![Lecture 13 Flexural Analysis and Design of T & L Beams [ Design Example] | Part 2 1](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-13-Flexural-Analysis-and-Design-of-T-L-Beams-Design-Example-Part-2.jpg "Lecture 13 Flexural Analysis and Design of T & L Beams [ Design Example] | Part 2 1")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 13 Flexural Analysis and Design of T & L Beams [ Analysis Example] | Part 1 2](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-13-Flexural-Analysis-and-Design-of-T-L-Beams-Analysis-Example-Part-1.jpg "Lecture 13 Flexural Analysis and Design of T & L Beams [ Analysis Example] | Part 1 2")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 9 Bar Bending Schedule [Concrete Structures] 9](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-9-Bar-Bending-Schedule-Concrete-Structures-1024x576.jpg "Lecture 9 Bar Bending Schedule [Concrete Structures] 9")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 8 Load Transfer from Slabs to Beams | Part 2 [Concrete Structures] 10](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-8-Load-Transfer-from-Slabs-to-Beams-Part-2-Concrete-Structures-1024x576.jpg "Lecture 8 Load Transfer from Slabs to Beams | Part 2 [Concrete Structures] 10")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 8 Load Transfer from Slabs to Beams | Part 1 [Concrete Structures] 11](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-8-Load-Transfer-from-Slabs-to-Beams-Part-1-Concrete-Structures-1024x576.jpg "Lecture 8 Load Transfer from Slabs to Beams | Part 1 [Concrete Structures] 11")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 7 Beam Capacity Analysis Example [Concrete Structures] 12](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-7-Beam-Capacity-Analysis-Example-Concrete-Structures-1024x576.jpg "Lecture 7 Beam Capacity Analysis Example [Concrete Structures] 12")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 7 Beam Capacity Analysis & Rebar Guidelines, beam detailing [Concrete Structures] 13](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-7-Beam-Capacity-Analysis-Rebar-Guidelines-beam-detailing-Concrete-Structures-1024x576.jpg "Lecture 7 Beam Capacity Analysis & Rebar Guidelines, beam detailing [Concrete Structures] 13")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 6 Under Reinforced & Over Reinforced (Derivation) [Concrete Structures] 14](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-6-Under-Reinforced-Over-Reinforced-DerivationConcrete-Structures-1024x576.jpg "Lecture 6 Under Reinforced & Over Reinforced (Derivation) [Concrete Structures] 14")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 5 Study of Flexural Behavior Derivation, Ultimate Strength Design | [Concrete Structures] 15](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-5-Study-of-Flexural-Behavior-Derivation-Ultimate-Strength-Design-Concrete-Structures-1024x576.jpg "Lecture 5 Study of Flexural Behavior Derivation, Ultimate Strength Design | [Concrete Structures] 15")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 4 Study of Flexural Behavior Derivation | Part 2 [Concrete Structures] 16](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-4-Study-of-Flexural-Behavior-Derivation-Part-2-Concrete-Structures-1024x576.jpg "Lecture 4 Study of Flexural Behavior Derivation | Part 2 [Concrete Structures] 16")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 4 Study of Flexural Behavior Derivation | Part 1 [Concrete Structures] 17](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-4-Study-of-Flexural-Behavior-Derivation-Part-1-Concrete-Structures-1024x576.jpg "Lecture 4 Study of Flexural Behavior Derivation | Part 1 [Concrete Structures] 17")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 3 Shrinkage & Creep , Concrete Testing Criteria [Concrete Structures] 18](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-3-Shrinkage-Creep-Concrete-Testing-Criteria-Concrete-Structures-1024x576.jpg "Lecture 3 Shrinkage & Creep , Concrete Testing Criteria [Concrete Structures] 18")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 2 Design Loads & Load combinations [Concrete Structures] 19](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-2-Design-Loads-Load-combinations-Concrete-Structures-1024x576.jpg "Lecture 2 Design Loads & Load combinations [Concrete Structures] 19")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
![Lecture 1 Introduction Concrete [Concrete Structures] 20](https://civilmdc.com/wp-content/uploads/2021/09/Lecture-1-Introduction-Concrete-Concrete-Structures-1024x576.jpg "Lecture 1 Introduction Concrete [Concrete Structures] 20")
Professional basic course for civil engineering. The Objective of the course is to • Understanding of the physical and mechanical properties of steel and concrete materials. • Structural design methods, design calculation methods for various reinforced concrete basic members
