Electro magnetic flux which is in maxwells and gauss.
Beats me. But since there ARE no magnetic lines of force, don't worry about it.
The configuration of all lines of force around a magnet is called a magnetic field. The magnetic field represents the way in which magnetic forces are distributed in the space surrounding a magnet.
The closer the lines of force are together, the stronger the magnetic field it represents.
This statement is incorrect. Magnetic forces are strongest at the poles of a magnet, where the magnetic field lines are most concentrated. The strength of the magnetic force decreases as you move away from the poles towards the center of the magnet.
The direction of the lines tells us whether there is attraction or repulsion, and the spacing of the lines is a measure of the strength of the magnetic field. The more crowded the lines the stronger the field.
Yes, the magnetic forces are strongest at the poles of a magnet because that's where the magnetic field lines are most concentrated. The strength of the magnetic field decreases as you move away from the poles toward the center of the magnet.
When a magnet's magnetic field lines are close together, it indicates a strong magnetic field. The magnetic field strength is higher, leading to more intense interactions with nearby objects and potentially stronger magnetic forces acting between the magnet and other magnetic materials.
Magnetic lines of force are called magnetic field lines.
magnetic forces are used in magnetic poles
the magnet field is the strongest well the summer solstic when the suns gravitational pull is the strongest
Magnetic forces typically decrease as the distance between two magnets increases. Additionally, the strength of the magnetic field diminishes as the temperature of the magnet increases, due to thermal agitation which can disrupt the alignment of magnetic domains. Similarly, increasing the angle between the magnetic field lines and the direction of measurement can also reduce the perceived magnetic force.
They are called the magnetic field lines.