Either sinusoidal, or can always be represented as a sum of sinusoids.
You get building a collapsing eddy currents that alternate in direction. The placing of another wire in this field will cause a current to be generated in the second wire. That is the basis of transformers.
power loss will be more in heating of the wire.powertransit is directly proportional to thesquirof the circumference.
AC waveform is a graph that tells the degree and radiant. On the graph the degrees is graphed in top and the radiant is on bottom.
You don't. Transformers only work with AC voltage. Their input will be an AC waveform, and their output will be an AC waveform. Other electronics are used to convert the stepped down AC waveform from the transformer to DC.
A typical AC waveform is symmetrical about a zero crossing point. You can bias the AC with DC such that the AC waveform is symmetrical about the DC voltage.
after every 6 units of time.
The period for an AC waveform with a frequency of 400Hz is ( \frac{1}{400} = 0.0025 ) seconds or 2.5 milliseconds. Period is the inverse of frequency, so it represents the time taken for one complete cycle of the waveform at that frequency.
Frequency.
AC (alternating current) amplitude refers to the maximum variation of the current or voltage in an AC waveform from zero to its peak value. It represents the strength or intensity of the alternating waveform at any given time. The amplitude of an AC signal is important for determining the power and performance of electrical devices that use AC power.
KCL is Common to both AC and DC. Only the waveform or AC and DC will differ
No , an AC waveform goes to 0 60 times a second ( if its a 60 hz wave form )
wavelength