Investigation of an Idealized Virus Capsid Model by the Dynamic Elasticity Apparatus


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The three-dimensional dynamic theory of elasticity is applied to investigate the mechanical properties of the virus capsid. An idealized model of viruses is based on the 3D boundary-value problem of mathematical physics formulated in a spherical coordinate system for the steady-state oscillation process. The virus is modeled by a hollow elastic sphere filled with an acoustic medium and located in a different acoustic medium. The stated boundary-value problem is solved with the help of the method of integral transforms and the method of the discontinuous solutions. As a result, the exact solution of the problem is obtained. The numerical calculations of the elastic characteristics of the virus are carried out.

Sobre autores

Z. Zhuravlova

Mechnikov Odessa National University

Autor responsável pela correspondência
Email: melissa.delgado@springer.com
Ucrânia, Odessa

D. Nerukh

Aston University

Email: melissa.delgado@springer.com
Reino Unido da Grã-Bretanha e Irlanda do Norte, Birmingham

V. Reut

Mechnikov Odessa National University

Email: melissa.delgado@springer.com
Ucrânia, Odessa

N. Vaysfel’d

Mechnikov Odessa National University

Email: melissa.delgado@springer.com
Ucrânia, Odessa

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