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| - | <td width="150">''Sample Results (All oscilloscope results taken at Attenuation | + | <td width="150">''Sample Results (All oscilloscope results taken at Signal Attenuation ratio of 10:1)''</td> |
<td width="698"><br>[[Media:Resistor Time Series.pdf|Resistor Time Series]]<br> | <td width="698"><br>[[Media:Resistor Time Series.pdf|Resistor Time Series]]<br> | ||
[[Media:Diode Time Series.pdf|Diode Time Series]]<br> | [[Media:Diode Time Series.pdf|Diode Time Series]]<br> | ||
Revision as of 12:32, 25 March 2015
Click here to go back to List of Experiments (Lab-II)
Chaos and Non-Linear Physics (2.5)
| Student's Manual | In this experiment we explore the rich notion of nonlinear dynamics and its manifestation in the form of 'chaos'. A simple RL-diode circuit is employed to study this important concept of both mathematical and physical significance. |
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| LabView Code | LabVIEW Data Acquisition File | |
| Sample Results (All oscilloscope results taken at Signal Attenuation ratio of 10:1) | Resistor Time Series Diode Time Series | |
| Further Readings and References | "Transition to Chaos in a Simple Nonlinear Circuit Driven by a Sinosoidal Voltage Source", A. Azzouz, R. Duhr and M. Hasler. IEEE Trans. Circuits Syst., CAS-30 (12), 1983. “Tools for Detecting Chaos" A.B. Ozer, E. Akin. SA Fen Bilimleri Enstits Dergisi 9. Cilt, 1. Say 2005. |
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