As happens with voltage and current, flux is steady for dc but keeps altering for ac.
A transformer works through the ac flux in the magnetic core.
The difference AC and DC grounding is that AC is alternate current and DC is direct current. Grounding for both AC and DC is the same.
There is no difference in the cables. The only difference is the type of electrical power being transmitted. AC or DC applications use the same wires.
Flux is produced in both AC and DC systems, but the nature of the flux differs. In DC circuits, the magnetic flux is constant, as the current flows in one direction. In AC circuits, the magnetic flux changes direction and magnitude periodically, resulting in a time-varying magnetic field. Thus, while both types of current can produce flux, AC generates a dynamic flux due to its oscillating nature.
Converter is AC to DC. Inverter is DC to AC
ac transmits the voltage over long distances. so v use ac in trains
dc flux is caused by dc current (flux and current are proportional), it is a constant value. Put an inductor (or transformer winding) across a battery and you will get dc flux. ac flux is caused by ac current (flux and current are proportional), it is a moving value, the flux moves with the current, typically cyclical but the waveform is arbitrary as long as we're moving.
There is no difference between AC AND DC chockes
The difference AC and DC grounding is that AC is alternate current and DC is direct current. Grounding for both AC and DC is the same.
The difference in the ac/ dc , or polarity of welding rods is in the makeup of the flux coating , or the alloy of the metal, and in the case of SMAW ( Shielded metal arc welding ) rods , which have a flux coating, are usually marked on the base of the rod.
There is no difference in the cables. The only difference is the type of electrical power being transmitted. AC or DC applications use the same wires.
AC rises with respect to time but DC is steady.
Flux is produced in both AC and DC systems, but the nature of the flux differs. In DC circuits, the magnetic flux is constant, as the current flows in one direction. In AC circuits, the magnetic flux changes direction and magnitude periodically, resulting in a time-varying magnetic field. Thus, while both types of current can produce flux, AC generates a dynamic flux due to its oscillating nature.
In DC or direct current, the flux is constant. AC or alternating current is variable.
Transformer works with varying flux. DC won't create it. Only AC produce varying flux.
magneto is dc
dc ammeter has three connecting pins while ac has four
AC power is made by alternating current and DC does not change.