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frictiehoek

Frictiehoek, often referred to as the friction triangle in Dutch, is a schematic tool used in statics and mechanics to analyze the contact forces between a body and a supporting surface. It represents the forces acting at the contact: a normal force N, perpendicular to the surface, and a friction force F, parallel to the surface and opposing motion.

In the friction triangle, the forces form a right triangle. The vertical leg corresponds to the normal

The friction triangle is used to determine whether motion will occur under an applied tangential force. If

Notes: the coefficient of friction μ varies with materials, surface conditions, and velocity; μ_s denotes static friction

Example: with μ = 0.3, the friction angle θ ≈ arctan(0.3) ≈ 16.7 degrees. If N = 100 N and F = 30

force
N,
the
horizontal
leg
to
the
friction
force
F,
and
the
hypotenuse
to
the
resultant
force
R
that
acts
at
the
contact.
The
angle
between
the
normal
N
and
the
resultant
R
is
the
friction
angle,
denoted
here
as
θ.
This
angle
satisfies
tan(θ)
=
F/N
=
μ,
where
μ
is
the
coefficient
of
friction
(static
or
kinetic
depending
on
the
situation).
Therefore
θ
=
arctan(μ).
the
external
tangential
force
does
not
exceed
μN,
the
contact
remains
at
rest;
when
F
reaches
μN,
impending
motion
occurs.
This
visual
tool
helps
resolve
forces
quickly
in
problems
involving
restraints,
inclines,
or
horizontal
pushes.
and
μ_k
kinetic
friction.
In
geotechnical
engineering,
a
related
concept
is
the
internal
friction
angle
φ'
(phi
prime),
where
tan
φ'
relates
to
shear
strength
over
normal
stress.
N,
F/N
=
0.3,
yielding
θ
≈
16.7°.