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In an electromagnet, flipping the direction of electrons changes the magnetic field, which is controlled by the commutator.

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In an electromagnet what is changed by flipping the directions of the electrons which is controlled by the commutator?

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What is changed by flipping the direction of electrons in an electromagnet which is controlled by the commutator?

Flipping the direction of electrons in an electromagnet controlled by the commutator changes the polarity of the magnetic field generated by the electromagnet. This reversal in polarity affects the direction of the force experienced by the electromagnet in relation to other magnetic fields or conductors it interacts with. It is a key mechanism in the operation of electric motors and generators.


In an electromagnet why is changed by flipping the direction of the electrons which is controlled by the commutator?

Changing the direction of the current in the electromagnet by flipping the direction of the electrons through the commutator changes the direction of the magnetic field generated by the electromagnet. This is because the magnetic field produced by a current-carrying wire is directly related to the direction of the current flow. By reversing the current direction, the polarity of the magnetic field is also reversed, which allows for control over the attractive or repulsive forces exerted by the electromagnet.


Is an electromagnet what is changed by flipping the direction of the electrons which is controlled by the commutator?

its easy aks me i will tell u


From where do the moving electrons in an electromagnet come?

The moving electrons in an electromagnet come from the flow of electric current through a wire or coil.

Related Questions

In an electromagnet what is changed by flipping the directions of the electrons which is controlled by the commutator?

its easy aks me i will tell u


What is changed by flipping the direction of electrons in an electromagnet which is controlled by the commutator?

Flipping the direction of electrons in an electromagnet controlled by the commutator changes the polarity of the magnetic field generated by the electromagnet. This reversal in polarity affects the direction of the force experienced by the electromagnet in relation to other magnetic fields or conductors it interacts with. It is a key mechanism in the operation of electric motors and generators.


In an electromagnet why is changed by flipping the direction of the electrons which is controlled by the commutator?

Changing the direction of the current in the electromagnet by flipping the direction of the electrons through the commutator changes the direction of the magnetic field generated by the electromagnet. This is because the magnetic field produced by a current-carrying wire is directly related to the direction of the current flow. By reversing the current direction, the polarity of the magnetic field is also reversed, which allows for control over the attractive or repulsive forces exerted by the electromagnet.


Is an electromagnet what is changed by flipping the direction of the electrons which is controlled by the commutator?

its easy aks me i will tell u


From where do the moving electrons in an electromagnet come?

The moving electrons in an electromagnet come from the flow of electric current through a wire or coil.


Where do moving electrons come from when making an electromagnet?

Moving electrons in an electromagnet come from the flow of electric current through a wire or coil of wire.


what is changed by flipping the direction of the electrons, which is controlled by the commutator?

Changes the poles of the magnet


Where do the moving electrons come from when making an electromagnet?

When making an electromagnet, the moving electrons come from the flow of electric current through a wire or coil of wire.


Controlled transfer of electrons?

Controlled transfer of electrons is?


How is a magnetic field created for an electromagnet?

A magnetic field is created in an electromagnet when an electric current flows through a coil of wire. The moving electrons within the wire generate a magnetic field around the coil, resulting in the electromagnet attracting or repelling other magnetic materials. The strength of the magnetic field can be controlled by adjusting the amount of current flowing through the coil.


Why do electrons behave like magnets?

Electrons behave like magnets because they have a property called "spin" which gives rise to a magnetic moment. When electrons in an atom align their spins in the same direction, they create a magnetic field. This property is essential for many everyday technologies, such as in MRI machines and electronic devices.


Why does the direction of polarization of light compare with the direction of vibration of the electrons that produced it?

The direction of polarization of light is related to the direction of vibration of the electrons that produced it because the oscillation of the electrons creates an oscillating electric field perpendicular to the direction of propagation of light. This electric field determines the orientation of the light wave's vibration, resulting in its polarization direction.