Structural Engineering Cheat Sheet

The core ideas of Structural Engineering distilled into a single, scannable reference — perfect for review or quick lookup.

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Quick Reference

Equilibrium

The condition in which all forces and moments acting on a structure or structural element sum to zero, ensuring the body remains at rest or in uniform motion. Static equilibrium is the foundational requirement for any structural analysis.

Bending Moment

An internal moment in a structural member caused by external loads that tend to bend the member. The bending moment at any cross-section equals the algebraic sum of moments of all forces on one side of that section.

Shear Force

An internal force acting parallel to a cross-section of a structural member, resulting from loads that tend to slide one part of the member relative to an adjacent part.

Stress and Strain

Stress ($\sigma$) is the internal force per unit area within a material ($\sigma = \frac{F}{A}$), while strain ($\epsilon$) is the resulting deformation per unit length ($\epsilon = \frac{\Delta L}{L}$). Their relationship, governed by the material's constitutive law, is fundamental to predicting structural behavior.

Factor of Safety

The ratio of a structure's ultimate strength to the maximum expected load or working stress. It provides a margin against uncertainties in loading, material properties, and analytical assumptions.

Moment of Inertia (Second Moment of Area)

A geometric property of a cross-section ($I$) that quantifies its resistance to bending. A larger $I$ means greater stiffness and lower bending stress ($\sigma = \frac{My}{I}$) for the same applied moment.

Load Path

The route through which applied loads travel from their point of application through structural members and connections down to the foundation and into the ground.

Finite Element Analysis (FEA)

A numerical method that subdivides a complex structure into a mesh of small, simple elements, solves the governing equations for each element, and assembles the results to approximate the behavior of the whole structure.

Buckling

A sudden lateral instability failure mode in which a slender structural member under compression deflects sideways rather than shortening uniformly. The critical buckling load is given by Euler's formula: $P_{cr} = \frac{\pi^2 EI}{(KL)^2}$.

Deflection

The displacement of a structural member from its original position under load. Controlling deflection is essential for serviceability, ensuring that structures do not sag, vibrate excessively, or damage attached finishes.

Key Terms at a Glance

Arch:A curved structural form that carries loads primarily in axial compression to its supports.

Beam:A horizontal structural member that resists loads primarily through bending and shear.

Bending Moment:The internal moment at a cross-section of a member caused by externally applied loads.

Buckling:A sudden lateral instability failure of a slender compression member. The critical load is $P_{cr} = \frac{\pi^2 EI}{(KL)^2}$.

Column:A vertical structural member that carries loads primarily in axial compression.

Dead Load:The permanent weight of the structure itself and all fixed components.

Deflection:The displacement of a structural member from its unloaded position.

Ductility:A material's ability to undergo significant plastic deformation before fracture.

Equilibrium:The condition where the sum of forces and moments on a body is zero.

Factor of Safety:The ratio of ultimate strength to the design or working load.

Fatigue:Progressive structural damage caused by repeated cyclic loading below the material's ultimate strength.

Finite Element Analysis:A computational method that discretizes a structure into elements to approximate its behavior.

Foundation:The structural element that transfers loads from the superstructure into the underlying soil or rock.

Hooke's Law:The linear relationship $\sigma = E\epsilon$ between stress and strain within a material's elastic limit.

Live Load:Variable loads from occupants, furniture, equipment, and other non-permanent sources.

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