32v
Voltage across a resistance = (resistance) x (current through the resistance) =4 x 1.4 = 5.6If the ' 1.4 ' is Amperes of current, then the required voltage is 5.6 volts.
Ratio of field current required to produce rated voltage in open circuit to the field current required to produce rated current in short circuit.
High skin resistance can produce severe skin burns but prevent the current from entering the body
Current, voltage and resistance are related by the Ohm's law formula which states that current is directly proportional to the applied voltage and inversely proportional to the resistance at a constant temperature. Stated mathematically: I = E/R where I = current in amperes, abbreviated to A E = voltage in volts, abbreviated to V R = resistance in ohms, usually signified by the Greek omega Ω
4
Voltage across a resistance = (resistance) x (current through the resistance) =4 x 1.4 = 5.6If the ' 1.4 ' is Amperes of current, then the required voltage is 5.6 volts.
if current and resistance are know are known then voltage can be calculated using OHMS LAW V=I*R 2*16= 32 Volt
Copper can not of itself produce a current. <><><><><> However, resistance, be it copper or some other material, will produce a current if a voltage is applied to it. The rule is Ohm's law: Current = Voltage divided by resistance.
resistance does not produce currents . you need source (like voltage source , current source ,or , discharging capacitor) to generate current .
Mass
Ratio of field current required to produce rated voltage in open circuit to the field current required to produce rated current in short circuit.
V= I x R Therefore; .00005 x 52,000 = 2.6 volts
18volts
8x12=96
High skin resistance can produce severe skin burns but prevent the current from entering the body
1437500000
18 volts