On a 16 amp plug, you can use a maximum of 3680 watts (16 amps x 230 volts) of power. It's important not to exceed this limit to prevent overloading the circuit and causing a fire hazard.
To calculate the watts used by the refrigerator, multiply the amperage by the voltage. Assuming a standard household voltage of 120V, a 4.5 amp refrigerator would use approximately 540 watts (4.5 A * 120 V = 540 W).
No, a 1500-watt power converter is not suitable for a 5 amp freezer. To determine compatibility, use the formula: Watts = Volts x Amps. In this case, 5 amps x 120 volts (standard in the US) equals 600 watts, so a 1500-watt converter would be excessive and potentially dangerous for a 5 amp freezer.
20 Amp * 120 Volts = 2400 Watts 2400 Watt * 80% max use = 1920 Watts planned normal usage for a circuit with a 20 Amp breaker.
Probably about 450 watts. Since the primary use of power in a refrigerator is for a motor the watts it uses are less than the amps that pass through it. <<>> Assuming that the refrigerator uses 120 volts for a supply voltage, then W = A x V. 4.5 x 120 = 540 watts
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.
Watts divided by voltage. Standard crockpot use 1-2 amp.
Use this formula Amps = Watts/Volts.
17000 watts per plug in
To obtain amps from watts a voltage must be given.
im by no means an expert but the answer is yes you just wont get full potential out of the speakers. the amp is pushing 700 watts the speakers are capable of catching 1000 watts.
To calculate the watts used by the refrigerator, multiply the amperage by the voltage. Assuming a standard household voltage of 120V, a 4.5 amp refrigerator would use approximately 540 watts (4.5 A * 120 V = 540 W).
No, it is not safe to use a 15 amp plug on a 20 amp circuit as it can overload the circuit and potentially cause a fire hazard.
Depends on the rms or continuous rating of the amp and at what ohm is the amp stable
No, a 1500-watt power converter is not suitable for a 5 amp freezer. To determine compatibility, use the formula: Watts = Volts x Amps. In this case, 5 amps x 120 volts (standard in the US) equals 600 watts, so a 1500-watt converter would be excessive and potentially dangerous for a 5 amp freezer.
20 Amp * 120 Volts = 2400 Watts 2400 Watt * 80% max use = 1920 Watts planned normal usage for a circuit with a 20 Amp breaker.
You just have to divide the watts by the voltage to find the amps. For example 60 watts on a 120 v system would take ½ amp.
Probably about 450 watts. Since the primary use of power in a refrigerator is for a motor the watts it uses are less than the amps that pass through it. <<>> Assuming that the refrigerator uses 120 volts for a supply voltage, then W = A x V. 4.5 x 120 = 540 watts