So as to look at the adequacy of applying a static attractive field (SMF) for expanding bone mineral thickness (BMD), we surveyed the level of osteopenia by double vitality X-beam absorptiometry (DEXA), the digestion estimating framework, and histological assessment of bone tissue in an ovariectomized (OVX) rodent model. Thirty-six female Wistar rodents (two months old, 160–180 g) were partitioned into three gatherings. The rodents in the OVX-M bunch were presented to SMF for 12 weeks after ovariectomy. The ovariectomized rodents in the OVX-D bunch were not presented to SMF as a control. The rodents in the ordinary gathering got neither ovariectomy nor presentation to SMF. Twelve-week presentation to SMF in the OVX-M bunch hindered the decrease in BMD that was seen in the OVX-D gathering. In addition, in the OVX rodents, before presentation to SMF, there was no away from in the degree of locomotor movement between the dynamic and resting stages, and the example of locomotor action was sporadic. After presentation of OVX rodents to SMF, the example of locomotor movement became diphasic with clear dynamic and resting stages, as was seen in the ordinary gathering. In the OVX-M gathering, the progression of the trabecular bone was kept up more well and bone mass was higher than the individual parameters in the OVX-D gathering. These outcomes exhibit that presentation to SMF expanded the degree of locomotor movement in OVX rodents, subsequently expanding BMD.