The formula is P = E x I. Power in watts (P) is equal to the product of the voltage (E) and the current (I). The total power used at 6 amps and 120 volts is equal to 720 watts. If the voltage was 240 volts, the total power would be 240 volts times 6 amps, or 1440 watts.
The equation for power is W=IxV (watts equal current times voltage). In this particular problem the power consumptions is 720 watts or 6 x 120 = 720. There are a couple of other ways to get to the same answer it really just depends on the information given.
There is zero horsepower in nine amps. First it has to be stated whether it is a three phase or single phase motor. The equation for HP when amperage is known is, single phase HP = I x E x % eff. x pf./746, for three phase HP = I x E x 1.73 x %eff x pf./746. I = amperage, E = voltage, %eff = motors efficiency factor, and pf = power factor.
A standard motor's efficiency between 5 to 100 HP is .84 to .91.
A standard motor's power factor between 10 to 100 HP is .86 to .92
Depends on the input voltage. Watts equals Amps times Volts. Amps equals watts divided by volts. If you have a 120 volt supply, the current (amps) is roughly 50 amps.
40 amps neighborhood running -plus startup draw +++
Depens on the voltage. Watts = Amps x Volts
that depends on the voltage supplied. P = V x I.
if the voltage is 240V then 240 x 6.5 = 1560 watts.
One horsepower = 746 watts so 1560/ 746 = 2.09 hp
To get watts you need to multiply your amps by the voltage.
Watts = Amps x Volts x Power factor
If we assume PF = 1 for a resistive load then 6 x 120 = 720 Watts
You can't convert that. Ampere is a unit of current; horsepower is a unit of power. For DC, the relationship is:
power (in watts) = current (in amperes) x voltage (in volts).
The answer is 40,000 divided by 415 or 96.38 Amps. Watts is volts times amps.
Amps is a measurement of current. Watts (or kilowatts) is a measure of power. To get the power from the current, you have to know the electrical potential or volts used to produce the current. Amps × Volts = Watts (or Current × Electrical Potential = Power). Incidentally, a kilowatt is 1000 watts, so you'll have to divide your answer by 1000. e.g. if your volts is 40, then 25 amps × 40 volts = 1000 watts. 1000 watts (divided by 1000) is 1kw or kilowatt.
Watts is the amount of power the heater has and amps would be the draw- if it is a 120 volt heater than the amps would be 12.5 amps and it is instantaneous
Around .0007 Watts. Watts=Amps x Volts 0.0007W=0.001A(1mA) x 0.7V
The amperage drawn from batteries is governed by the connected load. The voltage of the batteries can be one of two voltages. in parallel the 8 batteries will give you a voltage of 6 volts. In series the 8 batteries will give you a voltage of 48 volts. The amp/hour capacity of the batteries will give you the amount of current the device can draw over a specific length of time. Equation to fine amperage is I = W/E, Amps = Watts/Volts. Watts = Amps x Volts.
You need the formula: Amps * Volts = Watts But you get to do the math.
72 watts
6 amps
W = A x V. Watts = Amps x Volts. There is not a voltage stated to multiply the 6 amps with so an answer can not be given.
For a resistive load Watts = Volta * Amps. Therefore, you have 1/4 amp or 250 Milliamps (250ma)
The formula you are looking for is I =W/E. Amps = Watts/Volts.
watts = volts * amps--> Amps = watts/ volts therefore; 2000/220= 9.09 amps
9000 watts is zero amps. Amps are the product of amps times volts. Without a voltage stated an answer can not be given. I = W/E, Amps = Watts/Volts.
There are zero watts in 730 amps. Watts is the product of amps times volts. As you can see without a voltage no answer can be given.
Watts = Volts * Amps Therefore: 70 Watts / 13.8 Volts = 5.07 Amps
Amps, volts and watts are interrelated, but you need to do a little math. Amps * Volts = Watts
How many Amps is the fridge pulling? Multiply the Amps by the 120V circuit you're plugging into and you'll get your Watts.