Slope stability analysis is the study of stability factors, and therefore safety, of both natural and man-made slopes.

Slope stability is generally defined as the resistance of a slope to “failure”, where failure is collapse or sliding. Analysis typically involves working with two types of equations: equilibrium equations, which apply physics to the field conditions, and constitutive laws (i.e. laws specific to a particular substance) that describe the behavior of the soil.

## Types of Slope Stability Analysis

Slope stability analysis is carried on in a number of different ways, but probably the most commonly used method is what is called **limit equilibrium analysis**. In this analysis one studies the equilibrium between the slope and a slip surface (this may be a straight line, logarithmic spiral, or the arc of a circle). Shear stresses (τ) are calculated, the available resistance (τ_{f}) is calculated, and a ‘factor of safety’ is derived, F= τ_{f} / τ.

Some methods of analysis work with the slope as a rigid body, but most divide it into slices and calculate the equilibrium of each individual slice. This has the advantage of allowing an analyst to cater to non-homogeneous surfaces.

## Applications of Slope Stability Analysis

Slope stability analysis plays in an important role in the design and engineering of any architectural structure that contains sloped surfaces, including highway embankments and mountain roads. It also is crucial in earthquake damage prevention, and allows foresters and landscape designers to locate danger areas that are likely to be prone to mud slippages and avalanches.

## References

Catanzarita, Filippo. Slope Stability Analysis

Retrieved from https://www.geostru.eu/slope-stability-analysis/ on April 3, 2018

US Army Corps of Engineers. Slope Stability Engineering Manual.

Retrieved from http://www.civil.utah.edu/~bartlett/CVEEN5305/Handout%2010%20-%20EM_1110-2-1902.pdf on April 3, 2018

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