Yep, I do think it's pressure.
Do you mean air pressure?
Then explain how pressure causes the observed phenomenon, because I see no way for air pressure to explain it, as already demonstrated repeatedly.
I'd like you lot to tell me how magnets work
And I'm sure we would all like you to stop deflecting, especially with your dishonest requests for explanations when you just ignore or dismiss any that are given to you.
Ok then you can tell me how and why they work
Can you tell us how it works?
Can you tell us how anything works?
Probably not you, no.
So you can only tell those who will accept without thinking about it?
That fact that you don't know how they work, gives you no factual knowledge on the matter, nor against what I say.
There you go with your baseless assumptions again.
I never said I don't know how they work.
But guess what? Even with that, your logic is still completely wrong.
I don't need to know how magnets work to know that your attempt at an explanation cannot work.
I have clearly explained why your explanation cannot work. You need to address that massive problem, or else it stands no chance of ever working.
Again, a key feature of magnets you refuse to address is the polarity.
Magnets have 2 poles, N and S.
Opposite poles attract. Like poles repel.
Easily demonstrate this fact with 3 simple bar magnets.
Note: While I am using N and S to label the magnets, that is just to make the comparisons easier. Hypothetically N1 could be N or S, and likewise, S2 could be N or S.
Label 1 end of the first magnet N1.
Now get magnet 2 and bring it to the first magnet such that it is attracted to it and one of the ends attaches to N1. Label the end attached to N1 as S2.
Now turn magnet 2 around 180 degrees and try to force it to N1, and notice that it repels. Label this end N2.
Now do the same with magnet 3 and label that with S3 and N3.
Now turn magnet 1 around and label its other end as S1.
Now try the interactions of N2, N3, S2 and S3 with S1.
You will find that N2 and N3 are attracted to it and S2 and S3 are repelled.
N2 and S3 must be different, as one was attracted to N1 while the other was repelled by it (and likewise for S1). Bring them together and you find that they are attracted to one another.
The same applies to N3 and S2.
S2 and S3 are most likely alike, as they were both attracted to N1 and both repelled by S1.
Now try bringing S2 and S3 together and observe that they repel.
Likewise, N2 and N3 are most likely alike, as they were both attracted to S1 and both repelled by N1, and like S2 and S3, they repel one another.
This now means we can divide the ends into a N set and a S set.
Each N pole behaves the same, being attracted to any S pole and repelled by any N pole.
Each S pole behaves the same, being attracted to any N pole and repelled by any S pole.
You can even bring in extra magnets and see the same still applies, it has a N end and a S end which behaves just like the others.
This is what you need to explain, and what you cannot explain with air pressure.
If it was simple air pressure pushing things together, there is no reason for them to repel.
If it was a funnel of air, then there should be an attractive side and a repulsive side. Bringing 2 attractive sides together should result in a strong attraction. Bringing 2 repulsive sides together should result in a strong repulsion. Bringing one of each together should result in a force which depends on if the attraction or repulsion is stronger.
This means your explanation does not match reality.
I don't need to have any idea of the explanation of how magnets work to know your explanation doesn't work.
All I need to know is that magnets have 2 poles, and opposites attract while like repels.