Course Outcomes

Regulation 2021 - Civil Department

Chendhuran College of Engineering and Technology

Back to Civil Department

SEMESTER I

HS3152 Professional English - I

  • CO1: Use appropriate words in professional contexts;
  • CO2: Understand and use basic grammatical structures;
  • CO3: Infer meanings of technical texts;
  • CO4: Interpret information in graphic forms;
  • CO5: Write definitions, descriptions, and essays.

MA3151 Matrices and Calculus

  • CO1: Use matrix algebra for practical problems;
  • CO2: Apply differential calculus;
  • CO3: Use differential calculus on several variable functions;
  • CO4: Apply integration methods;
  • CO5: Apply multiple integrals for areas and volumes.

PH3151 Engineering Physics

  • CO1: Understand mechanics;
  • CO2: Knowledge of electromagnetic waves;
  • CO3: Foundational knowledge in oscillations, optics, and lasers;
  • CO4: Understand quantum physics;
  • CO5: Apply quantum principles to energy bands.

CY3151 Engineering Chemistry

  • CO1: Propose water treatment methodologies;
  • CO2: Apply nanoscience in material synthesis;
  • CO3: Apply phase rule and composites for material selection;
  • CO4: Recommend fuels for processes;
  • CO5: Recognize and apply energy resources.

GE3151 Problem Solving and Python Programming

  • CO1: Develop algorithmic solutions;
  • CO2: Execute Python programs;
  • CO3: Use conditionals and loops;
  • CO4: Decompose programs into functions;
  • CO5: Use compound data structures;
  • CO6: Perform file I/O.

GE3171 Python Programming Laboratory

  • CO1: Algorithmic solutions;
  • CO2: Execute simple programs;
  • CO3: Implement loops/conditionals;
  • CO4: Deploy functions;
  • CO5: Process compound data;
  • CO6: Utilize Python packages.

BS3171 Physics and Chemistry Laboratory

Physics:

  • CO1-CO5: Operate equipment, use graphical/mathematical models, and solve problems.

Chemistry:

  • CO1-CO5: Analyze water quality, determine metal ions, and synthesize nanoparticles.

GE3172 English Laboratory

  • CO1: Comprehend academic information;
  • CO2: Understand points of view;
  • CO3: Speak fluently;
  • CO4: Describe products/processes;
  • CO5: Express opinions in discussions.

SEMESTER II

HS3252 Professional English - II

  • CO1: Compare/contrast products;
  • CO2: Report cause and effects;
  • CO3: Arrive at written solutions;
  • CO4: Present ideas logically;
  • CO5: Draft effective resumes.

MA3251 Statistics and Numerical Methods

  • CO1: Apply hypothesis testing;
  • CO2: Apply design of experiments;
  • CO3: Use interpolation and numerical integration;
  • CO4: Solve ordinary differential equations (ODEs);
  • CO5: Solve boundary value problems.

PH3201 Physics for Civil Engineering

  • CO1: Knowledge of heat transfer and insulation;
  • CO2: Knowledge of ventilation/AC;
  • CO3: Concepts of acoustics and lighting;
  • CO4: Processing of new materials;
  • CO5: Awareness of natural disasters/safety.

BE3252 Basic Electrical, Electronics and Instrumentation Engineering

  • CO1: Compute circuit parameters;
  • CO2: Explain domestic wiring;
  • CO3: Explain electrical machines;
  • CO4: Analyze analog electronics;
  • CO5: Explain sensors/transducers.

GE3251 Engineering Graphics

  • CO1: Use BIS conventions;
  • CO2: Construct curves;
  • CO3: Solve projection of lines;
  • CO4: Draw orthographic/isometric/perspective projections;
  • CO5: Draw development of solids.

GE3271 Engineering Practices Laboratory

  • CO1: Perform plumbing and woodwork;
  • CO2: Wire electrical joints;
  • CO3: Perform welding/machining/assembly;
  • CO4: Solder and test electronic circuits.

BE3272 Basic Electrical, Electronics and Instrumentation Laboratory

  • CO1: Verify laws and measure power;
  • CO2: Analyze machine load;
  • CO3: Analyze electronic devices;
  • CO4: Use LVDT for displacement.

