Introduction to Two-Dimensional Inviscid Incompressible Flow

View Sample PDF

Author(s): Kaliappan S. (Velammal Institute of Technology, Chennai, India), Raj Kamal M. D. (Velammal Institute of Technology, Chennai, India), Balaji V. (Loyola Institute of Technology, India), Socrates S. (Velammal Institute of Technology, Chennai, India)and Andrii Kondratiev (O. M. Beketov National University of Urban Economy, Ukraine)
Copyright: 2022
Pages: 18
Source title: Handbook of Research on Aspects and Applications of Incompressible and Compressible Aerodynamics
Source Author(s)/Editor(s): Sathish K. Kumar (Nehru Institute of Engineering and Technology, India)and Naren Shankar Radhakrishnan (Vel Tech Rangarajan Dr. Sagunthala R&D Institute of Science and Technology, India)
DOI: 10.4018/978-1-6684-4230-2.ch003

Keywords: Aerospace Engineering / Aviation Engineering / Engineering Science Reference / Science & Engineering

Purchase

View Introduction to Two-Dimensional Inviscid Incompressible Flow on the publisher's website for pricing and purchasing information.

Abstract

Here, the authors explain the Magnus effect. The ball is deflected in the same direction as the rotation. The most common exposure and welcome statement of the Magnus effect is that a spinning object creates a vortex of fluid swirling around it. On the side where the movement of the vortex is in the same direction as the direction of the flow to which the object is exposed, the speed will increase. On the opposite side, where the directions are opposite, the speed will decrease. It is explained here, according to Bernoulli's principle, that the pressure is lower on the side with the greatest velocity, and therefore, there is an unbalanced force orthogonal to the flow of the fluid.

The IRMA Community

Research IRM

Introduction to Two-Dimensional Inviscid Incompressible Flow

Purchase

Abstract

Related Content

IRMA Sponsors