2 . Copyright © 2012 Elsevier Ltd. All rights reserved. Magnus effect, the sideways force on a translating and rotating sphere or cylinder, is discussed in several fluid dynamics textbooks [1] - [3] , but confusion can occur when it is combined with other effects, such as friction and eddy forming or shedding. Magnus effect, the sideways force on a translating and rotating sphere or cylinder, is discussed in se ve ral fluid dynami cs text books [1] - [3] , … There has been lots of creative ideas for using the Magnus effect in our everyday lives. . Magnus effect, the sideways force on a translating and rotating sphere or cylinder, is discussed in several fluid dynamics textbooks [1] - [3] , but confusion can occur when it is combined with other effects, such as friction and eddy forming or shedding. Magnus Force Consider a sphere traveling at a velocity V through an oncoming flow as shown in Fig 1a. Inverse Magnus effect on a rotating sphere: when and why - Volume 754 - Jooha Kim, Haecheon Choi, Hyungmin Park, Jung Yul Yoo. try { Stack Exchange network consists of 176 Q&A communities including Stack Overflow, the largest, most trusted online community for developers to learn, share their knowledge, and build their careers.. Visit Stack Exchange }); window.jQuery || document.write(' 2 . Copyright © 2012 Elsevier Ltd. All rights reserved. Magnus effect, the sideways force on a translating and rotating sphere or cylinder, is discussed in several fluid dynamics textbooks [1] - [3] , but confusion can occur when it is combined with other effects, such as friction and eddy forming or shedding. Magnus effect, the sideways force on a translating and rotating sphere or cylinder, is discussed in se ve ral fluid dynami cs text books [1] - [3] , … There has been lots of creative ideas for using the Magnus effect in our everyday lives. . Magnus effect, the sideways force on a translating and rotating sphere or cylinder, is discussed in several fluid dynamics textbooks [1] - [3] , but confusion can occur when it is combined with other effects, such as friction and eddy forming or shedding. Magnus Force Consider a sphere traveling at a velocity V through an oncoming flow as shown in Fig 1a. Inverse Magnus effect on a rotating sphere: when and why - Volume 754 - Jooha Kim, Haecheon Choi, Hyungmin Park, Jung Yul Yoo. try { Stack Exchange network consists of 176 Q&A communities including Stack Overflow, the largest, most trusted online community for developers to learn, share their knowledge, and build their careers.. Visit Stack Exchange }); window.jQuery || document.write('