There is no way to answer without knowing the wattage rating of the 9 volt generator. A generator's wattage rating depends on the size of the wire in it, the wattage of the rectifiers if it is a DC generator, and the horse power of the engine or motor that is available to turn the generator.
It is expressed in Volt-Amperes not 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.
In a 1 megawatt (MW) generator, the unit of power is given in terms of megawatts, which represents one million watts. A megavolt-ampere (MVA) is a unit of apparent power equal to one million volt-amperes. Therefore, in a 1 MW generator, the apparent power rating would also be 1 MVA, as the apparent power rating is typically equal to the real power rating in a generator with a power factor of 1.
A 6kVA generator puts out 4.8kW (4800 watts) with a power factor of 0.8 Formula w (watts) x pf (power factor) = VA (volt amps) This generator will be able to draw a load of 20A (amps) 6kVA = 6000VA. Where watts is only a measurement of "real power" used (eg: Heater element) VA is a measurement of total current that will flow through a circut. (eg: capacitor) A capacitor does not use power (kW) but current does flow in a circut where capacitor is connected. kVA ratings would be used to size cables.
110 volts divided by 1,300 watts(1.3 kw) = .09 kw or 900 watts.
770 watts.
You will need a 50 kW generator for a single phase 120/240 volt service.
If your generator is rated at 1000 watts continuous......and you are using 120V.....available amps are 1000/120 =8.3 .
Amps, volts and watts are interrelated, but you need to do a little math. Amps * Volts = Watts
A 5500 watt gas powered generator typically requires a 30 amp breaker for a 240 volt connection. It is recommended to consult the manufacturer's specifications to ensure the correct breaker size for your specific generator model.
amps*volts=watts 40 amps *12 volts= 480watts watts/volts=amps 480watts/110volts=4.36363636amps So you need a 110 volt generator that can produce about 5 amps as a bare minimum. To take into account system heat loses that occur when converting power consider doubling it to be safe. (this is over kill but the advantage is that your generator is not working at full capacity at all times)
Watts = Amps X Volts Grab your calculator!
Volts * Amps = Watts 12 Volt * 2 amp = 24 Watts
Answer Generators usually always go by watts. To figure this all you do is take(volts x Amps) = watts. You know the volts (220) then look on the pump for the amp rating and then multiply them and you will have your watts. Then get a generator that is rated for this amount for continuos operation not peak watts. Hope this helps.
Diesel engines are always rated in watts (or horsepower in North America), never in volt amperes which is the unit of apparent power and does not apply to non-electrical machines.However, if you are referring to a diesel-driven generator, then that generator's rated output is indeed measured in volt amperes. The power delivered, in watts, depends on the power factor of the load -e.g. if the load is purely resistive, then the number of watts will be, to all intents and purposes, numerically equal to the volt amperes. For inductive loads (e.g. a motor), then the watts will always be lower than the volt amperes -how much lower, depends on the load's power factor.
On a 12-volt system 1.6 amps is 12x1.6 watts, 19.2 watts
my aircondition is 13000 btu on 220 volt ac is how many watts