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Modeling an Acoustic Trap: Thermoacoustic Streaming and Particle Tracing
Acoustic traps are used in a range of biomedical applications for manipulating cells and particles. See how an acoustic trap can be simulated in COMSOL Multiphysics® here.
Designing ESD-Safe Electronic Components
In the design of electronic components, electrostatic discharge (ESD) can be modeled to provide insight into how to prevent damage. Learn about the capabilities in COMSOL® for modeling ESD in this blog post.
Treating Time as a Space Dimension
In this blog post, explore a particularly important approach to solving the time-periodic steady state of a system that can be described by a set of algebraic equations.
Using Differential Inductance and Coils in COMSOL Multiphysics®
Differential inductances are useful for building simplified lumped models. Explore 4 examples of how to extract differential inductance in COMSOL Multiphysics® here.
Modeling the Differential Quenching of a Katana
In this in-depth blog post, you’ll learn how to build a model of a katana using the COMSOL Multiphysics® software and simulate a differential hardening process to explore some of its features.
Opening the Path to Commercial Fusion Energy with Simulation
CFS has showcased the potential of high-temperature superconductor magnets and high-field tokamaks for fusion machines. Explore how they are using modeling and simulation in their work.
Modeling the Official Euro 2024 Match Ball
Explore the complex design of the official match ball for the Euro 2024 tournament. Then, learn about how it compares to the match ball from the 2018 FIFA World Cup®.
Simulating Thermal Propagation in a Battery Pack
When batteries overheat, there’s more at stake than just losing the pack. By modeling thermal runaway, you can prevent problems before they arise.