Watts = Volts x Amps x Power factor For an AC Unit I am guessing that your PF = .75 so we have 115 x 9.2 x .75 = 793.5 Watts.
In U.S. voltage is usually referred to as 120 nowadays. so if in U.S. substitute 120 where 115 appears below. Power = Amperage times voltage So, in your example, 8.5 times 115 = Watts
The 5 amp fuse has many wattages that it can protect. It depends on the voltage of the circuit that the fuse is protecting. Use the following formula, Watts = Volts x Amps. For example 120 volts x 5 amps = 600 watts, 240 volts x 5 amps = 1200 watts, 480 volts x 5 amps = 2400 watts and 600 volts x 5 amps = 3000 watts.
If you mean 2/0 copper wire it is rated 175 amps. # 2 wire is 115 amps. If you are referring to 2.0 metric it is rated 15 amps.
Just wondering what you mean... Perhaps you meant a 1,000 WATT generator, in which case the answer would probably be "No". That's not enough capacity to run most freezers at start-up. If you actually did mean a 1,000 AMP generator, you would need to specify the voltage and amps or the watts of the generator and current draw of the freezer in question before anyone could answer your question. Since most home chest-type freezers operate on 115 VAC, that would mean that if your 1,000 AMP generator produced 115 volts, it would need to have a capacity of 11,500 watts. That's a pretty big home generator. You'll need to research the start-up requirements of your freezer and both the peak and continuous load capacity of the generator.
Divide the watts by the volts, so 32 / 115 is the answer in amps.
You get watts from volts x amps, so 115 x2.5 = 287.5 watts
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The formula you are looking for is W = Amps x Volts.
Ohms law will tell you watts equals volts times amps: 115 x 5 = 575
To answer this you have to know how many volts will be used. If you know the voltage then you can calculate the current by dividing voltage into wattage. For example; an electric heater rated at 700 watts when plugged into a 115 v outlet will draw 700/115 = 6.08 amps of current.
Watts is found by multiplying the volts by the amps. Normally a supply is provided at a fixed voltage, and the amount of current that is drawn depends on how many watts the equpiment requires.
Watts = Volts x Amps x Power factor For an AC Unit I am guessing that your PF = .75 so we have 115 x 9.2 x .75 = 793.5 Watts.
Watts is determined by multiplying amps (found on tag with serial number or on data plate on compressor) by volts (example 115 volts times 9 amps= 1035 watts)
There really is no fixed answer. Amps are a measure of current, while watts are a measure of work. To get the answer, you need to know either how many volts you are dealing with, or how much resistance; the relationship is W= V*I (where I is the current in amps). That said, for a typical 120 volt household current, the number of watts would be 180.
1 watt = 1 amp * 1 volt So.... In a house: 5 amps * 115 volts = 575 watts In a car: 5 amps * 12 volts = 60 watts
In U.S. voltage is usually referred to as 120 nowadays. so if in U.S. substitute 120 where 115 appears below. Power = Amperage times voltage So, in your example, 8.5 times 115 = Watts