It depends what it is made of. If it has silver, gold, iron, copper, magnesium, nickel, or and other metal that is a conductor in it. It probably can because most magnets have traces of iron and magnesium.
covalent bonds do not conduct electricity covalent bonds do not conduct electricity covalent bonds do not conduct electricity
No, methanol does not conduct electricity. It does not conduct electricity because it is a non-electrolyte molecule. Sugar also is non-electrolyte, therefore it also does not conduct electricity.
Move towards the U magnet so that the poles attach.
The known magnetism in a bar magnet is electromagnetism.
Six. Every bar magnet has 2 poles. If a bar magnet is broken, each resultant piece will be a bar magnet in its own right.
Assuming you mean electrical conductor / insulator, most bar magnets are made of solid metal, either iron, neodymium or an alloy of aluminium nickel and cobalt, so they conduct electricity. There is one type of magnet called a ferrite magnet which does not conduct electricity - they are the type often found in loudspeakers.
no it does not.
Glue?
electric tape
a black rock
what does bar magnet mean
Well, Many things can produce electricity. An easy way to produce electricity is to get a coil and pass a bar magnet through it.
Conductor of electricity is sort of the definition of a magnet. Magnets conduct electrical fields; it is what makes them magnets, in very simple terms.
A magnet will conduct electricity.
A bar magnet is made from magnet materials and has a magnetic field at all times. An electromagnetic is not naturally magnet and only has a magnetic field when electricity is passed through it.
DIFFERENCE: a bar magnet is a permanent magnet where as solenoid is a electromagnet so it acts as a magnet only when electricity is passed through it. SIMILARITIES: they both act as magnets and both have a similar magnetic field.
Diamagnetic substance contains no unpaired electron therefore charge cannot be transferred through moving free electron--there is no free electron. It is however theoretically possible to force the substance to conduct electricity, by setting potential difference extremely high so that bonded electrons are forced to detach from the atoms. At this point, the substance is no longer diamagnetic.