As detailed in the section Where Do I Access the Documentation and Application Libraries? this information can also be searched from the COMSOL Multiphysics software Help menu.
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The Electrostatics Interface, which simulates electric fields in dielectric materials with a fixed or slowly-varying charge present. Preset Stationary, Stationary Source Sweep, Time Dependent, Frequency Domain, and Small-Signal Analysis study types are available.
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The Electrostatics, Boundary Elements Interface, which simulates electric fields in dielectric materials with a fixed charge present. Preset Stationary and Stationary Source Sweep study types are available.
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The Electric Currents Interface, which simulates the current in a conductive and capacitive material under the influence of an electric field. Preset Stationary, Stationary Source Sweep, Time Dependent, Frequency Domain, and Small-Signal Analysis study types are available.
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The Electric Currents, Single Layer Shell Interface, which simulates the current in a conductive and capacitive shell under the influence of an electric field. Preset Stationary, Time Dependent, Frequency Domain, and Small-Signal Analysis study types are available.
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The Magnetic Fields Interface, which handles problems for magnetic fields with source currents, solving for the magnetic vector potential and, for voltage driven s, the scalar electric potential. Preset Stationary, Time Dependent, Frequency Domain, and Small-Signal Analysis study types are available. This is the recommended primary choice for modeling of magnetic fields involving source currents.
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The Magnetic Field Formulation Interface has the equations, boundary conditions, and currents for modeling magnetic fields, solving for the magnetic field. It is especially suitable for modeling involving nonlinear conductivity effects, for example in superconductors. Preset Stationary, Time Dependent, Frequency Domain, and Small-Signal Analysis study types are available.
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The Magnetic Fields, No Currents Interface, which handles magnetic fields without currents. When no currents are present, the problem is easier to solve using the magnetic scalar potential. Thus it is the primary choice for modeling permanent magnets. Preset Stationary and Time Dependent study types are available.
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The Magnetic Fields, No Currents, Boundary Elements Interface, which handles magnetic fields without currents using the boundary element method. It can be combined with the Magnetic Fields or Magnetic Fields, No Currents interfaces for easy modeling of open boundary conditions. The preset Stationary study type is available.
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The Rotating Machinery, Magnetic Interface combines a Magnetic Fields formulation (magnetic vector potential) and Magnetic Fields, No Currents formulation (magnetic scalar potential) with a selection of predefined frames for prescribed rotation or rotational velocity - most of its features are taken either from the Magnetic Fields or the Magnetic Fields, No Currents interfaces. Preset Stationary and Time Dependent study types are available.
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The Magnetic and Electric Fields Interface computes magnetic field and current distributions when the exciting current is driven by an applied voltage. In most cases, using the Magnetic Fields interface with its dedicated modeling features is the preferred choice over using the Magnetic and Electric Fields interface. Preset Stationary and Frequency Domain study types are available.
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The Heat Transfer Interfaces, The Joule Heating Interface, and Theory for Heat Transfer in the COMSOL Multiphysics Reference Manual.
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