The neutral wire is open, or has a bad connection.
No, a reverberating circuit does not involve an incoming signal that travels along a chain of neurons and quickly dies out. A reverberating circuit is a circular circuit that returns a signal to its source.
Converging circuit
By providing high insulation.....
A single tuned amplifier basically consists of a tuned circuit (which may consist of an IFT or a parallel tuned LC circuit) connected to the collector of an amplifier circuit (in Common Emitter configuration). The tuned circuit is designed to get a resonant frequency equal to the incoming frequency signal that arrives at the base. The Single Tuned Amplifier gives maximum amplification to that particular incoming frequency which matches the resonant frequency of the tuned circuit and attenuates all other frequencies. Thus it gives sharp selectivity with a high Q-factor.
Work it out for yourself. The equation is: Z = E/I, where Z is the impedance, E is the supply voltage, and I is the load current.
Both are same. Only thing it depends upon the incoming voltage. In series ciruity if one bulb fails, the ciruit continuity breaks . In case of paraleel circuit even if one bulb fails the circuit continuity will not get affected
It depends on the circuit. For example, providing the a.c. voltage is the same as the rated d.c. voltage, it would not harm a lighting circuit.
VLSI
Connect incoming power to the line side of GFCI outlet and plug Jacuzzi into the outlet. Must be on a dedicated circuit. If it has a pump and heater then each one must be on dedicated GFCI protected circuit.
No, disconnecting after providing starting torque to starting winding.
you dont
The circuit feeding the 240volt items needs to be derived from two different "phases" or "hotlegs". If they come from the same "phase" you will not get 240volts, you will get zero volts. Further, if you are taking about a circuit breaker panel, at the point where you are taking the two phases, they are suppossed to be next to each other using a common trip 2 pole breaker.