Design of Reinforced Concrete Structures is a core civil engineering course that focuses on the principles and methods used in designing reinforced concrete (RC) structural elements. The course introduces students to the behavior of concrete and steel in composite action and covers the design of structural members such as beams, slabs, columns, and footings using relevant design codes (such as IS 456). It emphasizes limit state design concepts, load calculations, reinforcement detailing, and safety requirements to ensure structural stability and durability. Through theoretical concepts and design problems, students develop the ability to analyze and design safe, economical, and efficient reinforced concrete structures used in modern construction.
Syllabus - Google Drive
Course Structure & Mapping -Course Structure & Mapping
Teaching Plan -Teaching Plan - Google Drive
Question Bank -Question Bank - Google Drive
Question Paper -Previous Question Paper - Google Drive
Structural Audit is the systematic inspection and evaluation of a building or structure to assess its safety, stability, and overall structural health. It involves examining structural components such as beams, columns, slabs, and foundations to identify defects, cracks, corrosion, deterioration, or any signs of distress. Structural audits help determine the condition of existing structures, ensure compliance with safety standards, and recommend necessary repair, strengthening, or rehabilitation measures. This process is particularly important for aging buildings to prevent structural failures and to extend the service life of the structure while ensuring the safety of occupants.
Syllabus - Syllabus - Google Drive
Course Structure & Mapping -Course Structure & Mapping - Google Drive
Teaching Plan -Teaching Plan - Google Drive
Question Bank -Question Bank - Google Drive
Question Paper -Previous Question Paper - Google Drive
Structural Mechanics I is a fundamental civil engineering course that introduces the basic principles governing the behavior of structures under various types of loads. The course covers concepts such as forces, equilibrium, analysis of statically determinate structures, shear force and bending moment in beams, and properties of structural members. It helps students understand how different structural elements respond to loads and how internal forces develop within them. Through theoretical study and problem-solving, the course builds a strong foundation for advanced subjects like structural analysis and design of structures.
Syllabus - Syllabus - Google Drive
Course Structure & Mapping - Course Structure & Mapping - Google Drive
Teaching Plan - Teaching Plan - Google Drive
Question Bank - Question Bank - Google Drive
Question Paper - Previous Question Paper - Google Drive