No, the current is equal to the power (watts) divided by the voltage, based on the formula: current = power / voltage. Voltage divided by watts does not equal current.
No. Voltage divided by resistance is equal to current.
Ohm's law.
German physict Georg Ohm
Ohm's Law V = I R Voltage = Current x Resistance
The current through each resistor is equal to the voltage across it divided by its resistance for series and parallel circuits.
Ohm's Law. It is usually written as V = I x R or in words Voltage is equal to Current times Resistance; or in your terms I = V / R.
The current is greater than or equal to (6) divided by (the effective resistance of the circuit).
Ohm's Law: Current is voltage divided by resistance.Alternative AnswerIf, by 'statement', you are referring to a 'law', then there is no electrical law that states that 'current is voltage divided by resistance'.The relationship between voltage, current, and resistance is derived from the definition of the ohm, which is defined in terms of a volt per ampere, which can be manipulated to say that 'current is equal to voltage divided by resistance'.This is frequently, but incorrectly, described as being 'Ohm's Law', but Ohm's Law isn't universal and it only applies to a very limited range of linear (or 'ohmic') loads, whereas 'resistance is voltage divided by current' applies to allloads (linear or non-linear) at any given value of voltage.
The phase voltages in a balanced 3-phase system are equal to the line voltages divided by the square root of 3. Therefore, if the line voltage is 100 volts, the phase voltage would be approximately 57.7 volts.
Ohm so correctly said: Voltage divided by current equals resistance. Voltage divided by current will tell you the value of a circuit's resistance. But resistance is not affected by either voltage or current. It is determined by the length, cross-sectional area, and resistivity (type of conducting material) of the conductor. Resistivity is, in turn, affected by temperature. So voltage divided by current tells you what the resistance happens to be - changes in voltage or current do not affect resistance.
Phase voltage is equal to the line to line voltage divided by root 3 or 1.732. So 440 L-L/1.732 = 254V. Your phase voltage is 254V.