SI UNIT OF FREQUENCY ENERGY FORCE POWER PRESSURE ELECTRICAL CHARGE ELECTRIC CURRENT ELECTRIC POTENTIAL ELECTRIC RESISTANCE CAPACITANCE MAGNETIC FLUX INDUCTANCE MAGNETIC INDUCTION PLEASE DON'T SPAM URGENT
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SI UNIT OF FREQUENCY ENERGY FORCE POWER PRESSURE ELECTRICAL CHARGE ELECTRIC CURRENT ELECTRIC POTENTIAL ELECTRIC RESISTANCE CAPACITANCE MAGNETIC FLUX INDUCTANCE MAGNETIC INDUCTION PLEASE DON'T SPAM URGENT
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Answer:
When a conductor carries a current, a magnetic field surrounding the conductor is produced. The resulting magnetic flux is proportional to the current. If the current changes, the change in magnetic flux is proportional to the time-rate of change in current by a factor called inductance (L). Since nature abhors rapid change, a voltage (electromotive force , EMF) produced in the conductor opposes the change in current, which is also proportional to the change in magnetic flux. Thus, inductors oppose change in current by producing a voltage that,in turn, creates a current to oppose the change in magnetic flux; the voltage is proportional to the change in current.