Post-PrintIn this paper is proposed a vectorial equation that relates the absolute pole velocities of three moving rigid bodies with a planar motion of general type. From this equation, it is possible to obtain a relation between the pole velocities of the three mathematical points, related between them by the Aronhold-Kennedy Theorem. The formula allows the calculation of one of the pole velocities from the other two, being known the angular velocities and accelerations of the moving bodies. It is applicable regardless of whether the instantaneous centers (poles) are located on physical points on the linkage or not. Illustrative examples of the application of the formula on representative planar linkages are included. In the final se...
This chapter describes the how the vector of coordinates are defined in the formulation of spatial m...
AbstractThis paper characterizes the dead-center positions of a planar mechanism in terms of implici...
The authors present the Newtonian definitions of absolute and relative motion. The idea is defended ...
International audienceIn this paper is proposed a vectorial equation that relates the absolute pole ...
Post-PrintIn this paper is proposed a vectorial equation that relates the absolute pole velocities o...
This work re-examines some classical results in the kinematics of points in space using modern vecto...
The velocity of a moving point in a general path is the vector quantity, which has both magnitude an...
In this article, one Galilean (or called Isotropic) plane moving relative to two other Galilean plan...
Muller (1978), in the Euclidean plane E-2 introduced the one parameter planar motions and obtained t...
This paper suggests a simple method to determine the global coordinates of the angular velocity and ...
In the literature, velocity coefficients (VCs) and acceleration coefficients (ACs) were substantiall...
AbstractFor an infinitesimal motion of a given planar mechanisms we can consider a relative motion c...
Two motions of motion quality have been developed for planar motion. They are the best motion measu...
In spherical mechanisms (SMs), instantaneous pole axes (IPAs) play the same role as instant centres ...
In single-degree-of-freedom (DOF)mechanisms, velocity coefficients (VCs)and their 1st derivative wit...
This chapter describes the how the vector of coordinates are defined in the formulation of spatial m...
AbstractThis paper characterizes the dead-center positions of a planar mechanism in terms of implici...
The authors present the Newtonian definitions of absolute and relative motion. The idea is defended ...
International audienceIn this paper is proposed a vectorial equation that relates the absolute pole ...
Post-PrintIn this paper is proposed a vectorial equation that relates the absolute pole velocities o...
This work re-examines some classical results in the kinematics of points in space using modern vecto...
The velocity of a moving point in a general path is the vector quantity, which has both magnitude an...
In this article, one Galilean (or called Isotropic) plane moving relative to two other Galilean plan...
Muller (1978), in the Euclidean plane E-2 introduced the one parameter planar motions and obtained t...
This paper suggests a simple method to determine the global coordinates of the angular velocity and ...
In the literature, velocity coefficients (VCs) and acceleration coefficients (ACs) were substantiall...
AbstractFor an infinitesimal motion of a given planar mechanisms we can consider a relative motion c...
Two motions of motion quality have been developed for planar motion. They are the best motion measu...
In spherical mechanisms (SMs), instantaneous pole axes (IPAs) play the same role as instant centres ...
In single-degree-of-freedom (DOF)mechanisms, velocity coefficients (VCs)and their 1st derivative wit...
This chapter describes the how the vector of coordinates are defined in the formulation of spatial m...
AbstractThis paper characterizes the dead-center positions of a planar mechanism in terms of implici...
The authors present the Newtonian definitions of absolute and relative motion. The idea is defended ...