Frequency is the speed that the generator revolves, not the sizing of the generator.
Watts = Amps x Volts. Amps = Watts/Volts. 10000/120 = 83.3 amps can be used at 120 volts. On a generator that large it is most likely that it also has the capacity to produce 240 volts. 10000/240 = 41.6 amps can be used at 240 volts. What you can connect to the generator will be totals of the amperage of devices that do not go above these amp ratings.
Not in any way that is easy. Just get a step up transformer from 220 to 440 Volts. Your current will be reduced by about 1/2.
Depends on how it was made at the factory. Some are 120 only some are 120/240. The model tag will have the voltage rating on it
The secondary winding's current rating is the rated apparent power of the transformer (expressed in volt amperes) divided by its voltage rating (expressed in volts). This applies to both step down, and step up, transformers.
When the term "double 20 amp circuit" is used, the presumption is that, it is 20 amps at 240 volts. If your generator has the breaker built in then, yes, you have the capacity to run 240 volt devices from your generator.
Small generators are sized in watts. Watts is the product of amps times volts. To properly answer this question a voltage for your 10 amps must be stated. That said small generator outputs are usually 120/240 volts in North America. So 10 amps at 120 volts equal 1200 watts. 10 amps at 240 volts equal 2400 watts. A 3000 watt generator will be amply for your 10 amp load.
I am looking for a generator to produce 3 volts to 6 volts for me and the water route is closed
The equation that you are looking for is I = W/E. Amps = Watts/Volts. The generator has the capacity to supply 25 amps. Of course the load is what governs the amount of amperage drawn. Any load greater than 25 amps will load the generator down and probably trip the generator's breaker.
Yes. 240 volts at 10 amps is 2400 watts. The generator is 2500 watts maximum. If the generator is 2500 peak power it may not run it very long. If the continuous power rating is at least 2400 watts it should be OK.
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)
110 volts
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.