The underwater detonation of a high condensed explosive produces two pulses that is a shock and then followed by a bubble pulse associated with the expansion of the products of detonation. Much of the present knowledge and understanding of this field was acquired because of the demands and the few available discussions of the subject have become inadequate or obsolete. The research of this paper largely depends on the result of published research on underwater explosions carried out by past literatures such as Roop [33], Cole [1], Aron [34], Keil [3], Smith [8] and Mäkinen [16]. This paper evaluates and proceeds on simulation ability of underwater explosion of MSC.Dytran finite element software. Also in this paper, numerical studies of underwater explosion which includes shock wave and bubble pulse are investigated in details using MSC.Dytran finite element software and compared with existing experimental data and empirical methodologies. When the first element covers of the radius of underwater explosive then it can fit the experimental data. The studies presented in this paper attempt to supply a reasonable comprehensive account, which will be used for workers in the field of underwater explosion and others who are interested in the basic physical processes involved.