oscilloscope
A New Publication Based on The Virtual Oscilloscope Simulation
The paper: Using a web-based and stand-alone oscilloscope for physics experiment during Covid-19 pandemic, Mahizah Ismail et al (2023), Phys. Educ. 58 015006, is based on the Virtual Oscilloscope simulation. This paper was authored by Mahizah Ismail, Farid Minawi, Wan Zul Adli Wan Mokhtar, Noraihan L Abdul Rashid and Ahmad K Ariffin.
The article DOI: https://iopscience.iop.org/article/10.1088/1361-6552/ac95eb
Simulation Manual: Virtual Oscilloscope
A complete manual for the phase difference between sound waves simulation, including a short introduction and a user guide.
Simulation Manual: Phase Difference Between Sound Waves
A complete manual for the phase difference between sound waves simulation, including a short introduction and a user guide.
Phase Difference Between Sound Waves Simulation
With this rich simulation, you can visualize and measure the phase difference between two sound waves using two microphones connected to an oscilloscope. Moreover, you can determine the speed of sound in air by measuring the distance between the two microphones when their waveforms are in phase, taking into account the frequency of the sound wave that is controlled by the sine wave generator.
Virtual Oscilloscope is Now Mobile-Friendly!
This time I have updated Virtual Oscilloscope so it is now mobile-friendly. Long-press any button, knob, or slider and it will scale up to become comfortable enough for your touch so you can control it comfortably using your mobile device.
I also optimized the code to perform smoothly on mobile devices.
Updates to Virtual Oscilloscope
I updated the graphical user interface for easier interaction and better filling in the browser, and most importantly, I made several bug fixes to the code.
