EngineeringTheCurriculum
Welcome to Engineering the Curriculum!
Are you an engineering student or aspiring structural engineer looking to master the fundamentals? You're in the right place! This channel is dedicated to breaking down engineering concepts into clear, step-by-step tutorials.
🔹 Who We Are
This channel is led by Dr. Margi Vilnay and Dr. Leon Chernin, experienced structural engineering lecturers and researchers.
👷♀️ Dr. Margi Vilnay is a Structural Engineering Lecturer with industry and academic experience, a Chartered Engineer and a Senior Fellow of the HEA.
🎓 Dr. Leon Chernin is a Structural Engineering Lecturer with extensive research in physical testing and numerical modelling.
Between us, we have decades of research and lecturing in Structural Engineering.
🌍 We are passionate about making education more inclusive.
📚 What We Cover
✅ Engineering Mechanics and Structural Analysis
✅ Reinforced Concrete Design (Eurocodes)
✅ Advanced Structural Analysis
🎯Subscribe to learn, solve and succeed!
Reinforced Concrete Design | Topic 9 Part 2: Punching Shear in RC Slabs | Eurocode 2
Reinforced Concrete Design | Topic 9 Part 1: Design of RC Slabs | Eurocode 2
Stiffness Method | Lecture 9-3 Indeterminate Frame Analysis + Full MATLAB Octave Coding Example
Reinforced Concrete Design | Topic 8: Design of RC Beams Summary | Eurocode 2
Метод жёсткости | Лекция 8, Часть 2. Реакции балок и рам и внутренние силы | Кодирование в MATLAB
Reinforced Concrete Design | Topic 7: Moment Redistribution in Continuous Beams | Eurocode 2
Reinforced Concrete Design | Topic 6 Part 2: Longitudinal Shear in Flanged RC Beams | Eurocode 2
Reinforced Concrete Design | Topic 6 Part 1: Shear Design Vertical Shear Reinforcement | Eurocode 2
Stiffness Method | Lecture 8 Part 1 Truss Reactions & Internal Forces | Solution & MATLAB Coding
Stiffness Method | Lecture 7 Solving the Stiffness Equation & Displacements + MATLAB Frame Example
Stiffness Method | Lecture 6 Load Vector & Equivalent Nodal Forces + MATLAB Coding Examples
Reinforced Concrete Design | Topic 5: Deflection & Span-Depth Ratio | Eurocode 2
Stiffness Method | Lecture 5 Local to Global Stiffness Matrix Transformation & MATLAB Coding Example
Stiffness Method | Lecture 3 Beam Element Stiffness Matrix Derived with Flexibility Method & Coding
T2P2 Excel Narrated
T2P1 Excel Narrated
T1P2 Word Narrated
T1P1 Word Narrated
Stiffness Method | Lecture 4 Local to Global Stiffness Matrix + MATLAB & Octave Coding Tutorial
Stiffness Method | Lecture 2 Truss Element Stiffness Matrix in Local Coordinates + MATLAB/Octave
Stiffness Method | Lecture 1 Intro & Concepts of the Direct Stiffness Method in Structural Analysis
Reinforced Concrete Design | Topic 4: Flanged RC Section – Effective Width & Design | Eurocode 2
Reinforced Concrete Design | Topic 3: Doubly RC Section | Eurocode 2
Reinforced Concrete Design | Topic 2: RC Section, Part 3 – Design Using Charts | Eurocode 2
Reinforced Concrete Design | Topic 2: RC Section, Part 2 – Design by Calculations | Eurocode 2
Reinforced Concrete Design | Topic 2: Singly Reinforced Beam, Part 1 – First Principles | Eurocode 2
Reinforced Concrete Design | Topic 1: Intro, Part 4 – Durability & Fire Resistance | Eurocode 2
Reinforced Concrete Design | Topic 1: Intro, Part 3 – Eurocodes & Design Philosophy | Eurocode 2
Reinforced Concrete Design | Topic 1: Introduction, Part 2 – Reinforced Concrete | Eurocode 2
Reinforced Concrete Design | Topic 1: Introduction, Part 1 – Concrete Material | Eurocode 2