actually yes if you have a thicker magnet then it seems to be stronger because it has more magnetic energy.
In reality no. Though the size of a magnet does seem to affect the size of a magnetic field, it is in effect a ratio of volume, and does not change the effect of the magnetic field. The potential magnetism is not affected by size so much as composition of the magnet.
the north and south poles
This shows the field lines around a disk magnet where the North pole is at the top. This shows the magnetic field strength around the disk magnet. Again, it is strongest in the corners, not in the center of the poles! The magnetic field is weakest in the middle of its poles!
Decreasing the number of coils reduces the strength of the magnet.
factors on which magnetic field a bar magnet depends :- 1. pole strength of the magnet 2. medium in which the bar magnet is present(since the permittivity changes) factors on which external magnetic field(B) of a current carrying coil depends:- 1. the amount of current flowing through the conductor 2. the perpendicular distance of the point from the conductor. 3. medium in which the conductor is present(since the permittivity changes)
higher the temperature, lower is the magnetic strength..
strength, the number of lines represents how strong the magnet is, this is also sometimes shown by the thickness of the lines.
Yes, the temperature of a magnet does effect its strength. Both freezing, and hot temperatures take away from a magnets magnetic force. Room temperature ( about 50-80) is the temperature that magnets are the Best
A magnetic pole is where the magnetic effect is greatest.
A magnetic pole is where the magnetic effect is greatest.
A magnetic pole is where the magnetic effect is greatest.
A magnetic pole is where the magnetic effect is greatest.
Heat, because it affects magnetic molecules, causes a drop in magnetic field strength. Cooling a magnet has the opposite effect: reducing the resistance in the molecules and increasing the net field strength.
Of course that has a great effect since as the magnet strength increase the number of magnetic flux lines increase increasing the induced electromotive force but motion of magnet is needed.
The strength of the magnet and its proximity effect the current produced. The magnetic flux density falls quickly so it is important to get close. The stronger the magnet the more lines of flux that pass a point as it moves. Or as something passes by it.
It depends on the strength of the magnet.
If the size of a magnet is changed, it can affect the overall strength of the magnetic field it produces. Generally, a larger magnet will have a stronger magnetic field, while a smaller magnet will have a weaker magnetic field. However, other factors such as the magnet's composition and shape can also influence the strength of the magnetic field.