Question

difference between magnetic flux and magnetic flux density​

Answer 1

Both are entirely different in following ways

Magnet A is smaller than magnet B. They both have the same “magnetism”, that is the same amount of total flux. As A has a smaller surface area than B it has a much higher “magnetic strength” or magnetic flux density.

Magnet C and D have different “magnetism” that is they have a different amount of total flux. Magnet D has a much higher magnetic flux, however magnets C and D have the same magnet flux density.

The amount of magnetic flux a magnet displays is a direct result of the material that makes up the magnet. The magnetic flux density is a product of the magnetic flux and the area that this flux is present within.

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Mark branliest

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Answer 2

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In physics, specifically electromagnetism, the magnetic flux through a surface is the surface integral of the normal component of the magnetic field B over that surface. It is usually denoted Φ or ΦB. The SI unit of magnetic flux is the weber, and the CGS unit is the maxwell.

A vector quantity measuring the strength and direction of the magnetic field around a magnet or an electric current. Magnetic flux density is equal to magnetic field strength times the magnetic permeability in the region in which the field exists.