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CTU4WP@ELAB/index
#Calculus for the WP@ELAB training
Examples
1D 0th order ODE problem: Constant force
1D 1st order ODE problem: Friction force (\(v\) dependence)
1D 2nd order ODE problem: Free fall (full dynamics)
- Spreadsheets
- Processing (see processing.org, try it)
- Python @ JupyterNotebook (see jupyter.org)
1D 2nd order ODE problem: Pendulum (full dynamics)
- Spreadsheets
- Processing (see processing.org, try it)
- pendulum (basic version)
- pendulum (“advanced” version)
- pendulum with friction
- two pendulums (wiki/Gravity_of_Earth: sea-level gravity increases from about 9.780 m/s2 at the Equator to about 9.832 m/s2 at the poles)
Simulation and experiment
Prague
Bogota
2D problem: Horizontal Launch
Relevant info
- Gravitational constants at important places from Local Acceleration of Gravity@Wolfram [m/s**2]
- Barcelona 9.799
- Bogota 9.776
- Lisbon 9.814
- Marseille 9.822
- Panama 9.778
- Prague 9.834
- Rio de Janeiro 9.791
- Santiago de Chile 9.806
References
- Daniel A. Russell: Oscillation of a Simple Pendulum (accessed March 2, 2020).
- Wikipedia contributors, “Pendulum (mathematics),” Wikipedia, The Free Encyclopedia, https://en.wikipedia.org/w/index.php?title=Pendulum_(mathematics)&oldid=942104313 (accessed March 2, 2020).
- Local Acceleration of Gravity@Wolfram (accessed March 2, 2020).
Authors
- Vojtech Svoboda (Czech Technical University in Prague)
- Pavel Kuriscak (Charles University in Prague)
- Frantisek Lustig (Charles University in Prague)
Any comments, suggestions, ideas highly appreciated. Thanks in advance. Authors.
