The coil offers some amount of Resistance to the flow of Electric current through the coil. The Resistance of the coil depends on the material used to make the coil and the thickness of the coil wire ( its gauge ) When a current flows through the coil, the voltage drop across the coil and the Power dissipated in the coil both are proportional to the magnitude of current and the coil resistance. Normally the coil is rated to carry certain current and dissipate certain amount of power without causing any damage. If a large magnitude of current flows through the coil beyond its rating , the voltage drop across the coil and the power dissipation in the coil both increase substantially causing over heating of the coil. This can damage the coil and may result in burning of the coil
If the current passing through a coil is too large, it can overheat and potentially damage the insulation around the wire, leading to a short circuit. This can cause the coil to fail and may pose a safety hazard.
If the current passing through the coil is too large, it can cause the coil to overheat and possibly burn out. This can damage the insulation on the wire and affect the coil's performance. It may also lead to a magnetic field that is too strong, affecting the intended function of the coil.
because it becomes more magnetic therfore it the pull on the coil will increase
Transmitting is the process of allowing something to pass through a material, like light or sound passing through a medium. Absorbing is when a material takes in or assimilates energy or substances, preventing them from passing through.
If the current through a coil is too large, it can cause the coil to overheat, potentially damaging the insulation on the wire and leading to a short circuit. This can pose a safety hazard and may also permanently damage the coil, affecting its ability to function properly in the future. It is important to always operate coils within their specified current ratings to avoid these issues.
If the current passing through a coil is too large, it can overheat and potentially damage the insulation around the wire, leading to a short circuit. This can cause the coil to fail and may pose a safety hazard.
If the current passing through the coil is too large, it can cause the coil to overheat and possibly burn out. This can damage the insulation on the wire and affect the coil's performance. It may also lead to a magnetic field that is too strong, affecting the intended function of the coil.
It will get hot.
i think (not sure) their wires are made of insulator.......
they eat the material passing through
large intestine
large intestine
because it becomes more magnetic therfore it the pull on the coil will increase
vacuoles
Yes. According to Einstein's 1911 paper, a light passing near a large mass will bend towards the mass. And it can also be refracted by materials of differing indexes.
Large Magnets, passing through magnetic fields which become electricity.
Aluminum is one metal that is purified on a large scale by electrolysis. It involves passing an electric current through a molten mixture of aluminum oxide and cryolite to extract pure aluminum metal.