Approved by AICTE, Recognised by DTE Gov. of Maharashtra, Affiliated to University of Mumbai

Program Educational Objectives

PEO No. Program Educational Objective (PEO)
PEO 1To prepare the student with a sound foundation in the mathematical, scientific and engineering fundamentals.
PEO 2To motivate the student in the art of self-learning and to use modern tools for solving real life problems.
PEO 3To inculcate a professional and ethical attitude, good leadership qualities and commitment to social responsibilities in the student’s thought process.
PEO 4To prepare the student for a successful career in Indian and Multinational organizations.

Program Outcomes

PO No. Program Outcome (PO)
PO 1Engineering Knowledge: Engineering graduate will be able to apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
PO 2Problem Analysis: Engineering graduate will be able to identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
PO 3Design/ Development of Solutions: Engineering graduate will be able to 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.
PO 4Conduct Investigations of Complex Problems: Engineering graduate will be able to 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.
PO 5Modern Tool Usage: Engineering graduate will be able to 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.
PO 6The Engineer and Society: Engineering graduate will be able to 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.
PO 7Environment and Sustainability: Engineering graduate will be able to understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
PO 8Ethics: Engineering graduate will be able to apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
PO 9Individual and Team Work: Engineering graduate will be able to function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
PO 10Communication: Engineering graduate will be able to 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.
PO 11Project Management and Finance: Engineering graduate will be able to 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.
PO 12Life-long Learning: Engineering graduate will be able to 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.

Program Specific Outcomes

PSO No. Program Specific Outcome (PSO)
PSO 1Engineering graduate will be able to solve complex problems in the field of Design, Environmental , Transportation and Executing.
PSO 2Engineering graduate will be able to analyze and stimulate Designing and Analysis Systems by conducting experimental studies and using software to validate systems.
PSO 3Engineering graduate will be able to apply technical and management skills to manage different Projects.

Course Outcomes

Class Semester Subject Subject Code Course Outcomes
Engineering Mathematics-III
1. Understand the concept of Laplace transform and its application to solve the real integrals in engineering problems.
2. Understand the concept of inverse Laplace transform of various functions and its application in engineering problems. 
3. Expand the periodic function by using the Fourier series for real-life problems and complex engineering problems. 
4. Understand complex variable theory, application of harmonic conjugate to get orthogonal trajectories and analytic functions. 
5. Apply the concept of Correlation and Regression to the engineering problems in data science, machine learning, and AI. 
6. Understand the concepts of probability and expectation for getting the spread of the data and distribution of probabilities.


Engineering Geology
1.Student will be able to understand the significance of geological studies for safe, stable and economic design of any civil engineering structure.
2.Student will be able to demonstrate the knowledge of geology to explain major geological processes such as formation of mountain, ocean and the occurrence and distribution of earthquakes and volcanoes.
3.Student will be able to explain various geological structures like folds, faults, joints, unconformity, their origin and distribution which are very essential in the design and construction of dams, tunnels and any other major civil engineering project.
4.Student will be able to understand methods of surface and subsurface investigation, advantages and disadvantages caused due to geological conditions during the construction of dam and tunnel.
5.Student will be able to understand the causes and prevention of natural hazard like earthquake, landslide, volcano etc. will help student to meet the specific needs with suitable considerations for public health and safety.
6.Student will be able to prepare effective reports mentioning advantages and disadvantages caused due to geological condition and can evaluate any site for civil engineering project.


Material of Structure
1. Evaluate stress - strain behavior of elastic members and thin cylinders subjected to internal
2.Draw variation of axial force, shear force and bending moment diagram for statically
determinate beams and frames.
3. Calculate Moment of Inertia for cross sections and analyse the material response under the 
action of shear and the effect of flexure (bending).
4. Predict the angle of twist and shear stress developed in torsion and compute direct and bending stresses developed in the cross section of centrally and eccentrically loaded columns.
5. Locate principal planes in members and calculate principal stresses using analytical and
graphical method and to calculate strain energy stored in members due to elastic
6. Evaluate slope and deflection of beams supported and loaded in different ways.


Fluid Mechanics I
1. Describe various properties of fluids and types of flow
2.Determine the pressure difference in pipe flows, application of Continuity equation and
Bernoulli’s theorem to determine velocity and discharge
3. Apply hydrostatic and dynamic solutions for fluid flow applications
4. Analyse the stability of floating bodies
5.Apply the working concepts of various devices to measure the flow through pipes and channels


Architectural Planning and Design of Building
1. Remember and recall the intricate details of building design and drawing.
2. Understand the basic concepts of building design and drawing.
3. Learn how to apply professional ethics and act responsibly pertaining to the norms of building design and drawing practices.
4. Identify, analyze, research literate and solve complex building design and drawing problems.
5. Have new solutions for complex building design and drawing problems.
6. Effectively communicate ideas, related to building design and drawing, both orally as well as in written format like reports & drawings.


