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Bioelectromagnetics

Showing results (621-630 of 2,590) with videos related to

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Bioelectromagnetics|January 1, 1983
Testicular function of rats following exposure to microwave radiationR M Lebovitz, L Johnson
Bioelectromagnetics|January 1, 1980
Microwave effects on energy metabolism of rat brainA P Sanders, D J Schaefer, W T Joines
Bioelectromagnetics|January 1, 1994
Behavioral sensitivity of rats to extremely-low-frequency magnetic fieldsR F Smith, R L Clarke, D R Justesen
Bioelectromagnetics|January 1, 1994
Rhesus monkey behavior during exposure to high-peak-power 5.62-GHz microwave pulsesJ A D'Andrea, A Thomas, D J Hatcher
Bioelectromagnetics|January 1, 1993
The role of coherence time in the effect of microwaves on ornithine decarboxylase activityT A Litovitz, D Krause, M Penafiel, et al.
Bioelectromagnetics|January 1, 1996
Magnetic fields at resonant conditions for the hydrogen ion affect neurite outgrowth in PC-12 cells: a test of the ion parametric resonance modelM A Trillo, A Ubeda, J P Blanchard, et al.
Bioelectromagnetics|January 1, 1983
Perinatal exposure to 60-Hz electric fields: effects on the development of the visual-evoked response in ratsR A Jaffe, C A Lopresti, D B Carr, et al.
Bioelectromagnetics|June 26, 2026
Effect of Magnetic Field on the Ability of Vibrational Iterations to Enhance ROS Production by NeutrophilsGerman O Stepanov, Elena V Yablokova, Natalia N Rodionova, et al.
Bioelectromagnetics|October 8, 2020
No Increased DNA Damage Observed in the Brain, Liver, and Lung of Fetal Mice Treated With Ethylnitrosourea and Exposed to UMTS Radiofrequency Electromagnetic FieldsAlexander Lerchl, Melanie Klose, Karen Drees
Bioelectromagnetics|March 29, 2020
Low-Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na<sup>+</sup> Concentration of Intracellular and Extracellular Monascus purpureusXiaoqian Xiong, Zhixin Zhen, Yingbao Liu, et al.
Pageof 259

Showing results (621-630 of 2,590) with videos related to

Sort By:
Pageof 259
Bioelectromagnetics|January 1, 1983
Testicular function of rats following exposure to microwave radiationR M Lebovitz, L Johnson
Bioelectromagnetics|January 1, 1980
Microwave effects on energy metabolism of rat brainA P Sanders, D J Schaefer, W T Joines
Bioelectromagnetics|January 1, 1994
Behavioral sensitivity of rats to extremely-low-frequency magnetic fieldsR F Smith, R L Clarke, D R Justesen
Bioelectromagnetics|January 1, 1994
Rhesus monkey behavior during exposure to high-peak-power 5.62-GHz microwave pulsesJ A D'Andrea, A Thomas, D J Hatcher
Bioelectromagnetics|January 1, 1993
The role of coherence time in the effect of microwaves on ornithine decarboxylase activityT A Litovitz, D Krause, M Penafiel, et al.
Bioelectromagnetics|January 1, 1996
Magnetic fields at resonant conditions for the hydrogen ion affect neurite outgrowth in PC-12 cells: a test of the ion parametric resonance modelM A Trillo, A Ubeda, J P Blanchard, et al.
Bioelectromagnetics|January 1, 1983
Perinatal exposure to 60-Hz electric fields: effects on the development of the visual-evoked response in ratsR A Jaffe, C A Lopresti, D B Carr, et al.
Bioelectromagnetics|June 26, 2026
Effect of Magnetic Field on the Ability of Vibrational Iterations to Enhance ROS Production by NeutrophilsGerman O Stepanov, Elena V Yablokova, Natalia N Rodionova, et al.
Bioelectromagnetics|October 8, 2020
No Increased DNA Damage Observed in the Brain, Liver, and Lung of Fetal Mice Treated With Ethylnitrosourea and Exposed to UMTS Radiofrequency Electromagnetic FieldsAlexander Lerchl, Melanie Klose, Karen Drees
Bioelectromagnetics|March 29, 2020
Low-Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na<sup>+</sup> Concentration of Intracellular and Extracellular Monascus purpureusXiaoqian Xiong, Zhixin Zhen, Yingbao Liu, et al.
Pageof 259