Pulsatile Flow of Blood with Volume Fraction of Micro-organisms in the Presence of Transverse Magnetic Field through Stenosed Tube
Journal Title: INTERNATIONAL JOURNAL OF MATHEMATICS TRENDS AND TECHNOLOGY - Year 2014, Vol 7, Issue 1
Abstract
This paper presents an analytical study of pulsatile flow of blood with micro-organisms through stenosed tubes in presence of transverse magnetic field.The effect of externally applied magnetic field on velocity, flow rate is studied.The analytical solutions for the velocity, volumetric flow rate are obtained using finite Hankel and Laplace transforms,and their natures are shown graphically for different values of involved parameters.
Authors and Affiliations
Dr. Srinivas K , Dr. V. P. Rathod
Transmission Mechanisms of the Inequality-Growth Relationship
This paper contributes to the debate over the relationship between income inequality and economic growth by developing a comprehensive description of the mechanisms and the models proposed in the literature over th...
Characterizations of k-normal matrices
In this paper to extend and generalize lists of characterizations of k-normal and k-hermitian matrices known in the literature, by providing numerous sets of equivalent conditions referring to the notions of co...
Total Outer Equitable Connected Domination of a Graph
Let G = (V, E) be a graph. A set D V (G) is equitable dominating set of G if v V – D a vertex u D such that uv E (G) and |d(u) – d(v)| 1. A set D V (G) is outer equitable dominating set if D is equitable dominati...
Degree of Approximation of a Function Belongingto W (Lr, ξ (t)) (r > 1)-Class by (E, 1)(C, 2) Product Summabilty Transform
The field of approximation theory is so vast that it plays an increasingly important role in applications in pure and applied mathematics. The present study deals with a theorem concerning the degree of approximation of...
On the exponential Diophantine equation
The exponential Diophantine equation in four variables given by is considered and analyzed for finding its non-zero integer solutions for different choices of m and n. A few numerical illustrations are present...