. "A detailed mathematical analysis of cylindrical microtubular structures reveals that viscous damping cannot cause strong damping of vibrations in mirotubules as the slip boundary conditions (depending on high deformation and electrical polarity of the structure) have protective effects. Relaxation time may be more than 100 times greater than the period of oscillations at 10 MHz."@en . "cellular biophysics; electromagnetic fields; bioelectric phenomena"@en . "[695E39F010A6]" . . . "A detailed mathematical analysis of cylindrical microtubular structures reveals that viscous damping cannot cause strong damping of vibrations in mirotubules as the slip boundary conditions (depending on high deformation and electrical polarity of the structure) have protective effects. Relaxation time may be more than 100 times greater than the period of oscillations at 10 MHz." . "22" . "15"^^ . . "15;29" . "1"^^ . "P(OC 281.001), Z(AV0Z2067918)" . . . "1536-8378" . "0"^^ . "1"^^ . . "0"^^ . . . "Electromagnetic Biology and Medicine" . "RIV/67985882:_____/03:13030022!RIV/2004/AV0/A13004/N" . . . "Viscous effects on polar vibrations in microtubules."@en . "Pokorn\u00FD, Ji\u0159\u00ED" . . "1" . . "Viscous effects on polar vibrations in microtubules."@en . "Viscous effects on polar vibrations in microtubules." . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "633067" . . "Viscous effects on polar vibrations in microtubules." . . "RIV/67985882:_____/03:13030022" . . .