Define "a lot".
The US National Electrical Code considers anything below 100 volts to be "low voltage" and anything above that to be "high voltage" and treats them separately, if that helps. In practice, most "low voltage" applications are primarily for carrying signals and typically operate in the 1-12 volt range and occasionally up to around 50V ("phantom power" for microphones).
Impossible to answer 2 amps could carry a lot of power if the voltage is high, and 7.2 volts could carry a lot of power if the current is high.
You can't convert volts to amperes. Those are quite different units; that would be like converting, say, meters to seconds.
If your device uses 900 Watts at 7.5 Amps, then it requires 120 volts. If you want to use it where the supplied current is 220 volts, then you'll need a transformer - but only if the device can operate on 50 Hz. Most places that use 220 Volts supply it at 50 Hz. If your device says it can operate on 50 Hz you can use a transformer.
That depends on the voltage available. We assume 120 volts. Then amperage equals power divided by voltage. Amp. = 900 watts / 120 volts = 7.5 amps.
Could be a lot if the amount of charge is low as in static electricity.
between 900 and 600 depending on load and capacitance
A: Milli kilo represent a multiplier 900 mv is equivalent to 0.9 volts or 0.0009 kilo volts the value remain the same just the decimal move 3 places
A lot of pain, then death.
Impossible to answer 2 amps could carry a lot of power if the voltage is high, and 7.2 volts could carry a lot of power if the current is high.
You can't convert volts to amperes. Those are quite different units; that would be like converting, say, meters to seconds.
Not necessarily. There are a lot of factors that can keep you from reading 14 volts at the battery, such as corrosion in the cable from the alternator to the battery.
a mall uses a lot of power like a house uses 120 volts and a mall needs ( shops multiply by 120 volts = ?)
If your device uses 900 Watts at 7.5 Amps, then it requires 120 volts. If you want to use it where the supplied current is 220 volts, then you'll need a transformer - but only if the device can operate on 50 Hz. Most places that use 220 Volts supply it at 50 Hz. If your device says it can operate on 50 Hz you can use a transformer.
That depends on the voltage available. We assume 120 volts. Then amperage equals power divided by voltage. Amp. = 900 watts / 120 volts = 7.5 amps.
Rc battery volts start a 8.4 and end at 20.6 volts, yes it is a pretty high voltage but it will make your rc car go a whole lot faster so if I was you I would buy it from hobby partz
Could be a lot if the amount of charge is low as in static electricity.
If the area is 900 and it is square, then each side measure 30 yards. That means the perimeter is 30x4 or 120 yards.