Aggoune N, Aggoune MS, Nezzar M, Abdessemed R.
Effects of a High Voltage Line on a Biological Tissue. Conf. On Advances in Applied Science and Environmental Technology - ASET . 2018.
Abstract
Living tissues are highly heterogeneous, with very specific properties; and in order to determine the interactions between electromagnetic fields generated by different sources to which we are exposed, it is imperative to be able to calculate the induced electromagnetic currents and to find out the resulting reactions. To apprehend the field nuisance on people’s health, this paper highlights some of these effects from a simulation study of biological tissues (muscle sample) subjected to the electromagnetic field created by a 440 kV HV line. Induced currents in these tissues and their effects on blood microcirculation will be emphasized
Aggoune N, Aggoune MS, Nezzar M, Abdessemed R.
Effects of a High Voltage Line on a Biological Tissue. Conf. On Advances in Applied Science and Environmental Technology - ASET . 2018.
Abstract
Living tissues are highly heterogeneous, with very specific properties; and in order to determine the interactions between electromagnetic fields generated by different sources to which we are exposed, it is imperative to be able to calculate the induced electromagnetic currents and to find out the resulting reactions. To apprehend the field nuisance on people’s health, this paper highlights some of these effects from a simulation study of biological tissues (muscle sample) subjected to the electromagnetic field created by a 440 kV HV line. Induced currents in these tissues and their effects on blood microcirculation will be emphasized
Aggoune N, Aggoune MS, Nezzar M, Abdessemed R.
Effects of a High Voltage Line on a Biological Tissue. Conf. On Advances in Applied Science and Environmental Technology - ASET . 2018.
Abstract
Living tissues are highly heterogeneous, with very specific properties; and in order to determine the interactions between electromagnetic fields generated by different sources to which we are exposed, it is imperative to be able to calculate the induced electromagnetic currents and to find out the resulting reactions. To apprehend the field nuisance on people’s health, this paper highlights some of these effects from a simulation study of biological tissues (muscle sample) subjected to the electromagnetic field created by a 440 kV HV line. Induced currents in these tissues and their effects on blood microcirculation will be emphasized
Aggoune N, Aggoune MS, Nezzar M, Abdessemed R.
Effects of a High Voltage Line on a Biological Tissue. Conf. On Advances in Applied Science and Environmental Technology - ASET . 2018.
Abstract
Living tissues are highly heterogeneous, with very specific properties; and in order to determine the interactions between electromagnetic fields generated by different sources to which we are exposed, it is imperative to be able to calculate the induced electromagnetic currents and to find out the resulting reactions. To apprehend the field nuisance on people’s health, this paper highlights some of these effects from a simulation study of biological tissues (muscle sample) subjected to the electromagnetic field created by a 440 kV HV line. Induced currents in these tissues and their effects on blood microcirculation will be emphasized
MESSAOUD HACHEMI, Mesbah L, MOULOUD YAHIA, Aimène MM.
Effects of propolis on cadmium-induced hepatotoxicity in rats. Transylvanian ReviewTransylvanian Review. 2018;26.
MESSAOUD HACHEMI, Mesbah L, MOULOUD YAHIA, Aimène MM.
Effects of propolis on cadmium-induced hepatotoxicity in rats. Transylvanian ReviewTransylvanian Review. 2018;26.
MESSAOUD HACHEMI, Mesbah L, MOULOUD YAHIA, Aimène MM.
Effects of propolis on cadmium-induced hepatotoxicity in rats. Transylvanian ReviewTransylvanian Review. 2018;26.
MESSAOUD HACHEMI, Mesbah L, MOULOUD YAHIA, Aimène MM.
Effects of propolis on cadmium-induced hepatotoxicity in rats. Transylvanian ReviewTransylvanian Review. 2018;26.
Felhi H, Trabelsi H, Taktak M, CHAABANE MABROUK, Haddar M.
Effects of viscoelastic and porous materials on sound transmission of multilayer systems. Journal of Theoretical and Applied MechanicsJournal of Theoretical and Applied Mechanics. 2018;56.
Felhi H, Trabelsi H, Taktak M, CHAABANE MABROUK, Haddar M.
Effects of viscoelastic and porous materials on sound transmission of multilayer systems. Journal of Theoretical and Applied MechanicsJournal of Theoretical and Applied Mechanics. 2018;56.
Felhi H, Trabelsi H, Taktak M, CHAABANE MABROUK, Haddar M.
Effects of viscoelastic and porous materials on sound transmission of multilayer systems. Journal of Theoretical and Applied MechanicsJournal of Theoretical and Applied Mechanics. 2018;56.
Felhi H, Trabelsi H, Taktak M, CHAABANE MABROUK, Haddar M.
Effects of viscoelastic and porous materials on sound transmission of multilayer systems. Journal of Theoretical and Applied MechanicsJournal of Theoretical and Applied Mechanics. 2018;56.
Felhi H, Trabelsi H, Taktak M, CHAABANE MABROUK, Haddar M.
Effects of viscoelastic and porous materials on sound transmission of multilayer systems. Journal of Theoretical and Applied MechanicsJournal of Theoretical and Applied Mechanics. 2018;56.