@article{Ahmed_Ali_2016, title={Numerical Relativity: Solving Geodesics equation for Massive Particle Around Black Holes Horizon}, volume={35}, url={https://banglajol.info/index.php/GANIT/article/view/28571}, DOI={10.3329/ganit.v35i0.28571}, abstractNote={<p>General relativity is the most beautiful physical theory ever invented. It describes one of the most pervasive features of the world we experience - gravitation. The gravitational field acts on nearby matter defines by the curvature of space-time. The black holes of nature are the most perfect macroscopic objects there are in the universe that constructed our concept of space-time. In this paper we use Einsteins general relativity to model the motions of massive particles around the two black holes: static and rotating. These equations of motion around black holes will be studied with special focus towards the variation of symmetry by the change of gravitational effect.</p><p>GANIT <em>J. Bangladesh Math. Soc.</em>Vol. 35 (2015) 79-85</p>}, journal={GANIT: Journal of Bangladesh Mathematical Society}, author={Ahmed, Shohel and Ali, Md Showkat}, year={2016}, month={Jun.}, pages={79–85} }