Well when an electric current flows through a conductor a magnetic field is produced. And a changing magnetic flux through a conductor produces a current in the conductor.
Magnets have two poles, North and South, which exert attractive or repulsive forces on each other. They create magnetic fields around them, which can attract or repel other magnets or magnetic materials. Magnets can also interact with electric currents, producing electromagnetism.
Iron, nickel, and cobalt are the three most magnetic materials. A magnetic field, which is produced by moving electric charges, is required for magnetism to occur. Objects like compass needles, refrigerator magnets, and magnetic strips are commonly magnetic due to their physical properties.
The stator of an electric motor contains coils of wire that generate a magnetic field when an electric current passes through them. This magnetic field interacts with the permanent magnets on the rotor, causing them to repel each other and create motion in the motor.
If your cellphone is magnetic, the reasons are most likely the facts that magnetic materials, such as iron, nickel, or cobalt, are used in the manufacture of some of its parts, and that there are electric currents flowing in some places inside it.
It is the electromagnetic force that speaks to the electric and magnetic forces. They (electric force and magnetic force) are one force in the eyes of the physicist. Use the link below for more information.
No, permanent magnets are not produced by electric currents. They are made from materials that are magnetized and retain their magnetic properties without the need for external electric currents.
Yes, magnets can affect electric currents and vice versa. Moving electric charges create magnetic fields, and magnetic fields can induce electric currents in conductors. This relationship is fundamental to electromagnetism and is used in many technologies, such as electric motors and generators.
No, magnets do not absorb electricity. Magnets create a magnetic field that can interact with electric currents, but they do not absorb or store electricity.
Faraday showed that a wire passing through a magnetic field will produce electricity. This is how a generator works. Many windings of wire on an armature spin in a magnetic field. This makes electricity.
That answer is false NOT true.
Electric currents ... especially in coils.
Magnetic fields are created by permanent magnets or electric currents, while electromagnetic fields are created by electric currents. Electromagnetic fields are more complex and can change over time, while magnetic fields are static.
The interaction of magnetic fields and electric currents creates a magnetic force that aligns the atoms in a material, making it magnetic. This alignment allows the material to attract or repel other magnets, which is what makes a magnet work.
Motion of a coil within a magnetic field will induce a current in the coil if it can complete a circuit.
Actually, electric currents and magnets are closely related through electromagnetism. When an electric current flows through a wire, it generates a magnetic field around the wire. Similarly, moving magnets can induce an electric current in a wire. This relationship forms the basis of electromagnetism and is utilized in various technologies like electric motors and generators.
When an electric current flows through a conductor, it creates a magnetic field around it. This magnetic field can exert a force on nearby magnets or other currents. Similarly, a moving magnet can induce an electric current in a conductor, which also creates an interaction between the two. This phenomenon is described by the principles of electromagnetism.
They both produce magnetic fields. So when together they attract.