly; explain the Indian standards of limits and fits; explain
the geometric and position tolerances.
Explain the working principle of instruments used for measurement of Strain, Pressure and Temperature.
5. BASIC
THERMODYNAMICS18AU33
Understand the basic concepts of thermodynamic such as temperature, pressure, system, properties, process, state, cycles
and equilibrium.
Understand regarding the measurement and calibration of temperatures and pressures in groups.
Ability to identify the properties of substances on property diagrams and obtain the data from property tables
Apply Second Law of Thermodynamics and entropy concepts in analyzing the thermal efficiencies of heat engines such as
Carnot and Rankine cycles and the coefficients of performance for refrigerators.
Define energy transfer through mass, heat and work for closed and control volume systems.
Apply the first Law of Thermodynamics on closed and control volume systems
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III Semester
C01
CO2
CO3
CO4
CO5
C01
CO2
CO3
CO4
CO5
Make use of the correlation and regression analysis to fit a suitable mathematical model for the
statistical data.
Construct joint probability distributions and demonstrate the validity of testing the hypothesis.
2. FLUID MECHANICS 18CV42
Define, Classify fluid properties & understand classification of fluids and their application
Understand techniques of pressure measurements and velocity and acceleration of fluid particles
Understand principles of Buoyancy and stabilities of floating bodies
Understand problem of flow through pipes & importance of Darcy equation and its application.
Understand forces acting on submerged bodies & concepts of compressible flows.
1. COMPLEX ANALYSIS,
PROBABILITY AND
STATISTICAL METHODS
18AUT41
Use the concepts of analytic function and complex potentials to solve the problems arising in
electromagnetic field theory.
Utilize conformal transformation and complex integral arising in aerofoil theory, fluid flow
visualization and image processing.
Apply discrete and continuous probability distributions in analyzing the probability models
arising in engineering field.
Understand importance of Bernoullis equation & its application in the engineering field
IV Semester
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
CO5
C01
C02
C03
C04
Choose cooling and lubrication system for internal combustion engine
Analyse effect of supercharging and turbocharging on engine performance
4. AUTOMOTIVE ENGINES 18AU44
Explain need, constructional details and working of various auxiliary system used for internal
combustion engine, scavenging systems for two stroke engines
Calculate efficiency of theoretical , fuel air and actual cycles
3. KINEMATICS OF
MACHINERY18CV43
Define and explain the terms such as Link, Kinematic chain, Kinematic pair, types of pairs, degree freedom, Mechanism;
Determine the mobility of given mechanism and sketch and explain various types of mechanisms, and their inversions.
Make Velocity and Acceleration analysis of simple mechanisms using Analytical and Graphical methods.
Make velocity and acceleration analysis of single slider crank mechanism, four bar chain and slider crank chain using
complex algebra and Klein’s construction.
Determine the velocity ratio in different gear trains using algebraic and tabular methods.
Draw cam profile and calculate the velocity and acceleration of cams at any given instant using graphical method.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
C01
C02
C03
C04
CO5
C01
C02
C03
Explain the nomenclature of single point cutting tool, mechanics of chip formation, tool failure criteria
and to solve problems on evaluation of tool life. Construction and working of various systems in a Lathe, Shaper, Classify
grinding and milling machines and explain their construction.
5. MANUFACTURING
PROCESSES-II18AU45
Use modern instruments to obtain geo-spatial data and analyse the same to appropriate engineering problems.
Explain the principles of broaching.
Select non-traditional machining process for given application.
6.COMPUTER AIDED
MACHINE DRAWING18AU46
Use tools of drafting and modeling software
7.ADDITIONAL
MATHEMATICS – II
18MATDIP
41
Solve systems of linear equations using matrix algebra.
Apply the knowledge of numerical methods in modelling and solving of engineering problems.
Apply the knowledge of numerical methods in modelling and solving of engineering problems.
Draw the sections of solids, orthographic views of simple machine parts using software
Sketch and explain various thread forms and their application.
Calculate parameters related to riveted joints and sketch them.
Prepare assembly drawing from the list of components.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC04
C05
7.ADDITIONAL
MATHEMATICS – II
18MATDIP
41
Classify partial differential equations and solve them by exact methods.
Apply elementary probability theory and solve related problems.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III Semester
C01
CO2
CO3
C01
CO2
CO3
CO4
CO5
1.MANAGEMENT AND
ENTREPRENEURSHIP18AU51
Explain management functions of a manager. Also explain planning and decision making processes,
organizational structure, staffing and leadership processes, understanding of motivation and different
control systems in management.
Understand labour output, equipment efficiency to allocate resources required for an activity / project to
achieve desired quality and safety.
Identify various types of supporting agencies and financing available for an entrepreneur.
2. DYNAMICS OF
MACHINES18AU52
Calculate static and dynamic forces at various points in different types of mechanism, flywheel
dimensions.
Determine and take corrective action on imbalance due to rotating masses and reciprocating masses.
Find controlling force in various governors.
Describe fluctuation of energy in flywheel, various types of governors and to understand method of
finding.
Analyse gyroscopic effect on aeroplane and automobiles stability. Draw cam profiles for different follower motions.
