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Bioelectromagnetics

Showing results (71-80 of 2,761) with videos related to

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Bioelectromagnetics|January 1, 1987
Specific absorption rate in models of man and monkey at 225 and 2,000 MHzR G Olsen, T A Griner
Bioelectromagnetics|April 19, 2022
An Extremely Low-Frequency Vortex Magnetic Field Modifies Protein Expression, Rearranges the Cytoskeleton, and Induces Apoptosis of a Human Neuroblastoma Cell LineDiana I Aparicio-Bautista, Daniel Chávez-Valenzuela, Giovanni Ambriz-Álvarez, et al.
Bioelectromagnetics|January 1, 1986
Research on biological effects of nonionizing radiations: contributions on biological properties, field interactions, and dosimetryH P Schwan
Bioelectromagnetics|June 30, 2019
Magnetic Resonance Examinations of Patients With Implanted Active Devices. A Low-Cost Approach in Slew Rate EvaluationDiego Trevisan, Claudio Nichelatti, Marta Maieron, et al.
Bioelectromagnetics|February 24, 1999
Heating of cardiovascular stents in intense radiofrequency magnetic fieldsK R Foster, R Goldberg, C Bonsignore
Bioelectromagnetics|February 24, 1999
Changes of hydration of rats' tissues after in vivo exposure to 0.2 Tesla steady magnetic fieldA A Danielyan, S N Ayrapetyan
Bioelectromagnetics|October 3, 2000
Effects of an increased air gap on the in vitro interaction of wireless phones with cardiac pacemakersF H Grant, R E Schlegel
Bioelectromagnetics|December 30, 1999
The use of nonlinear dielectric spectroscopy to monitor the bioelectromagnetic effects of a weak pulsed magnetic field in real timeE Davies, A Woodward, D Kell
Bioelectromagnetics|March 21, 2000
Effects on Rb(+)(K+) uptake of HeLa cells in a high K(+) medium of exposure to a switched 1.7 Tesla magnetic fieldT Ikehara, K H Park, H Yamaguchi, et al.
Bioelectromagnetics|February 17, 2001
Currents induced in anatomic models of the human for uniform and nonuniform power frequency magnetic fieldsO P Gandhi, G Kang, D Wu, et al.
Pageof 277

Showing results (71-80 of 2,761) with videos related to

Sort By:
Pageof 277
Bioelectromagnetics|January 1, 1987
Specific absorption rate in models of man and monkey at 225 and 2,000 MHzR G Olsen, T A Griner
Bioelectromagnetics|April 19, 2022
An Extremely Low-Frequency Vortex Magnetic Field Modifies Protein Expression, Rearranges the Cytoskeleton, and Induces Apoptosis of a Human Neuroblastoma Cell LineDiana I Aparicio-Bautista, Daniel Chávez-Valenzuela, Giovanni Ambriz-Álvarez, et al.
Bioelectromagnetics|January 1, 1986
Research on biological effects of nonionizing radiations: contributions on biological properties, field interactions, and dosimetryH P Schwan
Bioelectromagnetics|June 30, 2019
Magnetic Resonance Examinations of Patients With Implanted Active Devices. A Low-Cost Approach in Slew Rate EvaluationDiego Trevisan, Claudio Nichelatti, Marta Maieron, et al.
Bioelectromagnetics|February 24, 1999
Heating of cardiovascular stents in intense radiofrequency magnetic fieldsK R Foster, R Goldberg, C Bonsignore
Bioelectromagnetics|February 24, 1999
Changes of hydration of rats' tissues after in vivo exposure to 0.2 Tesla steady magnetic fieldA A Danielyan, S N Ayrapetyan
Bioelectromagnetics|October 3, 2000
Effects of an increased air gap on the in vitro interaction of wireless phones with cardiac pacemakersF H Grant, R E Schlegel
Bioelectromagnetics|December 30, 1999
The use of nonlinear dielectric spectroscopy to monitor the bioelectromagnetic effects of a weak pulsed magnetic field in real timeE Davies, A Woodward, D Kell
Bioelectromagnetics|March 21, 2000
Effects on Rb(+)(K+) uptake of HeLa cells in a high K(+) medium of exposure to a switched 1.7 Tesla magnetic fieldT Ikehara, K H Park, H Yamaguchi, et al.
Bioelectromagnetics|February 17, 2001
Currents induced in anatomic models of the human for uniform and nonuniform power frequency magnetic fieldsO P Gandhi, G Kang, D Wu, et al.
Pageof 277