Effect of Ultra-Violet and Magnetic Field Exposures on Pseudomonas aeroginosa
DOI:
https://doi.org/10.69844/740nnn19Keywords:
Exposure, Fields, Ultraviolet, Blackleg DiseaseAbstract
#This research aims to study the blackleg disease and its susceptibility to ultraviolet (UV) radiation under different experimental conditions. The research followed an experimental methodology and was divided into a theoretical introduction, two chapters, and a conclusion. The first chapter focused on laboratory experiments where researchers used intense electromagnetic fields (103 Gauss) to expose samples of the disease and determine the lethal dose. The second chapter addressed the impact of both UV radiation and electromagnetic fields on living tissues, including humans, in general. The conclusion included the study's results, including the following key findings: Increasing exposure duration and period leads to a reduction in the number of viable environments. For example, when the exposure was reduced to 103 and 104, the number of viable environments decreased from 300 cfu to 0 in 60 seconds and from 230 cfu to 0 in 8 seconds, respectively. However, the impact of the electromagnetic field sometimes increases and sometimes decreases. Additionally, there was a significant increase in growth, particularly at 10 and 15 minutes
