2 amps
2 amps
The maximum amperage it can carry for power transmission is .92 amps.
The maximum amperage that can be applied to a #14 wire is 15 amps. The 600 volts is just an insulation rating. Check the nameplate on the dryer to see what the amperage and voltage the manufacturer recommends. If the nameplate just states a wattage use the following formula to find the amperage. Amps = Watts/ Volts.
The size of the sub panel is dependant on the amount of connected loads and the amperage of these loads, or the total load in amps on how many new circuits that you will require.
The equation that you are looking for is W = I x E. Watts = Amps x Volts.. As you can see if no voltage is given the question can not be answered. Once you supply the voltage and multiply it by the maximum amperage you stated, the results will be maximum wattage. Divide this figure by 8.5 and you will find the maximum number of lamps that you can add to this circuit.
2 amps
volts divided by resistance equals maximum amperage (current)
The maximum amperage draw or load that the device or wire can safely carry.
The maximum amperage it can carry for power transmission is .92 amps.
The engine thermostat controls the flow of coolant to the radiator , it allows the engine to warm up before the thermostat opens in order to limit the maximum operating temperature.
If the 2 amps is the output amperage of the power supply, the maximum that should be drawn from the unit is 2 amps. The load amperage that is connected to the power supply should govern the amperage of the fuse used. There is not much range there, the fusing could go from .25 to 2 amps. If the input amperage is 2 amps then the input and output voltage of the power supply should be stated.
The maximum amperage that can be applied to a #14 wire is 15 amps. The 600 volts is just an insulation rating. Check the nameplate on the dryer to see what the amperage and voltage the manufacturer recommends. If the nameplate just states a wattage use the following formula to find the amperage. Amps = Watts/ Volts.
Yes, very easily. Receptacles and other electrical devices are rated in amperage that the device can use or handle. Take that amperage and multiply it by the voltage that the device is rated for. The answer will be in watts. This wattage will be the maximum that is allowed from the receptacle or any other device.
Disconnect power to geyser and remove the thermostat. Turn heat selector to maximum and with the thermostat removed from the geyser and electrical wiring, test for continuity between the input and output sides of the (L)ive side. If there is continuity the thermostat is ok and the fault may then lie with the element.
The size of the sub panel is dependant on the amount of connected loads and the amperage of these loads, or the total load in amps on how many new circuits that you will require.
10 AWG should never carry more than 30 Amps.
Diodes are usually rated in amperage. A diode may be capable of handling only a 10th of an ampere. Some diodes called Power diodes may be capable of handling up to 100 amperes per diode. To select the proper diode, you must know what the maximum amperage your circuit is capable of. Then you would select one that would handle at least 120 percent of the amperage your circuit would handle.