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slipperiness

Slipperiness refers to the tendency of a surface to allow relative motion with decreased resistance or traction between contacting bodies. In physics, it is primarily linked to the friction between surfaces, and is quantified by the coefficient of friction. A smaller coefficient means less resistance to sliding and therefore higher slipperiness. Slipperiness depends on the materials, surface texture, presence of lubricants, and environmental conditions.

Common causes include liquids such as water, oil, or soap forming a film, ice or frost, wet

Measurement and testing: Slipperiness is typically assessed via the coefficient of friction, using devices like tribometers

Applications and safety: Slippery conditions are a concern in sidewalks, roads, workplaces, and bathrooms. Mitigation includes

or
waxed
floors,
and
contaminants
that
reduce
interfacial
adhesion.
Surface
roughness,
microstructure,
and
hardness
influence
how
contact
area
is
distributed,
while
temperature
can
alter
viscosity
of
lubricants
and
the
mode
of
friction.
Hydrophobic
or
smooth
coatings
can
also
feel
slippery
because
they
limit
real
contact
area,
even
if
friction
may
increase
later
with
wear.
or
on
inclined
planes.
In
building
safety,
standardized
slip
resistance
tests
and
ratings
are
used
to
evaluate
floors
under
specified
conditions.
anti-slip
floorings,
surface
texturing,
mats,
drainage,
and
prompt
cleanup
of
spills.
Footwear
design
with
appropriate
tread
and
outsole
material
seeks
to
maintain
traction
across
wet
and
dry
scenarios.