Scientist behind the relationship between electricity and magnetism?
If the question is do scientists agree there is a relationship, the answer is yes, it has changed civilisation by giving electrical power to most of the human race, the communications industry, computers and medical electronics.
A French scientist named Andre-Marie Ampere studied the relationship between electricity and magnetism.
Michael Faraday discovered the relationship between electricity and magnetism. Wrong it was Hans Christian Oersted. [:
Electromagnestism. The definition of electromagnestism is the relationship between electircity and magnestism!
because they are both aspects of the electromagnetic force.
The difference between magnetism an Electricity is that Electricity can help you see and magnetism does not.
He is a Danish Scientist and was giving a lecture in Copenhagen to try and show there was no connection between electricity and magnetism.
He used an electric current to affect the needle of a compass.
Electromagnetism is defined as the branch of physics that deals with the relationship between electricity and magnetism.
Hans Christian Orsted, Danish scientist, discovered the relationship between magnetism and electricity in 1820. In 1822, Charles Babbage in England proposed his difference engine, a forerunner of the modern computer.
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… Read More
Hans Christian Oersted established the relationship between electricity and magnetism in 1820.
What is the 3 things that oersted discovered about the relationship between electricity and magnetism?
wire , copper rod en magnetic wire
What are 3 devices you see or use everyday that make use of the relationship between electricity and magnetism to operate?
speakers, microphones and electric motors
Electricity is the movement of electrons between atoms. Magnetism only exists around moving electrons.
While preparing for an evening lecture on 21 April 1820,Hans Christian Ørsted developed an experiment that provided relationship between electricity and magnetism. André-Marie Ampère and Michael faraday are also notable figures in the field refering to how they did more research in it.
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.
Magnetism is the property of materials that respond at an atomic or subatomic level to an applied magnetic field. electricity mean flow of charge.
The main reason for both being related is: A flowing current can produce a magnetic field , and an electric current can be induced using magnetic field
Who was the Danish scientist whose discoveries about the relationship between electricity and magnets led to the invention of the generator and the electric motor?
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… Read More
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.
they both have fields
Hans Oersted observed the needle of a compass move when he switched on an electric current nearby. He realized that there was a relation between electricity and magnetism.
Their relationship is the basis of virtually all modern technology from radio, television, satellites, nano-technology, lasers etc. On a more basic level the interplay between magnetic and electric fields is what makes a dynamo work, which power the lights on bicycles or converts steam power (in for example a nuclear power plant) to electricity.
None has been observed.
There is no such thing as a magnetic field without the movement of charges. And the movement of charges is electricity. 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 similar, but they are intertwined in a most intimate way.
There are many similarities between static electricity and magnetism. Some similarities are: 1.Similar repel , opposite attract: The two opposite kinds of electric charge are called positive and negative. Opposite charges attract each other , and similar charges repel each other. A magnet has two opposite poles, referred to as north and south. Opposite magnetic poles attract each other, and similar magnetic poles repel each ,exactly as happens with electric charges. 2. The force with… Read More
That is, basically, the way ALL magnets are created - by moving electric charges. In the case of a permanent magnet, it is mainly the electrons orbiting their atoms that produce this effect. As to the "why", the Special Theory of Relativity provides an answer, but it is fairly complicated. The summary paragraph on Wikipedia (article "Magnetism") says: "As a consequence of Einstein's theory of special relativity, electricity and magnetism are fundamentally interlinked. Both magnetism… Read More
They are opposite "sides" of the electromagnetic force. A moving magnetic field produces electricity and a moving electric field produces magnetism. Should both move alternately they produce electromagnetic radiation.
Hans Christian Oersted
magnetism and electricity... magnetism is a force that pushes and pulls on objects like magnets electric forces push and pull between objects
it can damage relationships and you could loose your life also
Any moving electrical charge - and therefore, also, any electrical current - is surrounded by a magnetic field.As to why this is so, you can either accept it as a fact, or read some advanced scientific papers; I believe the Theory of Relativity explains the relationship between electricity and magnetism, though I don't know the details myself. Einstein's paper, "On the Electrodynamics of Moving Bodies", might be a good place to start.
Magnetism electricity (electromagnetism) was not invented;it was discovered in the year 1820 by a Danish physicist,Hans Christian Oersted.He discovered that a current carrying wire could behave like a magnet.He thus,discovered that there is a corelation between electricity(i.e.,electric currents). Earlier on, people had thought that electricity and magnetism are independent (of each other) phenomenon. Oersted's discovery showed that this is not so and we can use electric currents to produce magnetic effects.
A electromagnet needs electricity to have a magnetic force. A bar magnet doesn't.
Static electricity uses positive and negative charges contained within a non-conductive material to attract or repel another object with off balanced charges. Magnetism uses the polarity of atoms to attract or repel another object that can potentially be a magnet.
The movement of charge carriers (free electrons, in the case of metal conductors) is accompanied by a magnetic field. In other words, an electric current is accompanied by a magnetic field, whose 'shape' can be described as concentric cylinders surrounding the direction in which the current is flowing.
He didn't. Thales, a Greek, found that when amber was rubbed with silk it attracted feathers and other light objects. He had discovered static electricity. The Greek word for amber is �electron', from which we get �electricity' and �electronics'. 1600 - William Gilbert invented the term electricity William Gilbert, scientist and physician to Queen Elizabeth I, invented the term electricity (from the Greek word for amber, elecktra). He was the first person to describe the… Read More
is a extra atoms cause static electricity in a object
There are several relationships between electricity and magnetism; one of them is that a wire (or any conductor, for that matter) moving in a magnetic field will have an electric potential (voltage).
That doesn't require any special device - it is part of the natural interaction between electricity and magnetism. However, devices that make practical use of this include electric motors, and generators.
No-one "invented" electricity. It is a natural force. However many people discovered its nature and laws, and it was Michael Faraday who realised the relationships between electricity and magnetism, hence making possible the generation of electricity, and the electric motor.
i hope that the friction and magnetism has a contact in common and friction is also about newton's third law...evan magnetism studies newton's second law...i hope that friction is all about attraction and repulsion...attraction and repulsion are common in magnets ...so there might be a deep relationship between friction and magnetism..!!