Civil Engineering with Amir
My name is Amir, and I'm a Structural EIT at a forensic engineering and environmental services firm in Canada. I graduated with a bachelor's degree in civil engineering in 2017 and also hold two master's degrees, one in Construction Engineering & Management and the other in Water Engineering and Hydraulic Structures.
During my graduate studies, I spent over five years as a teaching assistant, instructing courses like Open Channel Hydraulics, Concrete Technology, Structural Analysis, and Soil Mechanics.
On this channel, I’ll be solving problems from fundamental civil engineering courses to help you understand these subjects better and improve your grades. Thank you for joining me on this journey!
Диаграммы сдвига и момента | Графический метод (Часть 4: Прямоугольные нагрузки)
Диаграммы сдвига и момента | Графический метод (Часть 3: Сосредоточенные моменты)
Shear & Moment Diagrams | Graphical Method (Part 2: Concentrated Loads)
Shear & Moment Diagrams | Graphical Method (Part 1: Review of Basic Concepts)
Shear & Moment Equations | Internal Hinge in a Propped Cantilever Beam (Method of Sections)
Shear & Moment Equations | Cantilever Beam with Triangular Load (Method of Sections)
Shear & Moment Equations | Concentrated Couples on Overhanging Beam (Method of Sections)
Shear & Moment Equations | Overhanging Beam (Method of Sections)
Shear & Moment Equations | Trapezoidal Load on Overhanging Beam (Method of Sections)
Shear & Moment Equations | Triangular Load on Overhanging Beam (Method of Sections)
Shear & Moment Equations | Trapezoidal Load on Simply Supported Beam (Method of Sections)
Shear & Moment Equations | Cantilever Beam with Rectangular Load (Method of Sections)
Shear & Moment Equations | Triangular Load on Simply Supported Beam (Method of Sections)
Shear & Moment Equations | Rectangular Load on Simply Supported Beam (Method of Sections)
Shear & Moment Equations | Concentrated Load on Cantilever Beam (Method of Sections)
Shear & Moment Equations | Concentrated Load on Simply Supported Beam (Method of Sections)
Shear & Moment at an Arbitrary Point along a Beam (Example 3)
Shear & Moment at an Arbitrary Point along a Beam (Example 2)
Shear & Moment Values at a Specific Point on a Beam (Example 1)
Truss Analysis Example (Method of Joints) - Statics
Axial Deformation; Varying Cross Section (Example 2) - Mechanics of Materials
Axial Deformation; Varying Cross Section (Example 1) - Mechanics of Materials
Axial Deformation; Nonhomogeneous Cross Section (Example 1) - Mechanics of Materials
Hooke’s Law for Isotropic Materials; Dilatation (Example 3) - Mechanics of Materials
Hooke’s Law for Isotropic Materials; Dilatation (Example 2) - Mechanics of Materials
Hooke’s Law for Isotropic Materials; Dilatation (Example 1) - Mechanics of Materials
Strain Deformation Equations (Example 1) - Mechanics of Materials
Stress Resultants (Example 3) - Mechanics of Materials
Stress Resultants (Example 2) - Mechanics of Materials
Stress Resultants (Example 1) - Mechanics of Materials