V Semester
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
C01
CO2
CO3
CO4
CO5
3.DESIGN OF MACHINE
ELEMENTS -I18AU53
Define and explain basic terms related to the design of machine elements.
Design various machine elements
4. AUTOMOTIVE FUELS
AND COMBUSTION18AU54
Explain available energy sources for internal combustion engine
Determine correct A/F ratio for a given fuel.
Explain stages of combustion in S.I. & C.I. engines.
Design SI & CI engine combustion chambers.
Explain and differentiate between multi fuel and duel fuel engines.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
C01
CO2
CO3
CO4
5. AUTOMOTIVE
TRANSMISSION18AU55
Explain the Constructional, design and working principles of different types of clutches, fluid
couplings, torque convertors, different gear box etc..
Determine the gear ratio, speed of vehicle and number of teeth on driving and driven gears.
Explain the constructional and principle of operation of different types epicyclic gear box, Calculation
of gear ratio for epicyclic gear box.
Explain the necessity, advantages, constructional and principle of operation of different types of
automatic transmissions and hydraulic control.
6. HYDRAULICS AND
PNEUMATICS18AU56
Introduce basics of Hydraulics and pneumatics.
Describe Various components of hydraulic system and maintenance of hydraulic system
Design hydraulic system.
Describe layout and details of pneumatic systems.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
7. ENVIRONMENTAL
STUDIES18CVV59
Understand the principles of ecology and environmental issues that apply to air, land, and water
issues on a global scale,
Develop critical thinking and/or observation skills, and apply them to the analysis of a problem
or question related to the environment.
Demonstrate ecology knowledge of a complex relationship between biotic and abiotic components.
Apply their ecological knowledge to illustrate and graph a problem and describe the realities that
managers face when dealing with complex issues.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III Semester
C01
C02
C03
C04
C05
C01
C02
C03
C04
Analyze all modes of heat transfer and mass transfer under different conditions.
Calculate heat exchange through heat exchanger.
Apply laws of radiation heat transfer to solve engineering problems.
1. AUTOMOTIVE CHASSIS
& SUSPENSION18AU61
Explain different chassis layouts and frames, Suspensions, Wheels and Tyres, Propeller Shaft,
Differential and Rear Axles, etc.
Determine stability and weight distribution and suitability of frames.
Calculate dimensions of major chassis components.
Describe, about various Front Axles, factors of wheel alignment Steering Systems and Calculate
dimensions of Front Axle.
Compare various types of Brakes and solve numerical. Diagnose the troubles of chassis components and suggest
remedies.
2. HEAT AND MASS
TRANSFER18AU62
VI Semester
Explain fundamental principles and laws of conduction, convection and radiation modes of heat
transfer and mass transfer.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
C02
C03
C04
C05
C01
C02
C03
C04
Analyze the stresses in the critical section of a curved beam.
Calculate specifications of springs/gears/clutches.
Select suitable size, module & type of gears for a required velocity ratio.
Verify suitability of a type and class of lubricant for a specific application.
Design various internal combustion engine parts.
Describe need for alternative fuels for Internal combustion engine and alternative drive systems for
automobiles, principle of solar energy collection, construction of photo voltaic cells
Explain various properties, methods of production of Bio gas, methanol, ethanol, SVO, Bio diesel
18AU641
Explain use of hydrogen for internal combustion engine application.
Describe use of various gaseous fuels for internal combustion engine application. Explain various aspects of electrical and
Hybrid vehicles
3. DESIGN OF MACHINE
ELEMENTS-II18AU63
4.ALTERNATIVE ENERGY
SOURCES FOR
AUTOMOBILES (Elective)
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
C01
C02
C03
C04
CO1
CO2
CO3
CO4
5.AUTOMOTIVE
POLLUTION AND
CONTROL (Elective)
18AU643
Explain air pollution and pollutants, their sources & their effects.
Describe different parameters responsible for pollutant formation.
Choose instruments for pollution measurements.
Analyze measurement of pollutants.
Compare electrical and Electronic ignition system
6. ALTERNATE BUILDING
MATERIALS (Elective)18CV643
Solve the problems of Environmental issues concerned to building materials and cost effective building
technologies;
Select appropriate type of masonry unit and mortar for civil engineering constructions; also they
are able to Design Structural Masonry Elements under Axial Compression.Analyse different alternative building materials which will be suitable for specific climate and in an
environmentally sustainable manner. Also capable of suggesting suitable agro and industrial wastes as a
building material.
Recommend various types of alternative building materials and technologies and design a energy efficient
building by considering local climatic condition and building material.
7. VEHICLE TRANSPORT
MANAGEMENT (Open
Elective)
18CV644
Explain construction and working of internal combustion engine, working of different fuel systems,
etc,
Calculate gear ratios for given power transmission.
Describe emissions of pollutants from internal combustion engines and methods of controlling.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
CO5
8. INTERNSHIP 18CV653
Gain practical experience within industry in which the internship is done. Acquire knowledge of the industry in which the
internship is done. Apply knowledge and skills learntto classroom work.
Develop a greater understanding about career options while more clearly defining personal career
goals.
