Free fall experiment

ByFarid Minawi 2020-06-202026-01-30

لقراءة النسخة العربية أنقر هنا.

This experiment demonstrates that in the absence of air resistance, two freely falling bodies, when released from the same height, they take the same time interval to reach the ground. This shows that both bodies gain the same amount of speed as they fall (otherwise, one will get ahead of the other and hence reaches the ground first). Since both bodies gain the same amount of speed during the same time, both must have the same acceleration, which is the acceleration of free fall. The reason why we usually see heavy bodies reach the ground before light bodies is that the effect of air resistance on light bodies is more tangible than on heavy bodies.

Farid Minawi

E-Learning Developer • Learning Experience Designer

Physics simulations | Resources | Simulations

Photoelectric Effect Experiment Simulation
ByFarid Minawi 2022-06-052026-01-30

With this comprehensive and realistic-like photoelectric effect experiment simulation, you will be able to illustrate the following:
The variations of the photocurrent versus potential.
The variations of the photocurrent versus light intensity.
The variation of the kinetic energy of the ejected electrons versus the incident light frequency.
It comes with a graph where you can trace each type of variation as you vary the parameters of the experiment.
Plus, you can experiment and discover more with this simulation.

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Lab | Resources

انحفاظ الزخم الخطي
ByFarid Minawi 2022-02-182026-01-30

لو تم إجراء هذه التجربة في ظروف يكون فيها صافي القوى الخارجية صفرًا على المدفع المُحمّل قبل وبعد إطلاق النار مباشرة (على سبيل المثال، عندما يكون وزن المدفع متوازناً مع رد الفعل العمودي للأرض)، فإن حسبنا عندئذٍ حاصل ضرب كتلة القذيفة بسرعتها المتجهة وحاصل ضرب كتلة المدفع بسرعته المتجهة قبل وبعد الإطلاق مباشرة، سنجد أنه قبل إطلاق النار كان كلاهما في حالة سكون، وبالتالي يكون الناتج صفرًا لكليهما، بينما نجد أن الناتجين، بعد إطلاق النار ذوا مقدار متساوٍ، ولكن باتجاهين متعاكسين.

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Educational Games | Physics simulations | Resources | Simulations

Projectile Game
ByFarid Minawi 2023-04-302026-01-30

In this game, you must employ the projectile equations to win.
The game consists of three levels, each of which must be completed by scoring at least 8 out of a possible 10 tries. In the first level, you must hit a ground target that shifts position after each attempt. In the second level, you will need to alter the ball’s trajectory to pass over a wall. In the third level, the target flies and changes position both horizontally and vertically in each trial.

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Physics simulations | Resources | Simulations

Interference of Waves Simulation
ByFarid Minawi 2025-07-192026-01-30

This interactive wave interference simulation demonstrates the fundamental principles of wave superposition using two sources. Users can adjust key parameters including wavelength, amplitude, phase difference, and source separation to observe how waves interact and produce complex interference patterns. The simulation features a real-time probe tool that displays individual wave amplitudes and their resultant superposition, showing constructive and destructive interference at different points in the field. The visual representation includes radiating wave fronts from both sources, with characteristic alternating bands of high and low amplitude clearly visible throughout the interference pattern.

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Physics simulations | Resources | Simulations

Charging by Induction Simulation
ByFarid Minawi 2022-03-302026-01-30

Using this simulation, you can experience the phenomenon of charging a metallic ball by induction in the first stage and charging the ball by contact in the second stage after the charged rod touches the ball. The displayed charges are for an illustrational purpose, and they are not seen in reality. You can disable the display of charges on the rod and on the ball.
In this simulation, you can try two situations, one in which the rod is positively charged and another in which the rod is negatively charged, and you will see that the two situations result in the same observation.

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Physics simulations | Resources | Simulations

Phase Difference Between Sound Waves Simulation
ByFarid Minawi 2022-10-022026-01-30

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.

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