The amperage is governed by the voltage that is used and the horsepower of the pump motor being used. With out that information the question can not be answered.
The power required to run a basic computer will be 1.35 amps for startup and .7 to .9 amps continuous. The power requirements to run an 17" monitor will be 3.5 amps startup and 1.5 amps continuous.
The Shop-vac 6 has 8.4 amps and has been a popular vaccuum for many years in shops and in homes as well! This particular one got above average reviews and it doesn't use too much power to run efficiently.
In the electrical trade the only time there is a reference to start and running amps is when dealing with motors. The running amps is always lower than the starting amps. A 78 amp electric furnace will take a 100 amp service for it to operate and be within the electrical code guide lines.
What is the Process of Wiring If the device draws 15 amps (I thought Euro plugs were 16 amps or 6 amps, but no matter), you should not attempt to run it on a 10 amp supply. If the device needs less than 10 amps you could change the plug. Do please check that the smaller plug is 10 amps, not 6 amps. If you are trying to run a European device in the USA, the VOLTAGE is different (230 in Europe, 110 in USA) so the device won't run well. Don't even think of using an American device in Europe - there will be a big, expensive bang! (I know, I have seen the result).
First the amperage of the 1500 watt device has to be established. I = W/E. Amps = Watts /Volts = 1500/24 = 62.5 amps. To answer this question the amp/hour rating of the 24 volt battery has to be stated. This is the capacity rating of the battery. Take that rating and divide it by 62.5 amps will give you the amount of hours that the battery will take before it drains and needs to be recharged.
The power required to run a basic computer will be 1.35 amps for startup and .7 to .9 amps continuous. The power requirements to run an 17" monitor will be 3.5 amps startup and 1.5 amps continuous.
Minimal 100. Depends on load draw of home. Can be 200 amps or 400 amps as well.
To answer this question the voltage needs to be known.
Just take the voltage and multiply it by the amps. That should give you a close approximation of the watts used. For instance, 117 volts at 4.5 amps = 5265 watts.
22o voltage
None.
2,4789
The Shop-vac 6 has 8.4 amps and has been a popular vaccuum for many years in shops and in homes as well! This particular one got above average reviews and it doesn't use too much power to run efficiently.
The formula you are looking for is W = I x E, Watts = Amps x Volts.
A 1,000 watt inverter giving 110 volts is rated at 9 amps.
A 1450 watt coffee maker will use around 13 amps at 110 volts.
Batteries are not measured in Amps, but rather as Amps they can emit in an hour. The standard home unit for battery power is AH our Ampere Hour.At 12 volts the amps in your battery are then described in Ampere Hours or Amps per hour.From that we get that if the battery was plugged into a 12v device that drew 225 amps, your battery would run out in 1 hour.Similarly if it was connected to a device requiring 112.5 amps it would take 2 hours to run down.Wikipedia has stated that this is an approximation, that at really high currents (measured in how many Amps you are currently using) the battery life is shorter than expected and that the Ampere hour is generally supposed to consider a 20 hour cycle of discharge(therefore meaning lower amps per hour)This brings the battery back to it's "normal" drainage pattern.@ 12v and 11.25A your battery would take 20 hours to drain.