PHYS 2200
Fall semester 2023

Julia Programming

Julia is a high-level, high-performance programming language for numerical computing

Why we created Julia

by Jeff Bezanson, Stefan Karpinski, Viral Shah, Alan Edelman

Julia tutorials

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\[ \begin{align} \nabla \times \vec{E} & = -\frac{\partial\vec{B}}{\partial t} \\ \nabla \cdot \vec{D} & = \rho_f \\ \nabla \times \vec{H} & = \vec{J}_f + \frac{\partial\vec{D}}{\partial t}\\ \nabla \cdot \vec{B} & = 0 \end{align} \]

provision should not be cast in doubt and subjected to challenge whenever a related though not utterly inconsistent provision is adopted in the same statute or even in an affiliated statute, the two authors wrote

Resources

  1. Mathematical methods
  2. Numerical computing
  3. Dimensional analysis
  4. Git and Gitlab
  5. Latex
  6. Julia

Course Archives

  1. Math Methods, Spring 2023
  2. Computational Physics, Fall 2021
  3. Numerical Analysis I, Fall 2020
  4. Numerical Analysis II, Spring 2021

Links

  1. UConn AnyWare
  2. Physics GitLab
  3. UConn VPN
  4. UConn software
  5. UConn IT Systems Status

General

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  3. PHYS 2200 in Course Catalog
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