It depends entirely on how well you're grounded. But generally speaking, if you are reasonably well grounded and the power source can provide adequate amperage, it feels like your body is vibrating and convulsing quite violently. Your muscles contract uncontrollably. In some instances your leg muscles will react in a way that will launch you across the room. In other circumstances you will simply die. Steve Francis
shocking , very high voltage
1.5kva has enough electrical power to supply 100 volts of electricity that is at 15 amps. You can also supply 300 volts at 5 amps and 1000 volts at 1.5 amps.
The terminal strip's rating is 15 amps at 600 volts. It does not matter what the voltage is up to 600 volts, the maximum amperage allowed on the strip is 15 amps. It could be 15 amps at 12 volts or 15 amps at 600 volts or any voltage in between.
No. You are billed for electricity by wattage per hour. The formula for watts is amps times volts. W = A x V. At a set voltage and using the formula you can see that if the amperage goes up so will the wattage value. Use 120 volts and multiply it by each of your amperages in the question.
15.
It's the amps that are controlled by the breaker not the volts. You can have a 600 volt 15 amp breaker, you can have a 347 volt 15 amp breaker. The breaker will trip when you exceed 15 AMPS.
1.5kva has enough electrical power to supply 100 volts of electricity that is at 15 amps. You can also supply 300 volts at 5 amps and 1000 volts at 1.5 amps.
You can't calculate how many volts with that information; you could calculate the energy - 60 watts for 15 minutes is equivalent to 54,000 joules.
The terminal strip's rating is 15 amps at 600 volts. It does not matter what the voltage is up to 600 volts, the maximum amperage allowed on the strip is 15 amps. It could be 15 amps at 12 volts or 15 amps at 600 volts or any voltage in between.
No. You are billed for electricity by wattage per hour. The formula for watts is amps times volts. W = A x V. At a set voltage and using the formula you can see that if the amperage goes up so will the wattage value. Use 120 volts and multiply it by each of your amperages in the question.
That depends on the application [use] of the alternator. For automotive applications, NO, 15 Volts DC is not too much. Generally, an acceptable voltage output range for automotive applications is 13 Volts minimum to 16 volts maximum.
There is a 3.75 Volt drop across each bulb.
Strangely enough, it is 15 million!
12 volts with the engine off. 13.5 to 15-5 volts with the engine idling.
15 voltsThe result would only be 15 volts if they were connected in series. If in parallel, a 10v and a 5v battery would probably come out with a voltage of either 10 volts or 7.5 volts, there's no way to tell for sure though.
13-15 volts
15.
=15 volts +10volts