2.083 amp
load
It is a the current drawn by the application that is connected to the power source
The mgnetic inrush current is the current drawn by the transformer when power is applied to the primary winding
It will drawn a large amount of current which can destroy the shunt
If your question is, "Can a capacitor bank reduce high loads in electrical systems?" Not really. In an AC system, a capacitor bank can be used to balance the complex power drawn by the load. If done correctly, this can reduce the current being drawn by the load. If done incorrectly, this can increase the current being drawn by the load. Look up "power factor correction" for more details.
P = i*v250w = i * 250vi = 250/120 = 2.08a
load
Load!
It is a the current drawn by the application that is connected to the power source
That does not depend directly on the brightness of the bulb, it depends on the current drawn by the bulb (which depends on the efficiency of the bulb). For example an incandescent bulb will draw much more current than a much brighter CFL bulb or LED bulb. Therefor switching to an brighter LED bulb can make the battery last much longer while switching to a brighter incandescent bulb will make the battery run down quicker.
Toasters and similar appliances use no power unless they are operating. Even if they are plugged into a mains supply, no current will be drawn unless the bread carrier is lowered to its operating position. However, it is good practice to disconnect appliances if they are not going to be used for long periods of time.
The maximum current that can be drawn from a voltage source is dependent on the impedance of that source, the impedance of the connections to the source, and the energy available from that source.
nothing..............
None
The rated current is the maximum current that can be drawn in normal continuous use, without any reduction in the lifetime of the device.
The mgnetic inrush current is the current drawn by the transformer when power is applied to the primary winding
If the terminal voltage decreases when more current is drawn, that is due to the internal resistance of the power supply. Every power supply has a limit to how much current can be drawn. It is limited by the internal resistance and due to ohms law the more current drawn through a resistor, then the more voltage is produced across it. This is in opposition to the terminal voltage and is subtracted from it.