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slopestability

Slopestability is a term used in geotechnical engineering and risk assessment to describe the resilience of a slope or slope-like system to failure under perturbations. It encompasses gravitational forces, material properties, drainage, seismic loading, vegetation, and human activity, and is used to evaluate the likelihood of movement or collapse.

In practice, slopestability is quantified using stability analysis methods that estimate the factor of safety against

Applications include the design of engineered slopes (embankments, excavations, tailings dams), landslide hazard assessment, and climate-related

Limitations include sensitivity to model choice, data quality, and scale, as well as potential oversimplification of

See also: slope stability, landslide, geotechnical engineering, probabilistic risk assessment.

sliding
or
rotational
failure.
Common
approaches
include
limit
equilibrium
methods,
such
as
Bishop
and
Janbu
formulations,
and
numerical
methods
like
finite
element
analysis.
The
calculation
typically
requires
properties
such
as
cohesion,
internal
friction
angle,
unit
weight,
slope
geometry,
and
pore-water
pressure.
Probabilistic
formulations
may
incorporate
uncertainty
in
inputs
to
produce
a
probability
of
failure
or
a
fragility
curve.
risk
planning.
Slopestability
assessments
inform
mitigation
strategies,
such
as
drainage
improvement,
reinforcement,
or
slope
regrading.
The
concept
is
closely
related
to
slope
stability
and
landslide
science,
but
emphasizes
a
broader,
systems-level
view
that
can
integrate
dynamic
loading
and
stochastic
variation.
complex
groundwater
or
geological
processes.
In
practice,
slopestability
is
an
evolving
concept,
with
ongoing
research
into
probabilistic,
time-dependent,
and
climate-informed
methods.