Watts of Power are not 'drawn', it just exists, or is generated by electrical interaction in the circuit.
Amperage is 'drawn' by a load.
The equation you're looking for is: P = VI, so P = (10)(120) = 1200 Watts, or 1.2 kW.
If you have a Three-Phase circuit, the eq changes to: P = VI(square root of 3).
1.73 is usually good enough to use as a value for the sqr 3.
The formula you are looking for is W = A x V.
real P= V * I *cos(phase angle between V and I)for purely resistive loads or DC voltages this equals real power P=V*I = 120*5= 600Wattsfor not pure resistive loads you'd have to measure the phase angle between Voltage and Current to get real power.However, at home, the utility company charges for Complex power = V*I.So you'd still pay for V*I.
Power is consumed whenever a load is connected to the distribution supply panel.The load is usually controlled by a switch, contactors for motors or breakers located in the distribution panel. Load on line power is consumed, load off line no power is consumed.
A wattmeter typically has four terminals: two for the voltage connection (potential terminals) and two for the current connection (current terminals). The voltage terminals are connected across the load to measure the voltage, while the current terminals are connected in series with the load to measure the current. This configuration allows the wattmeter to calculate the power consumed by the load.
Energy used up in a circuit by the load is called electrical power. It is typically measured in watts (W) and represents the rate at which electrical energy is consumed or converted into another form of energy, such as heat or light, by the load. The power can be calculated using the formula ( P = VI ), where ( P ) is power, ( V ) is voltage, and ( I ) is current.
nominal 600 watts 610 Watts
Power = Voltage x Current. So it will be 60W of power consumption, in your case.
The formula you are looking for is W = A x V.
real P= V * I *cos(phase angle between V and I)for purely resistive loads or DC voltages this equals real power P=V*I = 120*5= 600Wattsfor not pure resistive loads you'd have to measure the phase angle between Voltage and Current to get real power.However, at home, the utility company charges for Complex power = V*I.So you'd still pay for V*I.
Power is consumed whenever a load is connected to the distribution supply panel.The load is usually controlled by a switch, contactors for motors or breakers located in the distribution panel. Load on line power is consumed, load off line no power is consumed.
The actual energy consumed in load is inductive load
First of all the power consumed is only dependent on the load (eg. any appliance) connected to the source. A load will always draw its rated power. If you have increased your voltage to twice then the current drawn by the device will become half but the power consumed will remain same.the power consumed is given by:P= V*I* cos(fi)here for a given load P(power), cos(fi) are constants.Then if V becomes 2V then current will be I/2.
The power used up by any electrical load is . . .(voltage across the load) x (current through the load) or (voltage across the load)2/(resistance of the load) or (current through the load)2 x (resistance of the load). These are all completely equivalent, and you have your choice of which oneto use, depending on which numbers you know or can measure.
Power (W) = Current (I) X Voltage (V)Therefore a system drawing 150 Amps at 10 VoltsP=150X10P=1500 wattsor 1.5 kWAnswerWithout wishing to be pedantic, power is not 'consumed' by a load such as a starter motor. Power is simply a 'rate', the rate at which the load is consuming energy. You cannot 'consume' a rate, therefore, you cannot 'consume' watts! So your question should be rephrased to ask 'What is the power of a starter motor?', or words to that effect.
The power used up by any electrical load is . . .(voltage across the load) x (current through the load) or (voltage across the load)2/(resistance of the load) or (current through the load)2 x (resistance of the load). These are all completely equivalent, and you have your choice of which oneto use, depending on which numbers you know or can measure.
A wattmeter typically has four terminals: two for the voltage connection (potential terminals) and two for the current connection (current terminals). The voltage terminals are connected across the load to measure the voltage, while the current terminals are connected in series with the load to measure the current. This configuration allows the wattmeter to calculate the power consumed by the load.
Phantom load, also known as standby power or vampire power, refers to the energy consumed by electronic devices when they are turned off but still plugged in. This can account for a significant portion of household energy consumption and can be reduced by unplugging devices or using power strips to completely disconnect them from the power source.