Electromagnetism set, with multimeter

Função

Intended for the study of physics, laboratory physics experiments on: Physics. Electromagnetism. Oersted's experiment and electromagnetism. Observing the electromagnetic effect around a straight conductor carrying an electric current. Relating the direction of the electric current circulating in a straight conductor to the direction of the magnetic field lines. Magnetic induction inside a loop and a solenoid carrying an electric current. Difference between an ideal loop, a loop, a solenoid, and a coil in electromagnetism. Reviewing magnetic field lines, their properties, and what they tell us about the magnetic field vector. The loop, the electric current it carries, the magnetic field lines, and the induced magnetic field around it. The loop and the right-hand rule that relates the direction of the magnetic field vector inside it to the direction of the electric current it carries. The solenoid, the electric current it carries, the magnetic field lines, and the induced magnetic field around it. Applying the right-hand rule to determine the direction of electric current or the direction of the magnetic induction vector inside the solenoid, knowing the direction of one of them. The relationship between the intensity of the magnetic induction vector and the current intensity, the number of turns, and the length of the solenoid. Faraday's law, Lenz's law, Faraday-Lenz-Neumann law, electromagnetic induction, electromagnetic phenomena. Faraday's law of electromagnetic induction. Recalling magnetic field lines, their properties, and what they tell us about the magnetic field vector. The direction of the induced electric current depends on the direction of the change in the source magnetic flux on the wound conductor wire of the coil. Lenz's law of electromagnetic induction. The right-hand rule, which relates the direction of the electric current in the turns to the direction of the magnetic field induced by it. Faraday-Lenz-Neumann law for electromagnetic induction. Magnetic balance and the force that drives it. The relationship between the direction of the magnetic force acting on a straight conductor and the direction of the current flowing through it. The right-hand rule, which relates the direction of the magnetic force to the direction of the magnetic field and the direction of the electric current. The expression that allows calculating the value of the magnetic force acting on a straight conductor immersed in a magnetic field. The direct current electric motor, an application of the laws of electromagnetism. Observing the interaction between the magnetic field of a permanent magnet and the magnetic field generated by an electric current, etc.