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Dear Colleague, FEMLAB Multiphysics modeling software is enabling researchers around the globe to gain insight into complex scientific problems. Last year, several of these researchers shared their work at FEMLAB seminars. I would like to offer you an exclusive presentation CD that includes documents and modeling examples in fields such as MEMS, photonics, fuel cells, electromagnetics, microfluidics, civil engineering, biotechnology, and more. If you are interested in receiving this CD free of charge, please register at http://www.comsol.com/usercd/. FEMLAB is a powerful multiphysics modeling package using finite element analysis in 1D, 2D and 3D, and is fully integrated with MATLAB. Feel free to forward this offer to your colleagues and friends. Best regards, Tony Ching COMSOL, Inc. 310-689-7250 P.S. The following case studies can be found on the CD: - Finite Element simulations for capacitive position sensor - Advanced HVAC modeling with FEMLAB/Simulink/MATLAB - Buckling Analysis of Cylindrical Storage Tank - CFD in Process Technology - Computation of Electrokinetic Flow in Microchannel Networks - Controlled local heating of a rotating CD-disc - Distributed Spice simulations with FEMLAB - Everyday use of FEMLAB in Laser Applications - Extracting the Reverse Bias Capacitance of a Diffusion Doped Silicon Diode from a Finite Element Model - FEMLAB applications in Food Engineering - FEMLAB simulation of a respiration-diffusion model for harvested fruit - H2 membrane separation Performance vs. Geometry - Heat Forming and Separation Force of an Intravenous Catheter - Implementation of moving boundaries in FEMLAB - Implicit Neumann Boundary Conditions in Welding Simulations - Modeling photonic crystals with FEMLAB - Modeling of a Cryogenic Micro-calorimeter Array for X-ray Spectroscopy - Modeling of leaching in concrete dams - Modeling of radionuclide migration from a canister for high-level nuclear waste - Modeling the electrical current distribution in the deafened implanted ear - modeling heat transport in calorimeters for radiotherapy dosimetry - modeling of Shearography Experiments (with thermal loading) - modeling of the effects of stray current interference on buried reinforced concrete structures - modeling Particle Bed Electrodes - modeling the wave propagation properties of power cables - Modular Polymer Fuel cell (PEFC) modeling - Multi-Phase Modeling using Level-Set method - Multiphysics Modeling in FEMLAB 3.0 - Optimization of a directly driven, low speed permanent magnet wind generator - Polarization of an Exciton - Simulation of microfluidic components using FEMLAB - Stochastic FE modeling of Fruits with Matlab and FEMLAB - Thermal Design of Buried High Voltage Cables with use of FEMLAB - Weak electric fish *Reply to me directly if you do not want to receive further emails.