**Conventions**

The MotionSolve API statements adhere to the following style conventions.**Accgrav**

Model ElementAccgrav defines the acceleration due to gravity along the global X, Y, and Z directions.**Arc**

Model ElementThe Arc element allows you to generate an Arc graphic defined by a center marker and a reference marker or a radius.**Array**

Model ElementThe Array model statement specifies a list of variables (which are used by other MotionSolve modeling elements) or constants.**Beam**

Model ElementBeam defines a straight, massless beam of uniform cross section acting between two markers,`I`and`J`, that belong to two different parts.**BodyResult**

Results ElementBodyResult is an object that contains all the results associated with single body from a simulation.**Box**

Model ElementThe Box element allows you to generate a rectangular Box graphic. It can be defined from the center or from the corner.**Bushing**

Model ElementBushing defines a linear force and torque acting between two markers, I and J.**Circle**

Model ElementThe Circle element allows you to generate a circle graphic defined by a center marker and a reference marker or a radius.**Contact**

Model ElementContact defines a 3-D contact force between geometries on two rigid bodies.**Coupler**

Model ElementCoupler defines an algebraic relationship between the degrees of freedom of two or three joints. This constraint element may be used to model idealized spur gears, rack and pinion gears, and differentials as simple constraints that relate the displacements in a set of joints.**Curve**

Model ElementCurve defines a parametric curve in 3D space.**Cvcv**

Model ElementCvcv defines higher pair constraint.**Cvsf**

Model ElementCvsf defines a higher pair constraint.**Cylinder**

Model ElementThe Cylinder element allows you to represent a geometric figure with straight parallel sides and a circular cross section.**Dcurve/DeformableCurve**

Model ElementDcurve defines a deformed curve in MotionSolve.**DeformCurve (Graphics)**

Model ElementThe DeformCurve element allows you to represent a curve defined in the model as a DeformableCurve element. The graphic is defined by a number of straight line segments connecting vertices on the curve defined by DeformableCurve reference.**DeformSurface (Graphics)**

Model ElementThe DeformSurface element allows you to represent a deformable surface defined in the model as a DeformSurface element. The graphic is defined by a number of straight line segments connecting vertices on the surface defined by DeformSurface reference.**Diff**

Model ElementDiff defines a single, first order, user-defined differential equation in MotionSolve.**Dsurface/DeformableSurface**

Model ElementDsurface defines a deformable surface in MotionSolve. It is referred to by PTDSF and PTDSFF.**Dv**

Model ElementDv defines a special type of solver state variable. It is used in the evaluation and computation of design sensitivity as a design parameter. Its value is modified during the simulation in case of Design Sensitivity Analysis.**Ellipsoid**

Model ElementThe Ellipsoid element allows you to represent a geometric figure whose plane sections are ellipses or circles.**Equilibrium**

Model ElementEquilibrium defines the solution control parameters for Static and Quasi-static analysis. These parameters control the accuracy the solution and the method to be used for solution.**External**

Model ElementThe External element allows you to represent a geometric figure using an external file. Supported file types are .x_t (Parasolid) or .fem**Field**

Model ElementField defines a force and torque acting between two markers, I and J. The force and torque can only be a function of time and the relative displacement between the I and J markers. The six components (three forces and three moments) are defined in the coordinate system of the J marker.**Flex_Body**

Model ElementFlex_Body defines a flexible body object in MotionSolve. This entity has mass and inertia properties just like a rigid body. In addition, it has flexibility properties that allow it to deform under loads.**FMU**

FMU (Functional Mock-up Unit) is an abstract modeling element that defines a generic modeling element in MotionSolve.**Friction**

Model ElementThe Friction element is used to specify joint friction in a specific joint in your model. Friction is supported only in the following types of joints: revolute, spherical, translational, cylindrical and universal. MotionSolve uses the LuGre (Lundt-Grenoble) model for friction.**Frustrum**

Model ElementThe Frustumelement allows you to represent the portion of a cone that remains after its upper part has been cut off by a plane parallel to its base, or that is intercepted between two such planes.**Gcon**

Model ElementThe GCON element is used to specify a user defined general constraint. Your constraint equations may involve position as well as velocity measures of the system. Although MotionSolve provides a large set of constraints to choose from (see JOINT), there are situations that require non-standard constraints.**Gear**

Model ElementGear defines a gear constraint between two bodies.**Gforce**

Model ElementGforce defines a general force and torque acting between two markers.**GraCurve**

Model ElementThe GraCurve element allows you to represent a curve defined in the model as a Curve element.**Gse**

Model ElementGse is an abstract modeling element that defines a generic dynamic system. The dynamic system is characterized by a vector of inputs*u*, a vector of dynamic states*x*, and a vector of outputs*y*. The state vector*x*is defined through a set of differential equations.**H3dOutput**

Model ElementThe H3dOutput element allows you specify various options for generating an H3dOutput file.**Integrator**

Model ElementIntegrator defines the simulation control parameters for a time-domain-based nonlinear dynamic analysis.**Joint**

Model ElementJoint is used to create an idealized connector between two bodies.**Jprim**

