Does liquid oxygen sticks to the poles of magnet?
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Does liquid oxygen sticks to the poles of magnet?
Liquid oxygen sticks to a magnet while liquid nitrogen does not because of differences in electron distribution.
Is liquid oxygen paramagnetic or diamagnetic?
Why is liquid oxygen magnetic? Actually it is not magnetic but paramagnetic. That is that it is attracted by the magnetic field but does not remain magnetic once it leaves the field.
When liquid oxygen is poured between the poles of two magnets it is attracted and sticks to magnet Why?
Liquid oxygen remains suspended between two pole faces of a magnet because it is. Liquid oxygen has a light blue colous and is highly paramagnetic. The atomic magnetic dipoles align with an external magnetic field. This effect occure due to quantum mechanical spin as well as electron orbital angular momentum.
Can a magnet attract oxygen?
As shown in the video, molecular oxygen (O2) is paramagnetic and is attracted to the magnet. In contrast, molecular nitrogen (N2) has no unpaired electrons and is diamagnetic; it is unaffected by the magnet.
Will liquid N2 stick to the poles of an electromagnet?
Liquid oxygen and liquid nitrogen are allowed to flow between the poles of an electromagnet. Liquid O2 will be attracted, but liquid N2 will be unaffected. Liquid O2 will be attracted, but liquid N2 will be repelled.
Why is liquid oxygen so reactive?
Oxygen Exhibits High Reactivity Due to its electronegativity, oxygen forms stable chemical bonds with almost all elements to give the corresponding oxides.
What happens when the north pole of a magnet is brought near a metallic ring?
Explanation: When the north pole of a magnet is brought near a metallic ring, the induced current produced in the ring will be such that it opposes the growth of current in the ring. The direction of the induced current will be anticlockwise.
Do magnets work in liquid nitrogen?
It’s also the temperature at which liquid nitrogen—much more accessible than liquid helium—boils. At normal temperatures, magnetic fields can pass through the material normally. Once it is cold enough to exhibit superconductivity, however, those magnetic fields get expelled.