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Structural mechanics, or solid mechanics, is a field of applied mechanics in which you compute deformations, stresses, and strains in solid materials. Often, the purpose is to determine the strength of a structure, such as a bridge girder, beams, columns etc. in order to prevent damage or accidents.
Lecture 3 Free Vibration Analysis, Examples [ Structural Mechanics ] Read More »
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Structural mechanics, or solid mechanics, is a field of applied mechanics in which you compute deformations, stresses, and strains in solid materials. Often, the purpose is to determine the strength of a structure, such as a bridge girder, beams, columns etc. in order to prevent damage or accidents.
Lecture 2 Earthquake Seismic Waves, Earthquake Analysis Method [Structural Mechanics] Read More »
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Structural mechanics, or solid mechanics, is a field of applied mechanics in which you compute deformations, stresses, and strains in solid materials. Often, the purpose is to determine the strength of a structure, such as a bridge girder, beams, columns etc. in order to prevent damage or accidents.
Lecture 1 Dynamic Loads, Earthquake & Plate Tectonics [Structural Mechanics] Read More »
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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 [ Design Example] | Part 2 Read More »
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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 Read More »
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 12 Flexural Analysis and Design of T & L Beams Read More »
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 11 Flexural Analysis and Design of Doubly Beams | Design Example | Part 3 Read More »
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 11 Flexural Analysis and Design of Doubly Beams | Part 2 Read More »
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 11 Flexural Analysis and Design of Doubly Beams | Part 1 Read More »
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 10 Beam Design Example 1 Read More »