Model ElementJprim is used to remove degrees of freedom between two bodies by specifying conditions in which the relative translational or rotational motion can occur. Jprim differs from JOINT in that the former specifies mathematical constraints, which may not have concrete physical realizations like the latter.**LineMesh**

Model ElementThe LineMesh element connects a number of vertices in space with straight lines. It is similar to the Outline element except it does not require markers. You can pass coordinates to the LineMesh geometry.**Lse**

Model ElementLse is an abstract modeling element that defines a linear dynamic system.**Marker**

Model ElementMarker defines an orthonormal, right-handed coordinate system and reference frame in MotionSolve. A Marker must belong to a part. The body can be any type: rigid, flexible, or point.**Mate**

Model ElementMate is used to specify general mating constraints between geometric primitives. Mate differs from JOINT and JPRIM in that it specifies more general constraints based on distance, tangency, and coincidence relations between mating geometries.**Matrix**

Model ElementMatrix defines a general, real-valued, M x N matrix for use in MotionSolve.**MdlLikeMethod Overview**

**Mforce**

Model ElementMforce defines a distributed force on a flexible body (CMS) in MotionSolve.**Model**

Model ElementModel is the container for all objects of a simulation.**Motion**

Model ElementMotion defines a motion input into the system.**Nforce**

Model ElementNforce defines a force and torque acting between many markers. The force and the torque can only be linear functions of the relative displacement and velocity of the various markers.**Optimizer**

Model ElementOptimizer is an object that contains all the elements required for optimization.**Outline**

Model ElementThe Outline element creates line segments between the specified markers.**ParamCurve**

Model ElementThe ParamCurve element allows you to represent a curve defined in the model as a Curve element. The graphic is defined by a number of straight line segments connecting vertices on the curve defined by Curve reference.**ParamSurface**

Model ElementThe ParamSurface element allows you to represent a surface defined in the model as a Surface element.**Part**

Model ElementPart defines a rigid body object in MotionSolve. This entity has mass and inertia properties.**Pforce**

Model ElementPforce defined in a MotionSolve expression.**Pinput**

Model ElementPinput element defines the inputs to a mechanical system or plant.**Plane**

Model ElementThe Plane element allows you to generate a simple planar graphic.**Point_Mass**

Model ElementThe Point_Mass is an entity that has mass but no inertia properties.**POUTPUT**

Model ElementThe POUTPUT element defines the outputs from a mechanical system or plant.**ProximitySensor**

Model ElementMeasures the closest distance between two bodies.**Ptcv**

Model ElementPtcv defines a higher pair constraint. A fixed point on one body slides on a curve that is fixed on a second body. The point is not allowed to lift off the curve.**Ptdcv**

Model ElementPtdcv defines a constraint of a point to a deformed curve.**Ptdsf**

Model ElementPtdsf defines a constraint of a point to a deformable surface.**Ptdsff**

Model ElementPtdsff defines a force between a point and a deformable surface.**Ptsf**

Model ElementPTSF defines a higher pair constraint. A fixed point on one body slides on a surface that is fixed on a second body. The point is not allowed to lift off the surface.**Request**

Model ElementRequest defines an output request entity in MotionSolve.**RequestResult**

Results ElementRequestResult is an object that contains all the simulation results associated with a single Request.**RV**

Model ElementRv defines a special type of solver state variable. It is used in the evaluation and computation of design sensitivity as a response variable.**RVResult**

Model ElementRVResult is an object that contains all the simulation results associated with a single RV. At each output time,**Sensor**

Model ElementSensor defines an event sensor in the model. Once an event of interest occurs, you can take action to respond to the event.**Sforce**

Model ElementSforce defines a force or torque acting between two Markers.**Sfsf**

Model ElementSfsf defines a higher pair constraint. The constraint consists of a surface on one body rolling and sliding on a surface on a second body. The surfaces are required to have a unique contact point.**SimulationResults**

Results ElementSimulationResults is a container object containing the results from a simulation. A simulation can contain many output time steps.**Spdp**

Model ElementThe Spdp element allows you to generate a spring damper geometry.**Sphere**

Model ElementThe Sphere element creates line segments between the specified markers.**Spline**

Model ElementSplines are piecewise polynomial functions that possess a user controlled degree of smoothness.**SpringDamper**

Model ElementSpringDamper defines a spring damper acting between two markers.**String**

Model ElementString defines a user defined text string in MotionSolve.**Surface**

Model ElementSurface defines a parametric surface element in 3D space.**Tfsiso**

Model ElementTfsiso is an abstract modeling element that defines a linear, time invariant dynamic system in the Laplace domain.**Triamesh**

Model ElementThe Triamesh element allows you to represent a geometric figure using a series of nodes and faces.**Units**

Model ElementUnits defines the units for the model being defined.**Upost**

Model ElementThe UPOST element allows you to generate your own results file.**UserGraphic**

Model ElementThe UserGraphic element allows you to generate your own user defined geometry.**UserMsg**

Model ElementThe UserMsg element allows you to control the output of MotionSolve messages. Any message that MotionSolve prints to standard output goes through the**Variable**

Model ElementVariable defines an algebraic state in MotionSolve.**Vforce**

Model ElementVFORCE defines a general force acting between two markers.**Vtorque**

Model ElementTorque defined in a MotionSolve expression