Distance |
Real |
Quantity: Length Unit: m Restricted Range: 0 to +Inf |
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Modelica.Magnetic.FluxTubes.Shapes.Leakage Leakage flux between the end planes of a inner solid cylinder and a coaxial outer hollow cylinder |
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Modelica.Magnetic.QuasiStatic.FluxTubes.Shapes.Leakage Leakage flux between the end planes of a inner solid cylinder and a coaxial outer hollow cylinder |
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Modelica.Mechanics.MultiBody World coordinate system + gravity field + default animation definition |
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Modelica.Mechanics.MultiBody.Forces Linear translational spring with optional mass |
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Modelica.Mechanics.MultiBody.Forces Linear (velocity dependent) damper |
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Modelica.Mechanics.MultiBody.Forces Linear spring and linear damper in parallel |
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Modelica.Mechanics.MultiBody.Forces Linear spring and linear damper in series connection |
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Modelica.Mechanics.MultiBody.Interfaces Base model for line force elements |
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Modelica.Mechanics.MultiBody.Joints Prismatic joint (1 translational degree-of-freedom, 2 potential states, optional axis flange) |
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Modelica.Mechanics.MultiBody.Joints Revolute joint (1 rotational degree-of-freedom, 2 potential states, optional axis flange) |
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Modelica.Mechanics.MultiBody.Joints Revolute joint that is described by 2 positional constraints for usage in a planar loop (the ambiguous cut-force perpendicular to the loop and the ambiguous cut-torques are set arbitrarily to zero) |
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Modelica.Mechanics.MultiBody.Joints Cylindrical joint (2 degrees-of-freedom, 4 potential states) |
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Modelica.Mechanics.MultiBody.Joints Universal joint (2 degrees-of-freedom, 4 potential states) |
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Modelica.Mechanics.MultiBody.Joints Planar joint (3 degrees-of-freedom, 6 potential states) |
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Modelica.Mechanics.MultiBody.Joints Spherical joint (3 constraints and no potential states, or 3 degrees-of-freedom and 3 states) |
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Modelica.Mechanics.MultiBody.Joints Universal - spherical joint aggregation (1 constraint, no potential states) |
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Modelica.Mechanics.MultiBody.Joints Joint (no mass, no inertia) that describes an ideal rolling wheel set (two ideal rolling wheels connected together by an axis) |
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Modelica.Mechanics.MultiBody.Joints.Assemblies Universal - prismatic - spherical joint aggregation (no constraints, no potential states) |
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Modelica.Mechanics.MultiBody.Joints.Assemblies Universal - spherical - revolute joint aggregation (no constraints, no potential states) |
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Modelica.Mechanics.MultiBody.Joints.Assemblies Universal - spherical - prismatic joint aggregation (no constraints, no potential states) |
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Modelica.Mechanics.MultiBody.Joints.Assemblies Spherical - spherical - revolute joint aggregation with mass (no constraints, no potential states) |
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Modelica.Mechanics.MultiBody.Joints.Assemblies Spherical - spherical - prismatic joint aggregation with mass (no constraints, no potential states) |
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Modelica.Mechanics.MultiBody.Joints.Assemblies Planar revolute - revolute - revolute joint aggregation (no constraints, no potential states) |
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Modelica.Mechanics.MultiBody.Joints.Assemblies Planar revolute - revolute - prismatic joint aggregation (no constraints, no potential states) |
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Modelica.Mechanics.MultiBody.Joints.Constraints Prismatic cut-joint and translational directions may be constrained or released |
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Modelica.Mechanics.MultiBody.Joints.Constraints Revolute cut-joint and translational directions may be constrained or released |
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Modelica.Mechanics.MultiBody.Joints.Constraints Spherical cut joint and translational directions may be constrained or released |
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Modelica.Mechanics.MultiBody.Joints.Constraints Universal cut-joint and translational directions may be constrained or released |
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Modelica.Mechanics.MultiBody.Joints.Internal Revolute joint where the rotation angle is computed from a length constraint (1 degree-of-freedom, no potential state) |
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Modelica.Mechanics.MultiBody.Joints.Internal Prismatic joint where the translational distance is computed from a length constraint (1 degree-of-freedom, no potential state) |
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Modelica.Mechanics.MultiBody.Parts Frame fixed in the world frame at a given position |
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Modelica.Mechanics.MultiBody.Parts Fixed translation of frame_b with respect to frame_a |
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Modelica.Mechanics.MultiBody.Parts Fixed translation followed by a fixed rotation of frame_b with respect to frame_a |
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Modelica.Mechanics.MultiBody.Parts Rigid body with mass, inertia tensor, different shapes for animation, and two frame connectors (12 potential states) |
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Modelica.Mechanics.MultiBody.Parts Rigid body with box shape. Mass and animation properties are computed from box data and density (12 potential states) |
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Modelica.Mechanics.MultiBody.Parts Rigid body with cylinder shape. Mass and animation properties are computed from cylinder data and density (12 potential states) |
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Modelica.Mechanics.MultiBody.Parts 1D inertia attachable on 3-dim. bodies (3D dynamic effects are taken into account if world.driveTrainMechanics3D=true) |
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Modelica.Mechanics.MultiBody.Parts.Rotor1D 1D inertia attachable on 3-dim. bodies (3D dynamic effects are taken into account) |
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Modelica.Mechanics.MultiBody.Parts Ideal rolling wheel on flat surface z=0 (5 positional, 3 velocity degrees of freedom) |
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Modelica.Mechanics.MultiBody.Parts Ideal rolling wheel set consisting of two ideal rolling wheels connected together by an axis |
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Modelica.Mechanics.MultiBody.Visualizers Visualizing an elementary shape with dynamically varying shape attributes (has one frame connector) |
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Modelica.Mechanics.MultiBody.Visualizers Visualizing an elementary shape with dynamically varying shape attributes (has two frame connectors) |
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Modelica.Mechanics.MultiBody.Visualizers Visualizing a coordinate system including axes labels (visualization data may vary dynamically) |
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Modelica.Mechanics.MultiBody.Visualizers Visualizing a planar rectangular surface |
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Modelica.Mechanics.MultiBody.Visualizers.Internal Visualizing a set of lines as cylinders (e.g., used to display characters) |
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Modelica.Mechanics.Rotational.Components Simple 1-dim. model of an ideal rolling wheel without inertia |
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Modelica.Mechanics.Translational.Components Linear 1D translational spring |
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PartialCompliantWithRelativeStates Modelica.Mechanics.Translational.Interfaces Base model for the compliant connection of two translational 1-dim. shaft flanges where the relative position and relative velocities are used as states |