Researchers share a model that identifies the optimal location for bowling ball placement. Employing a system of six differential equations derived from Euler's equations for a rotating rigid body, ...

Researchers had to mathematically capture the motion of a bowling ball that, although nearly spherical, is slightly ...

The study, published in AIP Advances, outlines how a set of six differential equations—based on Euler’s equations for ... describe the rotational motion of a rigid body in three-dimensional ...

A tiny, soft, flexible robot that can crawl through earthquake rubble to find trapped victims or travel inside the human body to deliver medicine may seem like science fiction, but an international ...

A team of researchers from top universities has developed a groundbreaking mathematical model that could change how bowling ...

Abstract: The rigid body motion of a two-body satellite under ... The equations of motion are derived directly from those of Euler. Necessary stability criteria are established. Numerical solutions ...

Understanding of part of the main body of knowledge for mathematics ... Maclaurin expansion. Complex numbers and Euler’s formula. Differential equations (DE); first-order DE: variable separable, ...

Hooper has been studying the physics of bowling for several years, including an analysis of the 2017 Weber Cup, as well as ...