Because the power of a resistive component is directly proportional to the square of the voltage across that component.
Power = Voltage * Current Current = Power/Voltage, = 2,750,000/110,000 = 25 amps.
it is the collector voltage multiplied by the sum of all the currents.
You just need the voltage and the current. Watts = Amps x Volts.
The consumption of a 25 kW transformer is determined by its power rating, which indicates the maximum power it can handle. If the transformer operates at its full capacity, it will consume 25 kW regardless of the input voltage, as long as it is designed to operate at that voltage level. The input voltage of 200V is relevant for determining the current drawn, but the transformer's power consumption remains at 25 kW, assuming it's fully loaded.
A power regulator or a voltage regulator generates a fixed output voltage of a preset magnitude that remains constant regardless of changes to its input voltage or load conditions.
because it does!
The power vs voltage graph shows that power consumption in a circuit is directly proportional to voltage. This means that as voltage increases, power consumption also increases.
Power = Voltage x Current. So it will be 60W of power consumption, in your case.
when lagging Power Factor changes to leading PF, then the voltage across the circuit in which capacitor bank is connected, is increased.
Frequency does not directly affect power. Power is determined by the voltage and current in a circuit, which are influenced by factors such as resistance and reactance. However, in some cases, changes in frequency can impact the impedance of a circuit, affecting the power consumption.
Power = Voltage * Current Current = Power/Voltage, = 2,750,000/110,000 = 25 amps.
it is the collector voltage multiplied by the sum of all the currents.
Only if there's a 'load' across the voltage.
You just need the voltage and the current. Watts = Amps x Volts.
The maximum power consumption of the appliance when operating at 230V 50Hz is determined by multiplying the voltage (230V) by the current (in amperes) that the appliance draws. This calculation will give you the power consumption in watts.
voltage drop is the loss or drop that occured across the element so that voltage gets down and current increases across the element and power loss is like i2r loss and like wastage of power without consuming
simply by measuring the coil voltage, coil current & power factor.