Use a step-down voltage transformer or find a resistor capable of using up 7200 V in series with the required 800V load
900,000 Volts. That is Nine Hundred Thousand volts.
It depends on your voltage. Power (P) = Current (I) * Voltage (V) 800 amps at 1 volt is 800 watts or 0.8 kW. 800 amps at 120 volts is 96,000 watts or 96 kW. 800 amps at 34.5kV is 27,600,000 or 27,600 kW.
800 000 Watts / 600 Volts = 1333.3333333 Amps
In North America the common voltage for microwave ovens is 120 volts. However, what you may really want to know is how many watts does it draw? (One doesn't "draw volts" - the voltage is fixed by the source of electricity: 110 - 120 volts from the wall recepticle in your house; 1 1/2 volts for a AA battery, etc.) However, appliances do "draw" wattage - that depends upon the appliance and how efficiently it operates. (watts = volts x amps (current). Most microwave ovens are about 50% efficient, so an 800 watt (output) microwave oven draws about 1600 watts of electricity.
To calculate the output power in watts, multiply the voltage by the current. In this case, the output power would be 332,000 watts (415 volts x 800 amps = 332,000 watts).
900,000 Volts. That is Nine Hundred Thousand volts.
amps equals watts divided by volts.
It depends on your voltage. Power (P) = Current (I) * Voltage (V) 800 amps at 1 volt is 800 watts or 0.8 kW. 800 amps at 120 volts is 96,000 watts or 96 kW. 800 amps at 34.5kV is 27,600,000 or 27,600 kW.
There is no valid conversion.
800 000 Watts / 600 Volts = 1333.3333333 Amps
It's 1N4001 Maximum reverse voltage 50 volts, 1 amp The last digit indicates the voltage. To replace a 1N4001, you could safely use any of the diodes in that series. 1N4001 = 50 volts 1N4002 = 100 volts 1N4003 = 200 volts 1N4004 = 400 volts 1N4005 = 600 volts 1N4006 = 800 volts 1N4007 = 1000 volts The 1N4000 series diodes are rectifier diodes. They're used for converting AC voltage into DC voltage. And frankly, I can't think of a reason why I'd choose the 1N4001 when the more-versatile (as in you can use it in more places) 1N4003 is the same price.
10% of 8000= 10% * 8000= 0.1 * 8000= 800
T= timedelay 800= ? L=? 250V= volts
It depends on how much current it's putting out. An inverter rated at 800 volt-amperes can deliver 220 volts at 3.636 amperes, or it can deliver 110 volts at 3.727 amperes.
Yes it is. 8000 ÷ 800 = 10
Depends on the voltage. VA = Volts x Amps. 800kva = 800,000 VA
Depends upon the voltage. At 110 volts, 800 watts = 7.27 amps. At 115 volts, 800 watts = 6.96 amps. At 120 volts, 800 watts = 6.67 amps. At 220 volts, 800 watts = 3.64 amps. Just divide the wattage by the voltage to determine the amperage. (You can also divide the wattage by the amperage to determine the voltage!)