Add to ORKGThe measurement of dynamic coefficients in a water tunnel is considered generally, and it is shown that the forces depend only on relative velocity provided the flow in the water tunnel is steady. A method of measuring the coefficient N_r, relating cross force to yawing angular velocity utilizing an internal balance, is described. Experimental results are compared with theory, showing good agreement in the case of the coefficient N_r
A good dynamics model is essential and critical for the successful design of navigation and control ...
The study of the motion of perfect fluids is of paramount importance for the understanding of the ch...
Static force and moment coefficients were measured in the High Speed Water Tunnel on nonpowered mode...
Equipment developed in this Laboratory permits the determination of eight of the dynamic coefficient...
The forces and moments which act on a submerged body undergoing unsteady motion can be described in ...
Report number E -73.3, published by this Laboratory in June 1957, (Ref. 1) presents certain dynamic ...
A general method for finding the steady flow velocity relative to a body in plane curvilinear motion...
The results of static force tests on a 2-in. diameter model of Weapon "A" in the High Speed Water Tu...
Water tunnels have been utilized in one form or another to explore fluid mechanics and aerodynamics ...
The pressure distribution over ellipsoids when in translatory motion through a perfect fluid is calc...
Part I gives a general method for finding the steady-flow velocity relative to a body in plane curvi...
International audienceAutonomous Underwater Vehicles (AUVs) are increasingly important tools for mar...
Several types of continuous human movements comply with the so-called Two-Thirds Power Law (2/3-PL) ...
The DSTO water tunnel’s balance and rotary support mechanism provides a measurement capability for l...
This paper presents a description of the Hydrodynamics Laboratory and its principal pieces of equip...
A good dynamics model is essential and critical for the successful design of navigation and control ...
The study of the motion of perfect fluids is of paramount importance for the understanding of the ch...
Static force and moment coefficients were measured in the High Speed Water Tunnel on nonpowered mode...
Equipment developed in this Laboratory permits the determination of eight of the dynamic coefficient...
The forces and moments which act on a submerged body undergoing unsteady motion can be described in ...
Report number E -73.3, published by this Laboratory in June 1957, (Ref. 1) presents certain dynamic ...
A general method for finding the steady flow velocity relative to a body in plane curvilinear motion...
The results of static force tests on a 2-in. diameter model of Weapon "A" in the High Speed Water Tu...
Water tunnels have been utilized in one form or another to explore fluid mechanics and aerodynamics ...
The pressure distribution over ellipsoids when in translatory motion through a perfect fluid is calc...
Part I gives a general method for finding the steady-flow velocity relative to a body in plane curvi...
International audienceAutonomous Underwater Vehicles (AUVs) are increasingly important tools for mar...
Several types of continuous human movements comply with the so-called Two-Thirds Power Law (2/3-PL) ...
The DSTO water tunnel’s balance and rotary support mechanism provides a measurement capability for l...
This paper presents a description of the Hydrodynamics Laboratory and its principal pieces of equip...
A good dynamics model is essential and critical for the successful design of navigation and control ...
The study of the motion of perfect fluids is of paramount importance for the understanding of the ch...
Static force and moment coefficients were measured in the High Speed Water Tunnel on nonpowered mode...