No, magnetic field lines around a current-carrying wire form concentric circles perpendicular to the wire. The direction of these circles is determined by the right-hand rule.
No, magnetic fields do not extend out infinitely. They have a limited range of influence, determined by the strength of the magnetic source and the medium through which the field is propagating. Beyond a certain distance, the effects of the magnetic field become negligible.
The extent of a magnetic field depends on the strength of the magnet producing the field. In general, the magnetic field of a permanent magnet extends a few times the physical size of the magnet. For electromagnets or large magnets, the field can extend several meters.
A magnetic field is made up of imaginary lines of force that extend from a magnet or current-carrying conductor. These lines of force help to describe the direction and strength of the magnetic field.
The region around a magnet or current-carrying conductor within which the magnetic force is exerted is called the magnetic field. Magnetic fields are three-dimensional and extend infinitely in all directions from the magnetic source.
A bar magnet interacts with its surroundings by creating a magnetic field around itself. This magnetic field is represented by invisible lines that extend from the magnet's north pole to its south pole. These field lines show the direction and strength of the magnetic force exerted by the magnet.
Electric motor and loud speakers are the two devices that uses current carrying conductor and magnetic field.
No, magnetic fields do not extend out infinitely. They have a limited range of influence, determined by the strength of the magnetic source and the medium through which the field is propagating. Beyond a certain distance, the effects of the magnetic field become negligible.
They extend between the North and South MagneticPoles.
The extent of a magnetic field depends on the strength of the magnet producing the field. In general, the magnetic field of a permanent magnet extends a few times the physical size of the magnet. For electromagnets or large magnets, the field can extend several meters.
A magnetic field is made up of imaginary lines of force that extend from a magnet or current-carrying conductor. These lines of force help to describe the direction and strength of the magnetic field.
The region around a magnet or current-carrying conductor within which the magnetic force is exerted is called the magnetic field. Magnetic fields are three-dimensional and extend infinitely in all directions from the magnetic source.
A bar magnet interacts with its surroundings by creating a magnetic field around itself. This magnetic field is represented by invisible lines that extend from the magnet's north pole to its south pole. These field lines show the direction and strength of the magnetic force exerted by the magnet.
The fringing effect refers to the deviation of the magnetic field lines near the edges of a magnet or magnetic material. As the magnetic field lines extend beyond the edges, they tend to converge or diverge, resulting in uneven distribution and strength of the magnetic field in the fringing region. This effect is particularly important in applications where precise control and uniformity of the magnetic field are required.
A Magnetic Force
Magnetic freild
No, magnetic field lines close together indicate a stronger magnetic field, while magnetic field lines farther apart indicate a weaker magnetic field. The density of field lines represents the strength of the magnetic field in that region.
The relationship between magnetic field strength and distance in a magnetic field is inversely proportional. This means that as the distance from the source of the magnetic field increases, the strength of the magnetic field decreases.