they both produce a magnetic field :)
It produces a magnetic field. Vice versa, when you run a magnet past a wire you generate an electric current. Electricity and magnetism are related. If you have electricity you can generate magnetism, if you have a magnet you can produce electricity.
The two are related because an Electric current produces Magnetic Fields
Magnetism and electromagnetism are related because electromagnetism is a branch of physics that deals with the interaction between electric currents and magnetic fields. When an electric current flows through a conductor, it creates a magnetic field around it, resulting in electromagnetism. This relationship is fundamental in understanding how devices like electric motors and generators work.
Magnetism could be produced due to the flow of electrical current. This was first discovered by Oersted. By changing the magnetic flux linked with a coil electric current could be induced. This was first studied by Michael Faraday. Just due to the orbital motion or spin motion of electron magnetism is produced in tiny form and is known as magnetic dipoles. Such dipoles getting oriented in different form lead to form dia, para and ferro magnetic materials.
The difference between electricity and magnetism is that you must be in the same frame of reference as the electric field to experience electricity, because all that magnetism is, is electricity moving relative to you.Although they are two different forms of energy, you can use magnetism to create electricity and you can use magnetism to create electricity.Electricity is the flow of energy or current through a metallic substance. Magnetism is the attraction of the metallic molecules in a solid or substance.
To prove that electricity and magnetism are related, I would cite Faraday's law of electromagnetic induction, which shows that a changing magnetic field can induce an electric current in a conductor. Additionally, I would reference Ampère's law, which illustrates that electric currents generate magnetic fields. Together, these principles are encapsulated in Maxwell's equations, demonstrating the fundamental interconnection between electric and magnetic phenomena.
Electricity and magnetism are closely related. in 1802, Hans Christian Ørsted observed this by noting that electric current caused magnetism. In 1821, Michael Faraday, noted that electric currents could be induced by magnetic fields. In the 1860's, James Clerk Maxwell, enhanced this with his Electromagnetic Theory, and Maxwell's Equations, which unified the relationship between electricity, magnetism, and light into a common Electromagnetic Field. Several other physicists contributed to this knowledge.
well in simple terms a static electricity is charge, which is a basic quality of matter , in fact it is as basic as mass. Now, a charge in motion is a current or in other words electricity. And magnetism is a result of the motion of charge. so in a way these all three are related.
Magnetism is closely related to electricity and is a fundamental force in physics. The interaction between electric currents and magnetic fields is governed by electromagnetic principles. This relationship is summarized in Maxwell's equations, which describe how electric and magnetic fields are interconnected.
The electric force that makes current flow in a circuit is related to the resistance.
The electric force that makes current flow in a circuit is related to the resistance.
1.Similar repel , opposite attract:The two opposite kinds of electric charge are called positive and negative. Oppositecharges attract each other , and similar charges repel each other.A magnet has two opposite poles, referred to as north and south. Opposite magneticpoles attract each other, and similar magnetic poles repel each ,exactly as happenswith electric charges.2. The force with which magnetic poles attract or repel each other depends on the strength of the poles and the distance between them. This relationship is similar to Coulomb's inverse square law for electric charges , which iselectric charge= (coulomb constant x first charge x second charge)/(distance)23.Electricity produces magnetic effects and magnetism produces electric effects.The relationship between electricity and magnetism is called electromagnetism.