similares.md

Nature index

https://www.natureindex.com/annual-tables/2018/country/physical-sciences

Paises similares: Belarus, Armenia, Estonia, Croacia, Rumania,

Paises en la media global: Polonia, Finlandia, Chile, Dinamarca, Republica Checa

Paises en el decimo superior: Estados Unidos, China, Alemania, UK, Japon.

US. Global Universities

https://www.usnews.com/education/best-global-universities/physics?page=22

Uniandes es #219. Cercanas en el ranking:

• 214 University of Bergen
• 215 Simon Fraser University
• 216 University of Pittsburgh
• 217 University of Sheffield
• 218 University of Oklahoma

Cerca del top 100

• Texas A&M University--College Station
• University of California--Davis
• University of Strasbourg
• Indiana University--Bloomington
• Michigan State University

Top 5

• MIT
• Berkeley
• Harvard
• Stanford
• Caltech.

Mezclando los dos indicadores

Las mejores de los paises cercanos del nature index

• 205 Yerevan Physics Institute
• 292 Polytechnic University of Bucharest.
• 238 Belarusian State University
• 189 University of Split.
• 550 University of Tartu.

Las mejores de los paises intermedios del nature index.

• 106 University of Warsaw
• 132 University of Helsinki
• 224 Pontificia University Católica de Chile
• 67 University of Copenhagen.
• 48 Charles University in Prague

Las mejores de los paises altos del nature index

• 1 MIT.
• 20 Peking University.
• 7 University of Oxford
• 22 University of Munich
• 8 University of Tokyo

Consolidaados de las Universidades anteriores

• 1 MIT.
• 7 University of Oxford
• 8 University of Tokyo
• 20 Peking University.
• 22 University of Munich
• 48 Charles University in Prague
• 67 University of Copenhagen.
• 106 University of Warsaw
• 132 University of Helsinki
• 189 University of Split.
• 219 Universidad de los Andes
• 224 Pontificia University Católica de Chile
• 238 Belarusian State University
• 292 Polytechnic University of Bucharest.

University of Split

• Carrera de 6 semestres (!).
• Programming in the profession I. Primer semestre. 4 ECTS. Programacion Basica en C. https://www.pmfst.unist.hr/wp-content/uploads/predmeti/PMP073.pdf
• Programming in the profession II. Segundo semestre. 5 ECTS. Algoritmos Basicos. https://www.pmfst.unist.hr/wp-content/uploads/predmeti/PMP074.pdf

University of Helsinki

• https://weboodi.helsinki.fi/hy/vl_kehys.jsp?MD5avain=&Kieli=6&Opas=6169&Org=116715050&vl_tila=1&AukAikMaar=1

• 5 creditos. nivel 1. https://courses.helsinki.fi/en/FYS1013/124521563 LEARNING OUTCOMES Linux operating system basic commands Using Emacs Editor Python or Octave programming languages Use of a Latex scaling program, including the use of a complete database source The beginnings of the use of databases in search of scientific information Basics of Practical Document Drawing

• 5 creditos. nivel 2. https://courses.helsinki.fi/en/FYS2085/124522610

LEARNING OUTCOMES After the successful completion of the course you know the most important aspects of Fortran's scientific calculation you can write decent-sized programs in the Fortran language you know how to translate the program into the source language for performance practiced using the Linux programming environment

Munich University

• 6 semestres https://www.physik.uni-muenchen.de/studium/studiengaenge/bsc_physik/index.html
• Solamente 1 curso: https://www.physik.uni-muenchen.de/lehre/vorlesungen/sose_16/m4_numerik/uebungen/index.html

Oxford

• Pregrado de 3 años. Master en 4 años.
• https://www2.physics.ox.ac.uk/study-here/undergraduates/the-courses/3-year-ba-physics
• 2 cursos de cómputo en el primer año.
• No hay programas, solo esto https://www2.physics.ox.ac.uk/study-here/undergraduates/faqs/faq-physics-courses
• How much computing is there? Being able to write a computer program is an important skill for all physicists. In physics, computing is mainly required for the following types of task:

1. Analysis of experimental data
2. Solving numerical problems such as differential equations
3. Controlling scientific instruments and acquiring data from them

We aim to teach you all these skills during your time in Oxford. In the first year we focus on the first two aspects through lectures and lab classes. The third aspect is generally learnt by doing experiments in the teaching labs, where you will experience some data acquisition software during first year practicals. You will spend more time writing your own code for data acquisition and control in the second and third year lab experiments.

Physicists use many different computing packages, and our philosophy is to expose you to a range of different programming environments during your time in Oxford, so that, like professional physicists, you learn to choose which you prefer for different tasks. In the first year we teach you two programming languages, RStudio (which uses an underlying language called R) and Matlab. Your first lab classes will be introductory exercises in both languages. You will carry out about four days of Matlab programming in the first year and there are opportunities to do more programming later in the course.

The Physics Teaching Labs are well-equipped with Windows and Mac computers, which can be remotely accessed. We also have site licenses for specialised software packages, many of which are available for download by students.

Carnegie Mellon

• https://www.cmu.edu/physics/undergrad-program/courses.html
• 2 cursos computacionales. Basico (pero ya con fisica) e intermedio. Hay una curso avanzado electivo.

Generalidades en US

https://scicomp.stackexchange.com/questions/2279/universities-known-for-computational-physics