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Category: Issue 11

Hydromagnetic 3D Williamson slip flow of nanofluid over a slendering sheet with Cattaneo-Christov heat flux

P. DURGA PRASAD (durga.prsd@gmail.com)
Department of Mathematics, Sri Venkateswara University, Tirupathi, 517502-A.P. (India)
S.V.K. VARMA
Department of Mathematics, Sri Venkateswara University, Tirupathi, 517502-A.P. (India)

ABSTRACT:

A theoretical and computational study of a magnetohydrodynamic and three-dimensional flow over a variable thickness sheet (slendering sheet) with Cattaneo-Christov heat flux is presented. The Williamson slip is considered at the modified boundary conditions. The Williamson slip model is employed which is representative of certain industrial polymers. The non-dimensional, transformed boundary layer equations for momentum, energy and species diffusion are transformed with appropriate boundary conditions. The non-linear ordinary differential equations (ODEs) are solved using the Runge-Kutta-Fehlberg integration method. Validation of the numerical solutions is achieved via bench marking with earlier published work. The influence of Williamson slip suppresses the momentum boundary layers thickness and enhances the thermal solutal boundary layer thickness. Graphically studied thermal relaxation parameter, wall thickness parameter, porosity parameter, Brownian motion and thermophoresis parameters.

KEYWORDS: Magnetohydrodynamics, porosity, 3D, incompressible viscous flows, AMS 2010 Classifications: 76Wxx, 76Sxx, 36T30, 76Dxx


A theoretical and computational study of a magnetohydrodynamic and three-dimensional flow over a variable thickness sheet (slendering sheet) with Cattaneo-Christov heat flux is presented. The Williamson slip is considered...

Economic Production Quantity Model With Generalized Pareto Rate of Production and Weibull Decay Having Selling Price Dependent Demand

K. SRINIVASA RAO
Department of Statistics, Andhra University, Visakhapatnam, India, PIN:530003
D. MADHULATHA (madhulatha.dasari@gmail.com)
Department of Statistics, Andhra University, Visakhapatnam, India, PIN:530003
B. MUNISWAMY
Department of Statistics, Andhra University, Visakhapatnam, India, PIN:530003

ABSTRACT:

Economic production quantity models usually assume that the production is fixed and finite. However, due to various random factors effecting the production, the production process becomes random. This paper deals with the development and analysis of economic production quantity model in which the production is random and follows a generalized Pareto distribution. The generalized Pareto distribution is capable of including different types of production rates. Here it is further assumed that the lifetime of the commodity is random and follows a two parameter Weibull distribution. The Weibull decay includes constant, increasing and decreasing rates of deterioration. It is also assumed that the demand is dependent on selling price. Assuming that shortages are allowed and fully backlogged the instantaneous state of on hand inventory is derived. With suitable cost considerations the total cost function and profit rate function are obtained and minimized with respect to the production uptime and downtime. The optimal production uptime, downtime, production quantity and selling price are derived. A numerical illustration demonstrating the solution procedure of the model is presented. The sensitivity analysis of the model revealed that the production and deteriorating distributions parameters have significant influence on the optimal production schedule and production quantity. This model is extended to the case of without shortages. This model also includes some of the earlier models as particular cases for specific or limiting values of the parameters.

KEYWORDS: EPQ model, Generalized Pareto rate of production, Selling price dependent demand, Random production, Weibull decay, Subject Classification Code: 90 59- Operations Research


Economic production quantity models usually assume that the production is fixed and finite. However, due to various random factors effecting the production, the production process becomes random. This paper...

Some Curvature Properties of LP-Sasakian Manifold with Respect to Quarter Symmetric Non Metric Connection

N.V.C. SHUKLA
Department of Mathematics & Astronomy, University of Lucknow, Lucknow, 226007, UP (India)
RAM ASRAY VERMA (ramasray1986@gmail.com)
Department of Mathematics & Astronomy, University of Lucknow, Lucknow, 226007, UP (India)

ABSTRACT:

The object of the present paper is to study of various curvature tensor on an Lorentzian para-Sasakian manifold with respect to quarter-symmetric non-metri connection.

KEYWORDS: Lorentzian para-Sasakian manifold, Weyl Conformal curvature tensor, Conharmonic curvature tenso, m-Projective curvature tensor, Quasi-Conformal curvature tensor Pseudo W2- curvature tensor, Subject Classification Code:- 2010 Mathematics 53C07, 53C25


The object of the present paper is to study of various curvature tensor on an Lorentzian para-Sasakian manifold with respect to quarter-symmetric non-metri connection.