|
Term
|
Definition
|
|---|---|
|
Degrees of Freedom (DOF)
|
The potential motion of a mechanism model. Connections act as constraints on the motion of rigid bodies relative to each other, thus reducing the mechanism's total possible degrees of freedom. Every unconstrained rigid body has six degrees of freedom, three translational and three rotational.
|
|
Dragging
|
Using the mouse to grab and manually simulate a mechanism's movement.
|
|
Dynamics
|
The study of a mechanism's motion in response to applied forces, taking into account rigid body mass and inertia.
|
|
Force Motor
|
A force applied to a rotational or translational motion axis to cause motion.
|
|
Gear Pair
|
A velocity constraint applied between two motion axes.
|
|
Ground
|
A rigid body in a mechanism that does not move. Other rigid bodies move with respect to the ground body.
|
|
Kinematics
|
The study of a mechanism's position relative to time.
|
|
LCS (Local Coordinate System)
|
A coordinate system specific to a rigid body. The LCS is the default coordinate system associated with the first part you define in a rigid body.
|
|
Placement Constraint
|
An entity in an assembly that places a component and that limits the movement of the component in the assembly.
|
|
Playback
|
The ability to record and replay the motion of an analysis run.
|
|
Predefined Connection Set
|
Defines which placement constraints are used to place a component in the model and restricts the motion of rigid bodies relative to each other, thus reducing the assembly's total possible degrees of freedom (DOF). Also defines the kind of motion a component can have within the mechanism.
|
|
Rigid Body
|
The basic component of a mechanism model. A rigid body is a group of parts that are rigidly controlled, with no degrees of freedom within the group.
|
|
Servo Motor
|
A servo motor defines how a rigid body moves relative to another rigid body. You can place a servo motor on motion axes or on geometric entities, and you can specify the position, velocity, or acceleration motion between rigid bodies. The motion caused by a servo motor will be honored when analyzing the model no matter what actual forces may be required to cause that motion.
|
|
UCS (User Coordinate System)
|
A coordinate system chosen by the user to act as a frame of reference for the direction of the position, acceleration, or velocity vector.
|
|
WCS (World Coordinate System)
|
A fixed (global) coordinate system that defines the geometric properties of all the components and rigid bodies in an assembly.
|