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Lecture
Electrostatic MEMS: Scaling & Actuation
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Related lectures (28)
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Electric Fields and Currents
Explores electric fields, energy storage, charge displacement, DC currents, and historical aspects of electricity.
Electric Charges and Fields
Introduces electrostatics, Coulomb's law, electric fields, and charge behavior in materials.
Ion Crystal and Poisson/Laplace Equations
Explores ion crystals, conductors, and Poisson/Laplace equations in electrostatics, including charge behavior and energy calculations.
Comsol Session: Parallel Plate Capacitor
Covers physical models, project groups, and Comsol setup for a parallel plate capacitor.
Electrostatics in MEMS: Scaling Laws & Applications
Explores scaling laws and applications of electrostatics in MEMS, covering topics like parallel plate capacitors, zipping actuators, and MEMS gyroscopes.
Electrostatics: Charge Separation and Coulomb Force
Introduces charge separation and the Coulomb force in electrostatics.
Electrostatics: Faraday Cage and Surface Charges
Explores charging by induction, Faraday cage, and surface charge forces.
Conductors and Electrostatics
Explains the behavior of conductors in electrostatic fields and the relationship between electric field and charge distribution.
Electrostatics: Basis and Applications
Explores Coulomb's law, electric fields, capacitance, conductors, and dielectrics in electrostatic systems.
Electric Fields and Potentials
Explores electric fields, potentials, point charges, and continuous distributions in electrostatics.
