Motion of floating bodies.

Konuk, İbrahim


Motion of a rigid particle through a fluid-filled elastic tube.
Özkaya, A. Nihat; Department of Engineering Sciences (1980)
Motion of Solid Spheres under Solitary Wave Attack: Physical and Numerical Modeling
Güler, Hasan Gökhan; Arıkawa, Taro; Baykal, Cüneyt; Göral, Koray Deniz; Yalçıner, Ahmet Cevdet (American Society of Civil Engineers (ASCE); 2018-08-04)
In this study, physical and numerical test are carried out focusing on the motion of two solid spheres under solitary wave attack. The numerical model CADMAS-SURF/3D-2F-DEM coupling a multiphase flow solver solving Reynolds Averaged Navier-Stokes Equations based on a porous body model and a discrete element method solver for Newton’s equations of motion is validated against the data of physical model experiments carried out in the wave flume of METU Ocean Engineering Research Center. Comparisons of the nume...
Motion analysis of a particle on vibratory conveyors.
Korkusuz, Ertaç; Özgüven, Hasan Nevzat; Department of Mechanical Engineering (1983)
Motion tracking in gait analysis
Shafiq, Muhammad Shahid; Tümer, S. Turgut; Department of Mechanical Engineering (1998)
Motion Control of a Spatial Elastic Manipulator in the Presence of Measurement Noises
Kilicaslan, Sinan; İder, Sıtkı Kemal; Özgören, Mustafa Kemal (2021-07-01)
This paper presents a method for the end effector motion control of a spatial three-link robot having elastic second and third links including measurement noises. In the derivation of equations of motion, not to face with complex equations of motion, each link is modeled as though the links are not connected and the restrictions on the links due to connecting them by joints are written as constraint equations. After that the Lagrange multipliers are eliminated and the constraint equations at the acceleratio...
Citation Formats
İ. Konuk, “Motion of floating bodies.,” Middle East Technical University, 1973.