WOLFRAM SYSTEM MODELER
Force |
SystemModel["Modelica.Units.SI.Force"]
Force |
Quantity: "Force" Unit: N |
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Modelica.Mechanics.MultiBody.Examples.Elementary Demonstrate line force with two point masses using a JointUPS and alternatively a LineForceWithTwoMasses component |
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Modelica.Mechanics.Translational.Examples One-dimensional vehicle with driving resistances |
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Modelica.Thermal.FluidHeatFlow.Examples Two cylinder system |
Modelica.Electrical.Analog.Basic Electromotoric force (electric/mechanic transformer) |
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Modelica.Magnetic.FluxTubes.BaseClasses Base class for flux tubes with reluctance force generation; constant permeability |
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Modelica.Mechanics.MultiBody.Forces General line force component with an optional point mass on the connection line |
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Modelica.Mechanics.MultiBody.Forces General line force component with two optional point masses on the connection line |
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Modelica.Mechanics.MultiBody.Forces Linear translational spring with optional mass |
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Modelica.Mechanics.MultiBody.Forces Linear spring and linear damper in parallel |
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Modelica.Mechanics.MultiBody.Forces.Internal Force acting between two frames, defined by 3 input signals |
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Modelica.Mechanics.MultiBody.Interfaces Base model for massless 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 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 Spherical - spherical joint aggregation (1 constraint, no potential states) with an optional point mass in the middle |
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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 (rolling on the plane z=0) |
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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.Internal Prismatic joint where the translational distance is computed from a length constraint (1 degree-of-freedom, no potential state) |
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RollingConstraintVerticalWheel Modelica.Mechanics.MultiBody.Joints.Internal Rolling constraint for wheel that is always perpendicular to x-y plane |
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Modelica.Mechanics.Rotational.Components Brake based on Coulomb friction |
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Modelica.Mechanics.Rotational.Components Clutch based on Coulomb friction |
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Modelica.Mechanics.Rotational.Components Parallel connection of freewheel and clutch |
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Modelica.Mechanics.Translational.Examples.Utilities Linear 1D translational spring and damper in parallel (s and v are not used as states) |
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Modelica.Mechanics.Translational.Components Linear 1D translational spring and damper in parallel |
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Modelica.Mechanics.Translational.Components 1D translational spring damper combination with gap |
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Modelica.Mechanics.Translational.Components Coulomb friction in support |
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Modelica.Mechanics.Translational.Components Brake based on Coulomb friction |
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Modelica.Mechanics.Translational.Components Resistance of a rolling wheel |
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Modelica.Mechanics.Translational.Components Sliding mass with hard stop and Stribeck friction |
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Modelica.Mechanics.Translational.Components.MassWithStopAndFriction Base model of Coulomb friction elements with stop |
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Modelica.Mechanics.Translational.Sources Linear dependency of force versus speed |
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Modelica.Mechanics.Translational.Sources Quadratic dependency of force versus speed |
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Modelica.Mechanics.Translational.Sources Constant force, not dependent on speed |
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Modelica.Mechanics.Translational.Sources Constant force changing sign with speed |
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Modelica.Mechanics.Translational.Sources Constant force, not dependent on speed |
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Modelica.Mechanics.Translational.Sources Simple model of a translational eddy current brake |
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Modelica.Mechanics.Translational.Interfaces Adapter model to utilize conditional support connector |
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Modelica.Mechanics.Translational.Interfaces Compliant connection of two translational 1D flanges |
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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 |
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Modelica.Mechanics.Translational.Interfaces Partial model of a force acting at the flange (accelerates the flange) |
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Modelica.Mechanics.Translational.Interfaces Base model of Coulomb friction elements |
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Modelica.Fluid.Interfaces Base class for a lumped momentum balance |
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Modelica.Fluid.Interfaces Base class for a distributed momentum balance |
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Modelica.Thermal.FluidHeatFlow.Components Simple model of a piston in a cylinder |
Modelica.Units.SI |