*Semester 1: Foundation Courses*

1. *Mathematics I* 

   - Calculus, Linear Algebra, Coordinate Geometry.

2. *Physics I* 

   - Mechanics, Thermodynamics, Waves.

3. *Basic Electrical & Electronics Engineering* 

   - Circuits, Semiconductors, Power Systems.

4. *Engineering Graphics & CAD* 

   - Technical Drawing, AutoCAD Basics.

5. *Communication Skills* 

   - Technical Writing, Presentation Skills.

6. *Workshop Practice* 

   - Carpentry, Welding, Machining.

 

*Semester 2: Core Fundamentals*

1. *Mathematics II* 

   - Differential Equations, Probability, Statistics.

2. *Chemistry* 

   - Material Properties, Corrosion, Polymers.

3. *Programming for Engineers* 

   - Python/C, Numerical Methods.

4. *Engineering Mechanics* 

   - Statics, Dynamics, Free Body Diagrams.

5. *Environmental Studies* 

   - Ecology, Sustainability, Pollution.

6. *Chemistry Lab* 

   - Material Testing, Experiments.

 

*Semester 3: Introduction to Civil Engineering*

1. *Solid Mechanics* 

   - Stress-Strain, Bending, Torsion.

2. *Fluid Mechanics* 

   - Fluid Dynamics, Hydraulics.

3. *Surveying* 

   - Levelling, Theodolite, GIS Basics.

4. *Building Materials & Construction* 

   - Concrete, Steel, Masonry, BIS Codes.

5. *Mathematics III* 

   - Fourier Transforms, Numerical Analysis.

6. *Surveying Lab* 

   - Fieldwork, Mapping.

 

*Semester 4: Structural Basics*

1. *Structural Analysis I* 

   - Slope-Deflection, Moment Distribution.

2. *Geotechnical Engineering* 

   - Soil Mechanics, Bearing Capacity.

3. *Concrete Technology* 

   - Mix Design, Admixtures, Durability.

4. *Transportation Engineering* 

   - Highways, Railways, Pavements.

5. *Geotechnical Lab* 

   - Soil Testing, Permeability, Shear Strength.

6. *Concrete Lab* 

   - Mix Design, Compression Tests.

 

*Semester 5: Core Structural Engineering*

1. *Structural Analysis II* 

   - Matrix Methods, Influence Lines, Software (STAAD.Pro).

2. *Design of Concrete Structures I* 

   - IS Codes, Beams, Slabs, Columns.

3. *Foundation Engineering* 

   - Shallow/Deep Foundations, Retaining Walls.

4. *Hydrology & Water Resources* 

   - Irrigation, Dam Design.

5. *Structural Software Lab* 

   - ETABS/SAP2000 for Modelling.

6. *Mini-Project* 

   - Small-Scale Design Challenge.

 

*Semester 6: Advanced Design & Electives*

1. *Design of Steel Structures* 

   - IS 800, Connections, Trusses.

2. *Design of Concrete Structures II* 

   - Multistorey Buildings, Prestressed Concrete.

3. *Earthquake Engineering* 

   - Seismic Analysis, IS 1893.

4. *Elective I* 

   - Bridge Engineering / Finite Element Analysis.

5. *Steel & Concrete Design Lab* 

   - Detailing, Software Simulations.

6. *Project Phase I* 

   - Industry Problem Statement.

 

*Semester 7: Specialization & Professional Practice*

1. *Advanced Structural Design* 

   - Composite Structures, Shells.

2. *Prestressed Concrete* 

   - Post-Tensioning, Losses, Applications.

3. *Elective II* 

   - Offshore Structures / Retrofitting.

4. *Construction Management* 

   - Scheduling, Cost Estimation, BIM.

5. *Major Project Phase II* 

   - Prototype Development, Analysis.

6. *Internship* 

   - Industrial Training (4-6 Weeks).

 

*Semester 8: Electives & Capstone*

1. *Elective III* 

   - Wind Engineering / Sustainable Design.

2. *Professional Ethics* 

   - Codes of Conduct, Legal Aspects.

3. *Disaster Management* 

   - Risk Assessment, Mitigation Strategies.

4. *Elective IV* 

   - Structural Dynamics / Smart Materials.

5. *Major Project Phase III* 

   - Final Implementation, Viva.

6. *Comprehensive Exam* 

   - Theory & Practical Assessment.

 

*Elective Options*

- Bridge Engineering 

- Finite Element Analysis 

- Offshore Structures 

- Retrofitting & Rehabilitation 

- Wind & Earthquake-Resistant Design 

- Sustainable Infrastructure