2 amps
The voltage would be the same even if you installed three washing machines. The amp draw is what will change. An automatic washer uses about 120 volts at about 700 watts, so your washer would draw a little less than six amps. It is recommended that it have a dedicated 20 amp circuit. If you install a dryer then the voltage requirement would be about 240.Rate
Any appliances that draw over 1500 watts should be on a 20 amp circuit.
1 amp
Yes I have one that runs on a 30 amp circuit.
A 'volt ampere' (not 'volt amp'!) is the unit for theapparent power of a load in an a.c. circuit. It is simply the product of the supply voltage and the load current.
The iMac is very energy efficient. A typical iMac will draw around 150-200 watts when in use so you can easily connect 8 iMacs to a 20 amp circuit. This would equate to a 80% draw on the circuit. I would not recommend any more than 8. That is assuming nothing else is on that circuit.
Clipping occurs in the voltage waveform when the input voltage, multiplied by the voltage gain of the op-amp circuit, exceeds the op-amp supply voltage as limited by the output network. The supply voltage and output network, limits the maximum voltage that can be achieved at the output. The op-amp behaves normally within its range of maximum voltage output, and then it is clipped when it reaches the maximum voltage of the circuit.
That depends on the voltage.
If it is then it has a 3 or 5 amp fuse. Some are not.
The voltage would be the same even if you installed three washing machines. The amp draw is what will change. An automatic washer uses about 120 volts at about 700 watts, so your washer would draw a little less than six amps. It is recommended that it have a dedicated 20 amp circuit. If you install a dryer then the voltage requirement would be about 240.Rate
Yes. A twenty amp circuit just means the breaker (fuse) will kick in if you draw more then 20 amps, but its fine to use at less amperage.
Any appliances that draw over 1500 watts should be on a 20 amp circuit.
Divide 25,000 by the supply voltage to get the current.
1 amp
Yes I have one that runs on a 30 amp circuit.
Voltage and Amperage are not directly dependent upon each other. Electricity is like water in the way that it "flows". Voltage is analagous to water pressure (like PSI), whereas amperage is analagous to the amount of water actually flowing (like gallons-per-minute). As voltage increases, amperage typically decreases and vice versa. But the actual amperage of a 110 V circuit depends on the device connected to it and how much current it draws. For instance, a 12 amp vaccuum cleaner is gonna draw 12 amps out of a 110 V circuit, whereas a 60 watt light bulb connected to the same circuit is gonna draw about half an amp (amperage=wattage/voltage, or amperage=60/110).
Watts= voltage times amps. So if you divide Watts by voltage, you will get amps = .33333 or about a 1/3 amp load. This is assuming a 120 volt circuit.