Hans Christian Oersted
Hans Christian Oersted....
This was Hans Christian Ørsted. April 1820 - Copenhagen. He found that a compass needle could be deflected (it moved) if a current was switched on or off in a nearby conductor. This was the first demonstrated link between electricity and magnetism, later taken up in detail by Michael Faraday. Oersted did not develop his experiment into an electric motor, though it is the basic idea on which all motors work - the interaction of an electric current with a magnet (usually in modern motors an electromagnet of some kind) to produce a force, and thus a movement.
Albert Einstien
forces produce motion, magnetism, acceleration, climate change, and movement
if you mean to have commas between heat, light, magnetism, and electrical charges then there is none. if heat light magnetism is all one thing then you're on your own.
The relationship between electricity and magnetism is intimate. A changing magnetic field induces electrical current in a wire, and is the basis for electrical generation. Also, an electrical current flowing through a wire creates a magnetic field, and is the basis for most motors.In general, a changing magnetic field creates an electrical field, and a changing electrical field creates a magnetic field. In fact, light is exactly this; two fields oscillating at right angles, and inducing one another through space.One of the four fundamental forces in the universe is the electromagnetic force. Not the electric or the magnetic force, but the electromagnetic force. Basically, you can't have electricity without magnetism and vice versa. That may not make electricity and magnetism exactly the same, but they are intertwined in a most intimate way.
Michael Faraday
Hans Christian Oersted established the relationship between electricity and magnetism in 1820.
This relationship was discovered by Karl Georg Ohm.
He used an electric current to affect the needle of a compass.
wire , copper rod en magnetic wire
A French scientist named Andre-Marie Ampere studied the relationship between electricity and magnetism.
A notable series of investigations of the relationship between electricity and magnetism was conducted almost in parallel in England by Michael Faraday and in America by Joseph Henry. Both Faraday and Henry discovered the principle of the dynamo in 1830-31, for example. Although they independently discovered many of the same connections and devices, Faraday's work was to have the greater theoretical impact while Henry's had more immediate practical application.
speakers, microphones and electric motors
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.
Oersted and Faraday discovered the connection between magnetism and electricity, that any time electrical current is flowing there is a magnetic field.
because they are both aspects of the electromagnetic force.
Electric motor