Not successfully. It is designed to work with the higher current so it would blow the breaker on a 10 amp circuit.
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.
No, you will have a voltage drop of 3.6%. You may have flickering lights when something else comes on. Switch to AWG #8 with a 30 amp breaker. <<>> A 8 AWG copper conductor will limit the voltage drop to 2% or less when supplying 30 amps for 120 feet on a 240 volt system. The breaker can remain at 30 amps. The up sizing of the wire is just for over coming the voltage drop over the distance.
The formula you are looking for is Watts = Amps x Volts.
A 15 amp receptacle is protected by a 15 amp breaker. The 15 amp breaker will trip on any current over 15 amps. So if the 20 amp machine draws a full 20 amps, then the answer is no. Due to some operations of machines they will not draw the full nameplate amperage until they reach a certain point in there cycling. The machine may run at the start but when it reaches that point it could trip the breaker. If the machine is not hardwired but plugged in, you could not run a 20 amp machine on a 15 amp receptacle, due to the different pin configurations on the plug cap.
If your sub is 2 ohms and your amp is 2 ohm stable, your done. Your amp will be at 2 ohms because the sub is 2 ohms.
#10
Yes.
To run a monitor speaker or to connect several amps in series to pre-amp your amp.
AMPS = Watts / VoltageOnce you have the Amps figured out, an amp hour is just one amp that's been run for one hour...Or2 amps that's run for 1/2 hourOr4 amsp that's run for 15 minutes...
Anything that does not pull over 50 amps.
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.
No, you will have a voltage drop of 3.6%. You may have flickering lights when something else comes on. Switch to AWG #8 with a 30 amp breaker. <<>> A 8 AWG copper conductor will limit the voltage drop to 2% or less when supplying 30 amps for 120 feet on a 240 volt system. The breaker can remain at 30 amps. The up sizing of the wire is just for over coming the voltage drop over the distance.
Minimal 100. Depends on load draw of home. Can be 200 amps or 400 amps as well.
The formula you are looking for is Watts = Amps x Volts.
15 amp will run 8 outlets unless they are going to be heavily loaded. In that case use 20 amps.
The wire size depends on the amperage, not the voltage. The fact that the welder runs on 440 volts does not affect the wire size! You need to ask this question instead: What size wire do you need for a three phase welder on an eight foot run if the nameplate amps are 45A?
That depends entirely on the current draw of the welder. A small welder will work fine with 30 amp fuses, but make certain that the house wire is at least 10 Ga if you'll be running 30 amps through it. If you're putting 30 amps through any wire smaller than 10 Ga, you run a very high risk of burning your house down. If you aren't completely conversant with electrical codes and applications, you should consult with a qualified electrician or handyman (although some would argue about the handyman) You may THINK that contracting out electrical work is expensive, but having your house burn down is FAR MORE expensive.