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CTU4WP@ELAB/index

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#Calculus for the WP@ELAB training 
 
 
* [The presentation](Presentation/main.pdf) ([source](Presentation/))
* [Resources](rsrcs/)


## Examples

### Free fall

* Spreadsheets
    * [1D free fall example (basic version)](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_FreeFall_Basic/)
    * [1D free fall example (version with named parameters)](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_FreeFall_NamedCells/)
* Processing ([see processing.org](https://processing.org/), [try it](https://editor.p5js.org/))
    * [1D free fall](https://editor.p5js.org/vojtech.svob/sketches/p_VGqDX5)
* Python @ JupyterNotebook ([see jupyter.org](https://jupyter.org/))
    * [1D free fall](http://buon.fjfi.cvut.cz/raws/CTU4WP@ELAB/examples/PythonJupyterNotebook/1D_Freefall_Num/model.html)
    
    
### Pendulum
* Spreadsheets
    * [1D pendulum (basic version)](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_Pendulum_Basic/)
    * [1D pendulum with friction](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_Pendulum_Friction/)
    * [Pendulum (basic version)](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_Pendulum_Basic/)
    * [Pendulum with friction](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_Pendulum_Friction/)
    * [Pendulum with friction - phase space](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_Pendulum_Friction_PhaseSpace/)
    * [Pendulum - energy conservation analysis](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_Pendulum_EnergyConservation/)
    * [Pendulum - small angle approximation analysis](http://buon.fjfi.cvut.cz:5002/CTU4WP@ELAB/examples/Spreadsheets/1D_Pendulum_SmallAngleApprox/)
* Processing ([see processing.org](https://processing.org/), [try it](https://editor.p5js.org/)) 
    * [1D pendulum (advanced version)](https://editor.p5js.org/vojtech.svob/sketches/g7eW0UY-)


## Relevant info

* Gravitational constants at important places [from Local Acceleration of Gravity@Wolfram](https://www.wolframalpha.com/widgets/view.jsp?id=e856809e0d522d3153e2e7e8ec263bf2) [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).](https://www.acs.psu.edu/drussell/Demos/Pendulum/Pendulum.html)
* [Wikipedia contributors, "Pendulum (mathematics)," Wikipedia, The Free Encyclopedia, https://en.wikipedia.org/w/index.php?title=Pendulum_(mathematics)&oldid=942104313 (accessed March 2, 2020).](https://en.wikipedia.org/w/index.php?title=Pendulum_(mathematics)&oldid=942104313)
* [Local Acceleration of Gravity@Wolfram (accessed March 2, 2020).](https://www.wolframalpha.com/widgets/view.jsp?id=e856809e0d522d3153e2e7e8ec263bf2)



## Authors

* [Vojtech Svoboda (Czech Technical University in Prague)](mailto:vojtech.svoboda@fjfi.cvut.cz )
* [Pavel Kuriscak (Charles University in Prague)](mailto:pavel.kuriscak@gmail.com)
* [Frantisek Lustig (Charles University in Prague)](mailto:fl@plk.mff.cuni.cz)

<img src="qrcode.png" width=30%>
[http://buon.fjfi.cvut.cz/wp](http://buon.fjfi.cvut.cz/wp) 

<hr>
[Any comments, suggestions, ideas highly appreciated. Thanks in advance](mailto:vojtech.svoboda@fjfi.cvut.cz )