Magnetic, only attracts or repels metals
electric charge can attract or repel nonmetals and metals
Devices such as electric motors, transformers, inductors, and magnetic-based sensors utilize the magnetic effect of current. These devices rely on the interaction between electric current and magnetic fields to operate effectively in various applications.
The motor in an electric fan creates a magnetic field when an electric current passes through the coils of wire within the motor. The interaction between this magnetic field and the permanent magnets in the motor causes the fan blades to rotate and produce airflow.
The interaction between electric charges is called electrostatics.Another answermagnetismNO, that is wrong: magnetism is produced by the common alignment of the orbits of electrons spinning in the outer shells of the atoms of a magnetic material, such as iron and its alloys.
Magnets produce magnetic fields which can interact with electric currents to generate forces or induce currents in the conductive materials like metals. When an electric current flows through a metal conductor, a magnetic field is produced around it. This interaction forms the basis of electromagnetism and is used in various applications such as electric motors and generators.
A magnetic field is a area in which magnetic objects are pushed or pulled. It is caused by the alignment of parts of atoms.A field of force associated with changing electric fields , as when electric charges are in motion. Magnetic fields exert deflective forces on moving electric charges. Most magnets have magnetic fields as a result of the spinning motion of the electrons orbiting the atoms of which they are composed; electromagnets create such fields from electric current moving through coils. Large objects, such as the earth, other planets, and stars, also produce magnetic fields. See Note at magnetism.
An electromagnet uses the interaction of electric and magnetic fields to create a magnetic field when an electric current flows through it. The electric current produces a magnetic field around the wire, and this field interacts with the magnetic field of the material inside the coil, strengthening the overall magnetic field.
A magnetic field is created by moving electric charges, while an electric field is created by stationary electric charges. These fields interact with each other through electromagnetic induction, where a changing magnetic field can induce an electric field and vice versa. This interaction is the basis for many technological applications, such as generators and transformers.
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.
"Electromagnetic" refers to the interaction between electric and magnetic fields. A magnetic field is a region around a magnet where magnetic forces are detected. When an electric current flows through a conductor, it creates a magnetic field around it, resulting in the generation of an electromagnetic field.
When magnetic fields and electric fields interact, they can affect the motion of charged particles. The magnetic field can cause the charged particles to move in a curved path, while the electric field can accelerate or decelerate the particles. This interaction is important in various phenomena, such as the motion of charged particles in a particle accelerator or the behavior of charged particles in a magnetic field.
Magnetic and electric fields can interact with each other through a phenomenon called electromagnetic induction. When a magnetic field changes near an electric field, it can induce an electric current in the nearby conductor. Similarly, a changing electric field can create a magnetic field. This interaction is fundamental to the functioning of devices like transformers and generators.
Electromagnetism is the interaction of electric currents or fields and magnetic fields. It is the magnetic field created when an electric current passes through a wire, and is extremely useful because the magnetic effect stops as soon as the current stops.
The interaction between electric charges and magnets affects the movement of particles in a magnetic field. When charged particles move through a magnetic field, they experience a force that causes them to change direction. This phenomenon, known as the Lorentz force, plays a crucial role in determining the behavior of particles in a magnetic field.
The electric field is a fundamental force that arises from the interaction of charged particles, while the magnetic field is a force that arises from moving charges. In the presence of a changing magnetic field, an electric field is induced, as described by Faraday's law of electromagnetic induction. This relationship demonstrates the interconnection between electric and magnetic fields.
An electric motor and the aurora borealis both involve the interaction of energy and magnetic fields. In an electric motor, electrical energy is converted into mechanical energy through the interaction of magnetic fields. The aurora borealis, on the other hand, is a natural phenomenon where charged particles from the sun interact with the Earth's magnetic field, creating beautiful light displays in the sky.
Electromagnetic waves transmit energy and information through the interaction of electric and magnetic fields.
In an electric motor, electrical energy is converted into mechanical energy. This conversion is achieved by the interaction of the magnetic fields generated by the flow of electric current in the motor's coils, causing the motor to rotate and produce mechanical work.