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.
The amps it draws depends on how big it is. Typically 2-12 amps. Check for a manufacturer's plate that shows the wattage Most of the load in a rice cooker is a resistive heating element, so the amperage will be quite close to the wattage divided by the voltage (220 here).
The circuit is designed so that at maximum load current the shunt regulator draws virtually no current and at minimum load current, the shunt voltage regulator passes the full current. As a result, it can be seen that shunt regulators are inefficient because maximum current is drawn from the source regardless of the load current, i.e. even when there is no load current.
1.7amp
source
In a parallel circuit, the total current leaving the source is equal to the sum of the currents flowing through each individual load. This means that the current through each load can vary depending on the resistance of that load, but the total current from the source remains constant. Each load receives the same voltage from the source, which influences the amount of current it draws based on Ohm's Law (I = V/R). As a result, the relationship is defined by the equation: I_total = I_1 + I_2 + I_3 + ..., where I_total is the total current and I_1, I_2, I_3, etc., are the currents through each load.
To calculate the power in watts, you would need to know the current the strobe light draws at 24 volts from its specifications. You can then use the formula P (Watts) = V (Voltage) x I (Current) to determine the power consumption. Without the current rating, it's not possible to provide an exact wattage.
the current doubles.. explanation:V=IR hence I=V/R which means that when the supply voltage is constant ,current is inversely proportional to resistance.thus the current doubles. practically speaking when the resistance of the load(fan ,bulb,refrigerator,....) is less ,it draws more current from the source so as to balance the voltage across it.i.e; to maintain the voltage across it as constant. This answer is absolutely correct if you assume that the current comes from a pure voltage source ( voltage source with zero internal resistance). At the other extreme you could have a current source (such as a very large voltage source in series with a very large resistor), and then the current is practically independent of changes if the external resistance is changed (because the change represents a relatively minute change in the overall resistance). With appropriate circuitry it is possible to devise a situation where the current is practically independent of the changing resistance.
100/220 = .45A or 450 mA
I have no idea
1 horsepower is equal to 0.7456 kWatts, therefore 1.1184 kWatts will be the power consumption of that motor. The current draw depends on the voltage, simply use the P=UxI or I=P/U formulas to figure out the current draw (P=1118.4 Watts). some voltages: 12Vdc draw 93.2Amps 24Vdc draws 46.6Amps 110Vdc draws 10.17Amps 230Vdc draws 4.86Amps
Malcolm X is the power source for the movement of the Sarcomeres. It is from Malcolm X that the movement draws its inspirations and ideals.