13 amps should be a dedicated outlet since one outlet has a maximum capacity of 15 amps
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If the supply voltage is 120 volts then the amperage is I = W/E. Amps = Watts/Volts = 1450/120 = 12.08 amps.
Most household microwaves require around 10-12 amps to operate efficiently. It's recommended to use a dedicated circuit with a 15-20 amp breaker to ensure safe and proper functioning of the microwave.
1100 watts or about ten amps then another 3 to 4 amps for turn table light and fan
It won't run a microwave at all. Microwaves require an a.c. supply of 230 V (Europe) or 120 V (N America).
P=UxI so I=P/U so 600/115=5.21 A ignoring losses
Yes, the microwave draws less that the circuits protective rating and will not trip the breaker if used on a 15 amp circuit.
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A typical microwave rated at 1100 watts uses 10 amps of power. This is calculated by dividing the number of watts by the voltage of 110.
Most household microwaves require around 10-12 amps to operate efficiently. It's recommended to use a dedicated circuit with a 15-20 amp breaker to ensure safe and proper functioning of the microwave.
1100 watts or about ten amps then another 3 to 4 amps for turn table light and fan
volts X amps = watts standard 120 X 15 amps =1800watts microwaves generally use about 1000 watts which is 8.33 amps...
It won't run a microwave at all. Microwaves require an a.c. supply of 230 V (Europe) or 120 V (N America).
10 amps
P=UxI so I=P/U so 600/115=5.21 A ignoring losses
Yes, the microwave draws less that the circuits protective rating and will not trip the breaker if used on a 15 amp circuit.
a regular toaster uses about 12.5 amps
amps like.. amplifiers? it depends on how many speakers you have. or amps like.. current draw? again. depends on your power needs, your power amps... ect
You use Ohm's Law to make your calculation. Volts = Amps x Resistance Amps = Volts / Resistance