That's not a valid conversion.
1 erg = 1.0e-7 wattsecond
To convert millivolts (mV) to volts (V), you divide by 1,000 since 1 volt equals 1,000 millivolts. Therefore, 25.7 mV is equal to 25.7 / 1,000, which is 0.0257 volts.
13,800 volts 1 kv = 1 kilovolt = 1000 volts
Watts = Amps x Volts x Power Factor Maximum value of PF is 1 for a resistive load. If you have 120 volts and a PF = 1, then amps = 10.
The voltage delivering 1 watt depends on how many amps are present. We use watts to measure power (P), and amps (I) times volts (E) equals watts. We sometimes see the equation P = I x E written to express this relationship. Let's look at a couple of instances. If we have 1 amp times 1 volt, we'll get 1 watt. But 1/2 amp times 2 volts also equals 1 watt. Likewise, 10 amps times 0.1 volts equals 1 watt. Or 0.001 amps times 1,000 volts (1 milliamp times 1 kilovolt) equals 1 watt. As you can see, it is a combination of voltage and current that gives us wattage (power), and any voltage you can imagine can be used to get one watt of power when you have the correct current (amperage).
The formula you are looking for is I = W/E. 1080/120 = 9 amps. Less than 1. 1080/120 < 1
1 joule = 10 million ergs
To convert millivolts (mV) to volts (V), you divide by 1,000 since 1 volt equals 1,000 millivolts. Therefore, 25.7 mV is equal to 25.7 / 1,000, which is 0.0257 volts.
Watts = Amps x Volts x Power Factor Maximum value of PF is 1 for a resistive load. If you have 120 volts and a PF = 1, then amps = 10.
13,800 volts 1 kv = 1 kilovolt = 1000 volts
The ratio of 24 volts to 3 volts is calculated by dividing 24 by 3, which equals 8. Therefore, the ratio can be expressed as 24:3 or simplified to 8:1. This means that for every 8 parts of 24 volts, there is 1 part of 3 volts.
1 megavolt = 1,000,000 volts
There are zero volts in .1 amps.
1 million volts.
Watts = Amps x Volts x Power Factor Maximum value of PF is 1 for a resistive load. If you have 120 volts and a PF = 1, then amps = 10.
The voltage delivering 1 watt depends on how many amps are present. We use watts to measure power (P), and amps (I) times volts (E) equals watts. We sometimes see the equation P = I x E written to express this relationship. Let's look at a couple of instances. If we have 1 amp times 1 volt, we'll get 1 watt. But 1/2 amp times 2 volts also equals 1 watt. Likewise, 10 amps times 0.1 volts equals 1 watt. Or 0.001 amps times 1,000 volts (1 milliamp times 1 kilovolt) equals 1 watt. As you can see, it is a combination of voltage and current that gives us wattage (power), and any voltage you can imagine can be used to get one watt of power when you have the correct current (amperage).
1.0 kilo volts = 1000 volts1000 effective volts is 1kV.
4.5 Volts