Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines
Previously, we demonstrated an electronic circuit analogue of one of Special Relativity's (SR) phenomena called the Relativistic Aberration of Light (RAL) (European Journal of Physics, 42, 015605, 2021), which describes the change in the angle an observer sees a light source relative to their d...
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Archīum Ateneo
2023
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ph-ateneo-arc.physics-faculty-pubs-11602024-03-20T07:21:45Z Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines Martirez, Samuel Capin, June Venancio, Shayne Bianzon, Perine Rivera, John Gabriel Dingel, Benjamin Bennett, Clint Dominic Previously, we demonstrated an electronic circuit analogue of one of Special Relativity's (SR) phenomena called the Relativistic Aberration of Light (RAL) (European Journal of Physics, 42, 015605, 2021), which describes the change in the angle an observer sees a light source relative to their direction of motion at relativistic speeds. It used typical bulky laboratory equipment such as (i) function generators, (ii) oscilloscopes, and (iii) power supplies together with our all-pass filter (APF)-based electronic circuit analogue to perform experiments. In this paper, we present a novel smartphone-based experimental set-up performing the same experiment, but we replace the bulky and expensive laboratory equipment with a low-cost and compact smartphone system that can function as both function generator and oscilloscope. Our smartphone system consists of (i) an Android 8.0 (Oreo) application and (ii) an ESP32-based external module that may be wired or wirelessly interfaced for oscilloscope and signal generation functions. The setup was able to carry out the experiment, however the sampling rate was only limited to 8.5kHz, but with the added input channel, phase shift calculation was much more consistent, albeit with a slight offset of -15 degrees due to the added buffer circuit between the ESP32 and APF circuit. We hope that through our work, we expand the toolset of physics educators and researchers, particularly those in developing countries, especially with our system's considerations of equipment accessibility, affordability, and simplicity. 2023-01-01T08:00:00Z text application/pdf https://archium.ateneo.edu/physics-faculty-pubs/161 https://archium.ateneo.edu/context/physics-faculty-pubs/article/1160/viewcontent/127231E.pdf Physics Faculty Publications Archīum Ateneo circuit analogues Physics education smartphones special relativity Education Physical Sciences and Mathematics Physics Science and Mathematics Education |
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circuit analogues Physics education smartphones special relativity Education Physical Sciences and Mathematics Physics Science and Mathematics Education Martirez, Samuel Capin, June Venancio, Shayne Bianzon, Perine Rivera, John Gabriel Dingel, Benjamin Bennett, Clint Dominic Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines |
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Previously, we demonstrated an electronic circuit analogue of one of Special Relativity's (SR) phenomena called the Relativistic Aberration of Light (RAL) (European Journal of Physics, 42, 015605, 2021), which describes the change in the angle an observer sees a light source relative to their direction of motion at relativistic speeds. It used typical bulky laboratory equipment such as (i) function generators, (ii) oscilloscopes, and (iii) power supplies together with our all-pass filter (APF)-based electronic circuit analogue to perform experiments. In this paper, we present a novel smartphone-based experimental set-up performing the same experiment, but we replace the bulky and expensive laboratory equipment with a low-cost and compact smartphone system that can function as both function generator and oscilloscope. Our smartphone system consists of (i) an Android 8.0 (Oreo) application and (ii) an ESP32-based external module that may be wired or wirelessly interfaced for oscilloscope and signal generation functions. The setup was able to carry out the experiment, however the sampling rate was only limited to 8.5kHz, but with the added input channel, phase shift calculation was much more consistent, albeit with a slight offset of -15 degrees due to the added buffer circuit between the ESP32 and APF circuit. We hope that through our work, we expand the toolset of physics educators and researchers, particularly those in developing countries, especially with our system's considerations of equipment accessibility, affordability, and simplicity. |
| format |
text |
| author |
Martirez, Samuel Capin, June Venancio, Shayne Bianzon, Perine Rivera, John Gabriel Dingel, Benjamin Bennett, Clint Dominic |
| author_facet |
Martirez, Samuel Capin, June Venancio, Shayne Bianzon, Perine Rivera, John Gabriel Dingel, Benjamin Bennett, Clint Dominic |
| author_sort |
Martirez, Samuel |
| title |
Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines |
| title_short |
Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines |
| title_full |
Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines |
| title_fullStr |
Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines |
| title_full_unstemmed |
Smartphone-Based Approach to Demonstrating Relativistic Aberration of Light Using Electronic Circuit Analogues for Undergraduates in the Philippines |
| title_sort |
smartphone-based approach to demonstrating relativistic aberration of light using electronic circuit analogues for undergraduates in the philippines |
| publisher |
Archīum Ateneo |
| publishDate |
2023 |
| url |
https://archium.ateneo.edu/physics-faculty-pubs/161 https://archium.ateneo.edu/context/physics-faculty-pubs/article/1160/viewcontent/127231E.pdf |
| _version_ |
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