## دليل المحاكاة: الشحن بالتحريض

الدليل الكامل لمحاكاة الشحن بالتحريض، يشتمل على مقدمة قصيرة ودليل الاستخدام.

الدليل الكامل لمحاكاة الشحن بالتحريض، يشتمل على مقدمة قصيرة ودليل الاستخدام.

A complete manual for the charging by induction simulation, including a short introduction and a user guide.

دليل كامل لمحاكاة التصادم المرن في بعد واحد، مع شرح رياضي لاشتقاق تعبيرات السرعات النهائية من حيث الكتل والسرعات الابتدائية.

A complete manual for the elastic collision in one dimension simulation, with a mathematical explanation of the derivation of the expressions of the final velocities in terms of the masses and the initial velocities.

The complete guide to the photoelectric effect simulation, including a short introduction and a user guide.

الدليل الكامل لمحاكاة التأثير الكهروضوئي، يشتمل على مقدمة قصيرة ودليل الاستخدام.

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.

Using this simulation, you can demonstrate the conservation laws in a one-dimensional elastic collision (The law of conservation of linear momentum and the law of conservation of kinetic energy).

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.

This is a simple simulation that shows the difference between one-dimensional motion, that can be described by means of one axis, the x-axis, and the two-dimensional motion, that needs an additional axis, the y-axis to be described.