GE3272 Communication Laboratory

  • CO1: Speak in group discussions;
  • CO2: Analyze/present problems;
  • CO3: Write applications/emails;
  • CO4: Write reports;
  • CO5: Give instructions for safe tasks.

SEMESTER III

MA3351 Transforms and Partial Differential Equations

  • CO1: Solve standard PDEs;
  • CO2: Solve via Fourier series;
  • CO3: Solve heat flow/wave equations;
  • CO4: Formulate physical problems via transforms;
  • CO5: Use Z-transforms for discrete systems.

ME3351 Engineering Mechanics

  • CO1: Illustrate forces/moments;
  • CO2: Analyze rigid body equilibrium;
  • CO3: Evaluate distributed forces;
  • CO4: Determine friction effects;
  • CO5: Calculate dynamic forces.

CE3301 Fluid Mechanics

  • CO1: Understand fluid properties;
  • CO2: Apply conservation laws;
  • CO3: Predict prototype performance;
  • CO4: Estimate pipeline losses;
  • CO5: Explain boundary layer/drag force.

CE3302 Construction Materials and Technology

  • CO1: Identify quality bricks/stones;
  • CO2: Recognize material market forms;
  • CO3: Identify construction practices;
  • CO4: Select equipment;
  • CO5: Understand planning/scheduling.

CE3303 Water Supply and Wastewater Engineering

  • CO1: Design water supply components;
  • CO2: Design sewer systems;
  • CO3: Design treatment systems;
  • CO4: Evaluate distribution;
  • CO5: Design advanced treatment/reuse systems.

CE3351 Surveying and Levelling

  • CO1: Understand principles;
  • CO2: Compute terrain levels;
  • CO3: Use theodolites;
  • CO4: Establish control;
  • CO5: Use modern instruments.

CE3361 Surveying and Levelling Laboratory

  • CO1: Use basic instruments;
  • CO2: Perform leveling;
  • CO3: Use theodolite;
  • CO4: Carry out infrastructure surveys;
  • CO5: Prepare planimetric maps.

CE3311 Water and Wastewater Analysis Laboratory

  • CO1: Calibrate equipment;
  • CO2: Collect samples;
  • CO3: Preserve samples;
  • CO4: Perform testing;
  • CO5: Perform coliform analysis.

GE3361 Professional Development

  • CO1: Use MS Word;
  • CO2: Perform data operations in Excel;
  • CO3: Create presentations in PowerPoint.

SEMESTER IV

CE3401 Applied Hydraulics Engineering

  • CO1: Describe open channel flow;
  • CO2: Analyze varied flow;
  • CO3: Estimate energy loss in jumps;
  • CO4: Design turbines;
  • CO5: Design pumps.

CE3402 Strength of Materials

  • CO1: Understand stress/strain;
  • CO2: Determine shear/bending moments;
  • CO3: Calculate beam deflection;
  • CO4: Analyze indeterminate beams;
  • CO5: Study failure theories.

CE3403 Concrete Technology

  • CO1: Understand material requirements;
  • CO2: Select admixtures;
  • CO3: Design concrete mixes;
  • CO4: Determine fresh/hardened properties;
  • CO5: Use special concretes.

CE3404 Soil Mechanics

  • CO1: Identify soil properties;
  • CO2: Understand soil flow;
  • CO3: Understand stress distribution/settlement;
  • CO4: Understand shear strength;
  • CO5: Design finite/infinite slopes.

CE3405 Highway and Railway Engineering

  • CO1: Plan highways;
  • CO2: Design geometric features;
  • CO3: Test highway materials;
  • CO4: Understand railway design;
  • CO5: Understand track maintenance.

GE3451 Environmental Sciences and Sustainability

  • CO1: Understand biodiversity;
  • CO2: Identify pollution causes/prevention;
  • CO3: Apply renewable measures;
  • CO4: Apply sustainable goals;
  • CO5: Identify green materials/practices.

CE3411 Hydraulic Engineering Laboratory

  • CO1: Calibrate flow meters;
  • CO2: Measure pipe friction;
  • CO3: Determine rotodynamic pump characteristics;
  • CO4: Determine positive displacement pump characteristics;
  • CO5: Determine turbine performance.

