David Cichra, Vít Průša, K. R. Rajagopal, Casey Rodriguez, Martin Vejvoda
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The conclusion that metamaterials could have negative mass is a consequence of improper constitutive characterisation
The concept of "effective mass" is frequently used for the simplification of
complex lumped parameter systems (discrete dynamical systems) as well as
materials that have complicated microstructural features. From the perspective
of wave propagation, it is claimed that for some bodies described as
metamaterials, the corresponding "effective mass" can be frequency dependent,
negative or it may not even be a scalar quantity. The procedure has even led
some authors to suggest that Newton's second law needs to be modified within
the context of classical continuum mechanics. Such absurd physical conclusions
are a consequence of appealing to the notion of "effective mass" with a
preconception for the constitutive structure of the metamaterial and using a
correct mathematical procedure. We show that such unreasonable physical
conclusions would not arise if we were to use the appropriate "effective
constitutive relation" for the metamaterial, rather than use the concept of
"effective mass" with an incorrect predetermined constitutive relation.
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