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dielektrica

A dielectric, in physics and engineering, refers to an insulating material that does not conduct electric current under normal conditions but can be polarized by an applied electric field. Dielectrics are characterized by their permittivity, which measures how the material responds to the field. The absolute permittivity is written as ε = ε0 εr, where ε0 is the vacuum permittivity and εr is the relative permittivity or dielectric constant.

When a field is applied, microscopic dipoles align and bound charges shift, creating polarization. The polarization

Dielectrics are primarily used for insulation and energy storage because of their high resistivity and finite

Classification of dielectrics includes inorganic ceramics and glasses, organic polymers and fluids, and composite materials. They

Applications range from capacitors and electrical insulation in cables and devices to gate insulators in microelectronics

may
arise
from
electronic,
ionic,
orientation,
or
interfacial
mechanisms,
and
it
depends
on
frequency
and
temperature.
This
response
affects
how
the
material
stores
and
dissipates
energy.
dielectric
strength,
the
maximum
field
a
material
can
withstand
before
breakdown.
They
also
exhibit
dielectric
losses,
quantified
by
the
loss
tangent
tan
δ,
which
tends
to
increase
with
frequency
and
temperature
and
influences
efficiency
in
AC
applications.
can
be
linear
or
nonlinear,
isotropic
or
anisotropic,
and
some,
such
as
ferroelectrics,
exhibit
spontaneous
polarization.
The
choice
of
dielectric
depends
on
properties
like
dielectric
constant,
breakdown
strength,
loss
characteristics,
and
temperature
stability.
and
various
sensors
and
actuators.
The
behavior
of
dielectrics
in
electric
fields
is
described
by
Maxwell’s
equations,
with
D
=
ε
E
describing
the
relation
between
electric
displacement
and
the
applied
field,
reflecting
how
bound
charges
modify
field
distribution.