For one thing, the solution of any PDE using the finite elements method yields a large sparse system of equations. In the nonlinear case the method is iterative so you need to solve a linear system many times. The applications in physics are countless. To name a few:

- Numerical general relativity
- Hydrodynamics
- Magnetohydrodynamics
- Stellar structure and evolution
- Scattering and propagation of electromagnetic radiation

Then you have differential-integral equations such as those coming from computational quantum mechanics (Hartree-Fock, Density Functional), electrostatics and countless other places. These transform to systems of linear equations under most numerical methods

All in all, without additional qualifications the list is simply too long. Equation systems are everywhere!

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