Theory of Reinforced Concrete Structures
1.Student will be able to Understand the fundamentals of WSM and LSM.
2.Student will be able to Apply various clauses specified in IS: 456-2000 for designing structural members with safety and economy.
3.Student will be able to Understand the use of readymade design charts and curves from Special Publications of Bureau of Indian Standards..
4.Student will Analyze and design various reinforced concrete elements such as beam, slab, column, footings using the concept of Limit State Method.


Applied Hydraulics
1. Describe impact of jet on stationary, moving, hinged and series of plates also solve the numerical based on forces acting on it.
2. Distinguish various types of turbines, Characteristic curves and its components.
3. Analyze Centrifugal pumps by incorporating velocity triangle diagrams.
4. Know the working mechanism of various Hydraulic machines.


Geotechnical Engineering-I
1.Student will be able to understand the soil types, index and engineering properties and relationship between various unit weights & other parameters.
2.Student will be able to classify the soil with a view towards assessing the suitability of a given soil for use; either to use if to support a structure (e.g. embankment) or to construct a structure therein (e.g. foundation)
3.Student will be able to understand the use of geosynthetics in soil to improve soil properties.
4.Student will be able to evaluate the compaction characteristics in laboratory & field and hence interpret the results with
5.Student will be able to interpret soil boring data for foundation design.
6.Student will be able to conduct laboratory experiments to collect, analyze, interpret and present the data


Transportation Engineering
1.Compare various modes of transportation and understand basic technical aspects of railways, airways and waterways.
2.Understand different road plans, requirements of alignments and Design horizontal and vertical geometrical elements of highways.
3.Carry out different traffic studies and analyze basic parameters of traffic engineering for efficient planning and control of traffic
4.Design the flexible and rigid pavement as per relevant IRC codes.
5.Construct different types of pavements, use of soil stabilization and planning of highway drainage.
6.Student will be able to use the various concrete materials and demonstrate the fresh properties of concrete.


Advanced Concrete Technology
1.Student will be able to perform different testing methods of concrete. 
2.Student will be able to describe the durability of concrete and apply the knowledge of durability in extreme weather concreting. 
3.Student will be able to design the concrete mix for field application by different methods. 
4.Student will be able to explain the various properties of special concrete.
5.Apply the measurement systems to various civil engineering items of work.
Quntity Survey ,Estimation and Valuation
1.Draft the specifications for various items of work & determine unit rates of items of works
2.Estimate approximate cost of the structures by using various methods & prepare detailed estimates of various civil engineering structures by referring drawings.
3.Assess the quantities of earthwork & construct mass haul diagrams.
4.Draft tender notice &demonstrate the significance of the tender as well as contract
5.Determine the present fair value of any constructed building at stated time..
6.Understand the pros and cons of the WSM and LSM.


Theory of Reinforced Concrete Structures
1. Understand the various clauses specified in IS: 456-2000 for designing structural members with the safety and economy.
2.Carry out analysis and design of various elements of the reinforced concrete structures such as beam, slab, column, footings using the concept of Limit state method.
3. Understand and the use of readymade design curves from Special publications of Bureau of Indian standards.
 4. Design the section of gravity dams, earth and rockfill dams, arch dams and buttress dams.


Water Resources Engineeringbb II
1..Design spillways and energy dissipaters.
 2.Apply silt theories to design irrigation canals.
3.Explain various types of canals and its maintenance.
4.Explain different cross drainage works of a canal system.
5.To explain generation, storage, collection, transfer and transport, processing, recovery and disposal in the management of solid waste. 


Solid Waste Management
1.To understand the characteristics of different types of solid waste and the factors affecting variation. 
2.To identify the methods of collection, storage and transportation of solid waste. 
3.To suggest suitable technical solutions for processing of wastes. 
4.To Ability to plan waste minimization and disposal of municipal solid waste. 
5.To ensure the safe handling and treatment of Hazardous, Electronic and Biomedical waste.
6.Student will be able to understand physics and various types of disaster occurring around the world.


Disaster Management and Mitigation Measures
1.Student will be able to identify extent and damaging capacity of a disaster 
2.Student will be able to study and understand the means of losses and methods to overcome /minimize it. 
3.Student will be able to understand application of GIS in the field of disaster management 
4.Student will be able to understand the emergency government response structures before, during and after disaster