CE3412 Materials Testing Laboratory

  • CO1: Determine steel properties;
  • CO2: Determine cement properties;
  • CO3: Determine aggregate properties;
  • CO4: Determine concrete strength;
  • CO5: Determine brick/wood strength.

CE3413 Soil Mechanics Laboratory

  • CO1: Determine index properties;
  • CO2: Determine compaction;
  • CO3: Determine compressibility/strength;
  • CO4: Understand geosynthetics tests.

SEMESTER V

CE3501 Design of Reinforced Concrete Structural Elements

  • CO1: Design RC beams;
  • CO2: Design for shear/torsion;
  • CO3: Design slabs/staircases;
  • CO4: Design short columns;
  • CO5: Design footings.

CE3502 Structural Analysis I

  • CO1: Analyze trusses;
  • CO2: Analyze via slope deflection;
  • CO3: Analyze via moment distribution;
  • CO4: Analyze via flexibility method;
  • CO5: Analyze via stiffness method.

CE3503 Foundation Engineering

  • CO1: Plan site investigations;
  • CO2: Design shallow foundations;
  • CO3: Design combined/raft foundations;
  • CO4: Design deep foundations;
  • CO5: Design retaining walls.

CE3511 Highway Engineering Laboratory

  • CO1: Characterize aggregates;
  • CO2: Ascertain bitumen quality;
  • CO3: Determine binder content;
  • CO4: Evaluate bitumen consistency;
  • CO5: Determine mix bitumen content.

CE3512 Survey Camp

  • CO1: Handle Total Station/GPS;
  • CO2: Establish horizontal control;
  • CO3: Establish vertical control;
  • CO4: Apply adjustment techniques;
  • CO5: Perform field setting out.

SEMESTER VI

CE3601 Design of Steel Structural Elements

  • CO1: Recognize failure modes/strengths;
  • CO2: Select suitable sections;
  • CO3: Design tension/compression members;
  • CO4: Compute industrial loads;
  • CO5: Find ultimate loads via plastic analysis.

CE3602 Structural Analysis II

  • CO1: Draw influence lines;
  • CO2: Understand Muller-Breslau principle;
  • CO3: Analyze arches;
  • CO4: Analyze suspension bridges;
  • CO5: Analyze rigid frames by approximate methods.

AG3601 Engineering Geology

  • CO1: Knowledge of earth structure/landforms;
  • CO2: Knowledge of minerals/rocks;
  • CO3: Study geological structures;
  • CO4: Role of mapping/geophysics;
  • CO5: Mitigate geohazards.

CE3611 Building Drawing and Detailing Laboratory

  • CO1: Draft building plans;
  • CO2: Draw RCC detailing;
  • CO3: Draw water tank/footing detailing;
  • CO4: Draw steel detailing;
  • CO5: Draft industrial structure detailing.

SEMESTER VII / VIII

CE3701 Estimation, Costing and Valuation Engineering

  • CO1: Knowledge of contracts;
  • CO2: Understand specifications/reports;
  • CO3: Perform rate analysis;
  • CO4: Estimate building quantities;
  • CO5: Evaluate valuations.

AI3404 Hydrology and Water Resources Engineering

  • CO1: Define hydrological processes;
  • CO2: Address runoff/hydrographs;
  • CO3: Manage hydrological extremes;
  • CO4: Describe reservoir principles;
  • CO5: Manage groundwater.

GE3791 Human Values and Ethics

  • CO1: Identify value importance;
  • CO2: Practice values;
  • CO3: Find rational solutions;
  • CO4: Behave ethically;
  • CO5: Practice critical thinking.

GE3752 Total Quality Management

  • CO1: Apply TQM concepts;
  • CO2: Apply TQM principles;
  • CO3: Apply Six Sigma/tools;
  • CO4: Understand performance measures;
  • CO5: Apply QMS and EMS.

CE3811 Project Work/Internship

  • CO1: Identify problems;
  • CO2: Identify analysis techniques;
  • CO3: Apply management principles to project handling.

Analogy: The curriculum is like a multistoried construction project where the early semesters provide the foundational soil mechanics and materials (I & II), middle semesters build the structural frame and internal systems (III, IV, V), and the final semesters provide the finishing estimations and overall management (VII & VIII) to ensure the final building is safe and functional.