labview1958 Posted March 24, 2006 Posted March 24, 2006 I have a brand new bar magnet rated as 1.23 Tesla by the manufacturer. However when I measured it with a meter, it gave a reading of 0.61 Tesl. Why?
Templar Posted March 24, 2006 Posted March 24, 2006 I wonder how you measured it. And at what distance is B supposed to be 1.23? 1m? 10 light-years?
labview1958 Posted March 25, 2006 Author Posted March 25, 2006 Let's say the Br of a magnet is 1.23 Tesla. If I put my probe touching the magnet, it reads 0.6 Tesla. is there something wrong? Does it mean Br of 1.23 Tesla is equivalent to 0.6 with a probe?
Meir Achuz Posted March 31, 2006 Posted March 31, 2006 The 1.23 would be the field between two such bar magnets, which equals the B at the center of one bar magnet. B at the end of a bar magnet is one half the B at the center, so you measure one half of 1.23.
labview1958 Posted April 2, 2006 Author Posted April 2, 2006 Does it mean that Br of a magnet is actually the theoritical B in the centre of a magnet? The B on the surface of a magnet is about half of the Br, for all configurations of a magnet? Where can I find the proof?
Meir Achuz Posted April 3, 2006 Posted April 3, 2006 For a bar magnet, the proof is very simple. It also works for a solenoid. Place two bar magnets touching end to end (N facing S). The B at their interface comes equally from each magnet, and so is twice what you would have if one magnet is pulled away.
labview1958 Posted April 3, 2006 Author Posted April 3, 2006 Maybe I am using the Hall probe to measure magnetic force wrongly. Should I put the tip or the long side of the probe on the magnet surface?
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