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energiabsorption

Energiabsorption refers to the process by which a material or system takes in energy from an external source and converts it into other forms, such as heat, electronic excitation, or mechanical motion. It is a central concept in optics, acoustics, thermodynamics, and materials science, and it is used to describe how much of an incoming energy flux is removed from a beam, wave, or field as it passes through a medium. Absorption is typically described by coefficients or fractions that depend on frequency or wavelength and geometry.

In electromagnetic contexts, photons may be absorbed when they match electronic, vibrational, or lattice transitions in

In acoustics, energy absorption at a surface is quantified by the absorption coefficient, ranging from 0 (total

Other contexts include thermal energy absorption (specific heat and heat capacity determine how much energy is

Measurement and units: optical spectroscopy uses spectrophotometry; calorimetry measures absorbed heat; acoustics uses impedance and absorption

a
material.
The
Beer-Lambert
law
relates
incident
and
transmitted
intensity
by
I
=
I0
e^{-αx},
where
α
is
the
absorption
coefficient
and
x
is
path
length.
The
absorptance
or
absorbance
(A)
is
a
dimensionless
quantity
often
given
by
A
=
-log10(I/I0).
Materials
exhibit
wavelength-dependent
spectra
that
reveal
electronic
structure
and
bonding.
reflection)
to
1
(complete
absorption).
Materials
such
as
porous
foams
or
fibrous
sheets
convert
sound
energy
to
heat
through
viscous
losses
and
friction,
reducing
reverberation.
needed
to
raise
temperature),
and
applications
in
solar
energy,
photodetection,
radiative
shielding,
or
thermal
insulation.
coefficients.