Back to Architecture Topics

arche 2 strength of materials

Architecture Engineering

ARCHE 2: Strength of Materials Overview

An overview of ARCHE 2: Strength of Materials, including the fundamental principles of material behavior under various loading conditions.

Start Learning

Module 1: Simple Stresses - Theory & Concepts

Concept of internal forces, normal stress, shear stress, bearing stress, and allowable stress.

Start Learning

Module 1: Simple Stresses - Examples & Applications

Concept of internal forces, normal stress, shear stress, bearing stress, and allowable stress.

Start Learning

Module 2: Simple Strain and Deformation - Examples & Applications

Axial deformation, Hooke's Law, Poisson's ratio, and thermal stresses.

Start Learning

Module 3: Thin-Walled Pressure Vessels - Examples & Applications

Analysis of tangential (hoop) and longitudinal stresses in cylindrical and spherical vessels.

Start Learning

Module 4: Torsion - Examples & Applications

Analysis of torsional shear stress, angle of twist, and power transmission in circular shafts.

Start Learning

Module 2: Simple Strain and Deformation - Theory & Concepts

Axial deformation, strain concepts, Stress-Strain Diagram, Hooke's Law, Poisson's Ratio, and thermal stresses.

Start Learning

Module 3: Thin-Walled Pressure Vessels - Theory & Concepts

Analysis of tangential (hoop) stress and longitudinal stress in cylindrical and spherical pressure vessels.

Start Learning

Module 4: Torsion - Theory & Concepts

Torsional deformation of circular shafts, shear stress formula, angle of twist, and power transmission.

Start Learning

Module 5: Shear and Moment in Beams - Theory & Concepts

Types of beams, types of loads, internal shear, bending moment, and Shear and Moment Diagrams.

Start Learning

Module 5: Shear and Moment in Beams - Examples & Applications

Types of beams, types of loads, internal shear, bending moment, and Shear and Moment Diagrams.

Start Learning

Module 6: Stresses in Beams - Theory & Concepts

Flexural (Bending) Stress formula, section modulus, horizontal/longitudinal shear stress, and shear flow.

Start Learning

Module 6: Stresses in Beams - Examples & Applications

Flexural (Bending) Stress formula, section modulus, horizontal/longitudinal shear stress, and shear flow.

Start Learning

Module 7: Deflection of Beams - Theory & Concepts

Concept of elastic curve, Double Integration Method, Area-Moment Method, and Superposition Method.

Start Learning

Module 7: Deflection of Beams - Examples & Applications

Concept of elastic curve, Double Integration Method, Area-Moment Method, and Superposition Method.

Start Learning

Module 8: Principal Stresses and Mohr's Circle - Theory & Concepts

Understanding stress transformation, plane stress, principal stresses, maximum shear stress, and Mohr's Circle.

Start Learning

Module 8: Principal Stresses and Mohr's Circle - Examples & Applications

Understanding stress transformation, plane stress, principal stresses, maximum shear stress, and Mohr's Circle.

Start Learning

Module 9: Combined Stresses - Theory & Concepts

Combined axial and flexural loads and eccentrically loaded members.

Start Learning

Module 9: Combined Stresses - Examples & Applications

Combined axial and flexural loads and eccentrically loaded members.

Start Learning

Module 10: Columns - Theory & Concepts

Definition and behavior of columns, Euler's formula, effective length factors, and intermediate columns.

Start Learning

Module 10: Columns - Examples & Applications

Definition and behavior of columns, Euler's formula, effective length factors, and intermediate columns.

Start Learning

Module 11: Strain Energy - Theory & Concepts

Understanding elastic strain energy, modulus of resilience, modulus of toughness, and impact loading.

Start Learning

Module 11: Strain Energy - Examples & Applications

Understanding elastic strain energy, modulus of resilience, modulus of toughness, and impact loading.

Start Learning