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it does not work
Electric current will be induced in such a way that the flux of the magnetic field will be constant and thereby the induced current will create magnetic field in the same direction. This is what we call Lenz's law(law of conservation of energy).
- The Greenland Current -The Kamchatka Current -The Labrador Current
The polarity of the electromagnet reverses.
If the circuit is closed the electric current will be closed as well.
If you turn off the electric current in the solenoid, the solenoid quits pulling its armature.
When an electric current is reversed in an electromagnet, the magnetic field also reverses.
In that case, the magnetic field caused by the current would also be reversed. As for the wire itself, it would feel a force in the opposite direction, due to the interaction of the magnetic fields.
Yes. DC can pass through. As it passes through then solenoid would act as if a bar magnet.
the wire would be deflected perpendicular to the magnetic field in the opposite direction.
As long as the amperage stays the same, the force in the relay stays the same regardless of direction of the current.
The greater the current in the coil, the stronger the magnetic field will grow. Conversely, lowering the battery voltage decreases the current, weakening the field.
What happens when a transmission control solenoid not working
it does not work
You need to replace the starter solenoid .
The question is poorly phrased and needs a grammatical cleanup. If you mean to ask "what happens to the collector-emitter current of a transistor when the emitter-base junction is reverse biased" then the answer is that the transistor will turn off, and you will only see leakage current.
'Current lags voltage' means that in the AC cycle the voltage peaks and the current peaks a little time (a fraction of a cycle) later. This happens with electrical loads like motors. When the current lags, there is a small period in each half-cycle when the voltage has reversed and the current has not reversed yet. This causes power to flow back into the supply from the load. So there is a loss of average power fed to the load for a given voltage and current. In this situation the power is the voltage times the current times the power factor, and the power factor is the cosine of the angle by which the current lags the voltage (counting 360 degrees as a full cycle).