Understanding Magnetic Flux and Density: Relationship and Comparison

AI Thread Summary
Increasing the current in a solenoid enhances magnetic flux density but does not necessarily increase magnetic flux, which depends on the surface area considered. Magnetic flux represents the total number of magnetic field lines crossing a surface, while magnetic flux density indicates the concentration of these lines per unit area. A rare Earth magnet, being more powerful, will have a higher flux density than a regular magnet of the same size, but its magnetic flux depends on the surface area analyzed. The magnetic flux lines from a stronger magnet can extend further, maintaining a stronger induction at greater distances. Understanding these distinctions clarifies the relationship between magnetic flux and density.
Mr_Bojingles
Messages
78
Reaction score
0
I read somewhere that increasing the current flowing through a solenoid will increase the magnetic flux density but cannot increase the magnetic flux.

From what I gather magnetic flux is the space the magnetic field covers or the range of the magnetic flux lines and flux density is how many flux lines there are within the range of the magnetic field.

If I had a regular permanent magnet and a more powerful rare Earth magnet which was exactly the same size as the regular magnet obviously the Earth magnet would have a greater flux density but would it have a greater magnetic flux? Would its magnetic flux lines reach greater distances than the regular magnet?
 
Physics news on Phys.org
Mr_Bojingles said:
I read somewhere that increasing the current flowing through a solenoid will increase the magnetic flux density but cannot increase the magnetic flux.
Since flux requires a definition of the surface being considered (see below), this is not a complete statement. One example of a more complete statement: the total magnetic flux crossing a plane perpendicular to the solenoid axis and located at the solenoid midpoint is zero. For this geometry the statement is true. It may not hold for other cases.

From what I gather magnetic flux is the space the magnetic field covers or the range of the magnetic flux lines and flux density is how many flux lines there are within the range of the magnetic field.
Not exactly. Magnetic flux density is the number of flux lines, or lines of magnetic force, per unit area. It is denoted by the symbol B, and is also called the magnetic induction, or sometimes, confusingly, magnetic field. Flux, on the other hand, is the total number of lines crossing a given surface, so it is a surface integral of B.

If I had a regular permanent magnet and a more powerful rare Earth magnet which was exactly the same size as the regular magnet obviously the Earth magnet would have a greater flux density but would it have a greater magnetic flux?
I hope this is clearer from the discussion above.
Would its magnetic flux lines reach greater distances than the regular magnet?
Theoretically, the field lines can fill all of space, but with vanishing density so the magnetic induction B approaches zero far away. The stronger magnet will produce a stronger induction at the same distance, or the same induction at a greater distance.
 

Similar threads

I Motional EMF in Faraday disc, co-rotating magnet axial mean flux
Replies
5
Views
162
How does the saturation flux density affect magnetic field strength?
Replies
1
Views
1K
Bar magnet made from smaller opposing bar magnets
Replies
2
Views
1K
I How induction works within a coil (nuances of it)
Replies
6
Views
2K
PPMT, Magnetic Flux Switch, electro-permanent magnet generator
Replies
8
Views
3K
B Experiment issues (electromagnetism)
Replies
42
Views
2K
Magnetic saturation and ferrite magnets
Replies
2
Views
4K
Magnetic field lines and magnetic flux density
Replies
35
Views
4K
Total magnetic flux of a solenoid
Replies
1
Views
3K
Magnetic Flux vs Temperature Relationship in Ferromagnets
Replies
26
Views
9K

Hot Threads

Recent Insights

Back
Top