Experience the activities and functions of professionals.
Develop and refine oral and written communication skills. Identify areas for future knowledge and skill development.
Expand intellectual capacity, credibility, judgment, intuition.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III Semester
C01
CO2
CO3
CO4
C01 Explain the construction of battery used in automotive vehicles.
Describe the construction and working of D.C. generator, alternator, cranking motor, ignition systems
along with trouble shooting.
Describe the fundamentals of structural mechanics and finite element method.
Develop element stiffness matrix for different elements using various methods.
Illustrate different methods of deriving shape functions for various elements.
Analyze one dimensional structural and thermal problem.
2. AUTOMOTIVE
ELECTRICAL AND
ELECTRONIC SYSTEMS
18AU72
CO2
1. QFINITE ELEMENT
MODELLING AND
ANALYSIS
18AU71
VII Semester
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterCO3
CO4
CO5
C01
CO2
CO3
C01
CO2
CO3
CO4
CO5
Explain basic concepts of TQM, leader ship qualities, different factors of customer satisfaction and
benefits of involvement of employee in quality management
Describe various techniques for continuous process improvement and its benefits, importance of
HR dept.
Apply various tools and techniques in industries to achieve the higher productivity
Conduct recruitment process, importance of training of employees.
Formulate a problem as LPP.
Solve LPP of different models using suitable method.
Plan and execute the projects using CPM and PERT techniques.
Decide the optimum sequence of the processes/ machines.
Explain various aspects of electrical and Hybrid vehicles.
Understand use of various graphical representation of process behavior in TQM
4. TOTAL QUALITY
MANAGEMENT
(Elective-1)
18AU752
3. OPERATIONS
RESEARCH
(Elective-1)
18AU742
CO4
Discuss the faults arising in automotive wiring and lighting system. Design layout of electrical systems.
Use transducers and sensors in electronic circuits.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III Semester
5. PROJECT WORK PHASE -
118CV733 C01
Present the project and be able to defend it.
Make links across different areas of knowledge and to generate, develop and evaluate ideas and
information so as to apply these skills to the project task.
Habituated to critical thinking and use problem solving skills.
Communicate effectively and to present ideas clearly and coherently in both the written and oral forms.
Work in a team to achieve common goal.
Learn on their own, reflect on their learning and take appropriate actions to improve it.
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III Semester
C01
CO2
CO3
CO4
CO5
C01
CO2
CO3
CO4
CO5
1. VEHICLE BODY
ENGINEERING AND
SAFETY
18AU81
Classify the vehicles and define basic terms.
Select appropriate body material.
Calculate various aerodynamic forces and moments acting on vehicle, load distribution in vehicle
body.
Identify various sources of noise and methods of noise separation and various safety aspects in a given
vehicle.
Explain the ergonomics, stability the vehicle.
Determine the natural frequencies and the modes of two degree of freedom free vibrating systems
2. MECHANICAL
VIBRATIONS (Elective-1)18AU821
Classify different types of vibration / damping associated with systems and vibration measuring
instruments.
Calculate natural frequency, damping, logarithmic decrement and other parameters of single
degree of freedom un-damped / damped free vibrating systems
Compute the response of single degree of freedom damped vibrating systems to different excitation
forces.
Compare the natural frequencies / modes of multi-degree of freedom free vibrating systems using
numerical methods
VIII Semester
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
CO4
C01
CO2
CO3
CO4
C05
CO6
CO7
CO8
3. ELECTRIC AND HYBRID
VEHICLE.
(Elective-2)18AU823
Explain working principle of hybrid vehicle and its main components, operating principle and
properties of the most common types of electrical motors in hybrid technology.
Analyze the performance of a hybrid vehicle.
Evaluate the environmental impact of road vehicles.
Use the knowledge of the construction methods and prefabricated elements in buildings
Develop skills to work in a team to achieve common goal.
Develop skills of project management and finance.
Develop skills of self learning, evaluate their learning and take appropriate actions to improve it.
Prepare them for life-long learning to face the challenges and support the technological changes to meet
the societal needs.
Describe the project and be able to defend it.
Develop critical thinking and problem solving skills.
Learn to use modern tools and techniques.
Communicate effectively and to present ideas clearly and coherently both in written and oral forms.
18AUP83 4. PROJECT WORK PHASE-
2
B.L.D.E.Association’s
Vachana Pitamaha Dr. P.G. Halakatti College of Engineering & Technology, Bijapur.
Course Outcomes
Department: Civil Engineering Program: BE in Automobile Engineering
Subject CodeCourse
OutcomesStatement
III SemesterC01
CO2
CO3
C04
CO5
CO6
9. INTERNSHIP
/PROFESSIONAL
PRACTICE
18AUI85 CO1
18AUS845. TECHNICAL SEMINAR
Students will get the field exposure and experience
Develop knowledge in the field of Civil Engineering and other disciplines through independent learning
and collaborative study
Identify and discuss the current, real-time issues and challenges in engineering & technology.
Develop written and oral communication skills.
Explore concepts in larger diverse social and academic contexts.
Apply principles of ethics and respect in interaction with others.
Develop the skills to enable life-long learning.