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The magnetic force influences only those charges that are already in motion. It is transmitted by the magnetic field. Both magnetic fields and magnetic forces are more complicated than electric fields and electric forces. The magnetic field does not point along the direction of the source of the field; instead, it points in a perpendicular direction. In addition, the magnetic force acts in a direction that is perpendicular to the direction of the field. In comparison, both the electric force and the electric field point directly toward or away from the charge.
The present discussion will deal with simple situations in which the magnetic field is produced by a current of charge in a wire. Certain materials, such as copper, silver, and aluminum, are conductors that allow charge to flow freely from place to place. If an external influence establishes a current in a conductor, the current generates a magnetic field. For a long straight wire, the magnetic field has a direction that encircles the wire on a plane perpendicular to the wire. The strength of the magnetic field decreases with distance from the wire. The arrows in Figure represent the size and direction of the magnetic field for a current moving in the direction indicated. Figure A shows an end view with the current coming toward the reader, while Figure B provides a three-dimensional view of the magnetic field at one position along the wire.
Magnetic fields and forces | Basic Physics for IIT JAM

Figure 2: Magnetic field of a long wire. (A) An end view, with the current flowing toward the viewer. (B) A three-dimensional view.
In subsequent figures, continuous lines will be used to represent the direction of electric and magnetic fields. These lines emphasize the important fact that electric fields begin on positive charges and end on negative charges, while magnetic fields do not have beginnings or ends and close on themselves. The magnetic field shown in F is unusually simple. Highly complex and useful magnetic fields can be generated by the proper choice of conductors to carry electric currents. Under development are thermonuclear fusion reactors for obtaining energy from the fusion of light nuclei in the form of very hot plasmas of hydrogen isotopes. The plasmas have to be confined by magnetic fields (dubbed “magnetic bottles”) as no material container can withstand such high temperatures. Charged particles are also confined by magnetic fields in nature. Large numbers of charged particles, mostly protons and electrons, are trapped in huge bands around Earth by its magnetic field. These bands are known as the Van Allen radiation belts. Disturbance of Earth’s confining magnetic field produces spectacular displays, the so-called northern lights, in which trapped charged particles are freed and crash through the atmosphere to Earth.

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FAQs on Magnetic fields and forces - Basic Physics for IIT JAM

1. What is a magnetic field?
Ans. A magnetic field is a region in space where a magnetic force can be detected. It is created by moving electric charges or magnetic materials and can influence the behavior of other charged particles or magnetic objects within its vicinity.
2. How are magnetic fields generated?
Ans. Magnetic fields are generated by electric currents flowing through conductors or by the intrinsic magnetic properties of certain materials. When an electric current passes through a wire, it creates a circular magnetic field around it. Similarly, certain materials like iron, nickel, and cobalt have aligned magnetic domains that produce magnetic fields.
3. What are the applications of magnetic fields?
Ans. Magnetic fields have numerous applications in various fields. They are used in electric motors and generators to convert electrical energy into mechanical energy and vice versa. Magnetic fields are also crucial in medical imaging technologies like magnetic resonance imaging (MRI). Additionally, they are utilized in magnetic data storage devices, compasses, and particle accelerators.
4. How do magnetic fields interact with each other?
Ans. Magnetic fields interact with each other based on the principle of superposition. When two magnetic fields are brought close together, they either combine or cancel each other out, depending on their direction and strength. Like magnetic poles repel each other, while opposite poles attract.
5. Can magnetic fields exert forces on non-magnetic objects?
Ans. Yes, magnetic fields can exert forces on non-magnetic objects through a phenomenon called magnetic induction. When a non-magnetic object, such as a conducting wire, moves through a magnetic field, an electric current is induced in the wire. This current then experiences a force due to the magnetic field, resulting in the movement of the object. This principle is utilized in devices like electric generators and transformers.
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