Understanding the Quark Gluon Plasma, whose existence was known from the combination of threernobservations; is the central goal of high energy physics. All the three observations came from studyingrnelliptic ow: how the energy; momentum and number of created particles are not uniform with direction.rnAny elliptic ow related studies have the chance to clear the road of understanding QGP well and answeringrnwhat a_ects elliptic ow is part of the journey. This includes quantifying the created electromagnetic _eldrnduring heavy ion collisions; which is ignored by the hydrodynamic models; and investigating its contributionrnto the ow of particles. So; the purpose of this research was to investigate the e_ect of electromagneticrn_eld evolution created in relativistic heavy ion collision on the ow of identi_ed particles. In order tornaddress these problems; our model set-up followed three basic steps: describe the full relativistic viscousrnhydrodynamics of the considered heavy ions collision using the well known iEBEÃƒÂ€Â€Â€VISHNU frame work;rncalculate the electromagnetic _eld created by the system with the possible drifting velocity sparked by itrnand _nally investigate the change it brought to the _nal ow of those particles after injecting the driftrnvelocities. The evolution of the electromagnetic _elds calculated was found to play a role on the bending ofrnow. Beside the nature of created particles; the _eld evolution was a_ected by the electrical conductivityrnof the evolved system. The _eld arouse ow at lower transverse momentum and suppress it at higher. Thisrnchange in ow is larger for heavier particles than the lighter ones during the early evolution time. Finallyrnwe found that; even ow harmonics are a_ected than the odds. This study de_nitively answers the questionrnon whether elliptic ow is a_ected by the evolved electromagnetic _eld or not. Further study by softeningrnmany of the crude assumptions we made and a full event by event viscous hydrodynamic simulation, keepingrnthe functionality of parameters we took as constant, is needed to establish a better ground on understandingrnthe e_ect of electromagnetic _eld well and see from there what new things we can learn about the QGP.