Electromagnetic field. Faraday ⋆ Virtual Laboratories

Virtual Laboratory «Physics»

Electromagnetic field. Faraday

The virtual laboratory is designed for organizing distance education, conducting experiments and laboratory work in the school subject «Physics» in the part of the section «Electromagnetic field».

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The Virtual Laboratory “Electromagnetic Field. Faraday” will immerse you in the study of electrostatics and electrodynamics as covered in the school curriculum.

A set of electrical and electronic components allows you to create even the most complex circuits.
Use electrostatic equipment to generate corona discharge and explore its properties.
Adjust the characteristics of passive and active circuit elements to build the electrical circuit you need for your experiment.
Using the instruments from the “Magnetism” section, study the electromagnetic field created by current flowing through conductors. The behavior of conductors will be processed using a specialized mathematical model, along with the calculation of the circuit itself.

The Virtual Laboratory ``Physics,`` section ``Electromagnetic Field. Faraday`` allows you to:

Create electrical circuits and conduct school laboratory experiments and physics research using various equipment for electrostatics, electromagnetism, and the electromagnetic field.
Mathematically accurately calculate the behavior of electrostatic charges on the surface or within dielectric materials, electric current parameters, and the direction and strength of magnetic field intensity vectors in conductors and electrical components. For this, three-dimensional laboratory equipment and measuring instruments are available without restrictions on the number of objects used simultaneously in the Virtual Laboratory (sandbox concept).
Use equipment from the ``Electrostatics`` and ``Magnetism`` sections, including: an electrophorus machine, disk capacitor, metal rod, magnetic field detector (demonstrating the direction of magnetic field intensity vectors), bar magnet, horseshoe magnet, electrodynamic frame, magnetic needle, coil with a core, electromagnetic stand, electromagnetic solenoid, and electroscope (a demonstration device for indicating the presence of an electric charge in interacting charged objects).
Control circuit elements during the experiment.