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
According to Ohm's law, voltage is the produce of current and resistance, current is the quotient of voltage and resistance, and resistance is the quotient of voltage and current.
Ohm's law: voltage = resistance time current.
V = I x R where V is volts, I is amps current, and R is resistance ohms
They are related by Ohm's Law: V=IR (voltage = current x resistance).
Voltage = Current x Resistance giving us Current = Voltage / Resistance i.e. Voltage divided by resistance
Ohms law is: I = V / R (current = voltage / resistance)... where if the voltage or resistance changes then the current will change. ... the current and resistance is a inversely proportional linearly relationship ...this means that if the resistance doubles then the current halfs, if the resistance halfs then the current doubles, etc...hope this helps
the answer is current, voltage, and resistance
Resistance is not affected by either voltage or current. It is determined only by the cross-sectional area, length, and resistivity of the material. As resistivity is affected by temperature, resistance is indirectly affected by temperature.In the so-called 'Ohm's Law' equation, resistance is a constant. So, if you increase voltage, the resistance remains constant, and the current would increase in proportional to the voltage.
If resistance increases and voltage stays the same, then current decreases. Ohm's Law: Current equals Voltage divided by Resistance.
Voltage = (current) x (resistance) Current = (voltage)/(resistance) Resistance = (voltage)/(current)
Voltage = (current) x (resistance) Current = (voltage)/(resistance) Resistance = (voltage)/(current)
1). Voltage = (resistance) x (current)2). Current = (voltage) / (resistance)3). Resistance = (voltage) / (current)I think #2 is Ohm's original statement, but any one of these can be massaged algebraicallyin order to derive the other two.
Ohm's law: voltage is current times resistance. Restating this; current is voltage divided by resistance, so increasing resistance would decrease current.
Voltage = (current) x (resistance) Current = (voltage)/(resistance) Resistance = (voltage)/(current)
Ohm's Law: voltage = current * resistance. If resistance is a constant, then voltage is directly proportional to current.
Current and Voltage are directly proportional. V=voltage, I=current, R=resistance V=I*R
Voltage and current are two different things. Voltage is the electric potential difference between two points. Expressed in volts, it is also joules per coulomb. Current is the charge flow past a point. Expressed in amperes, it is also coulombs per second. You can relate voltage and current using Ohm's Law, which states that voltage is equal to current times resistance. Resistance is, therefore, equal to voltage divided by current. Using base units, resistance is equal to joules per coulomb divided by coulombs per second, which simplifies to joule-seconds per coulomb squared. That is a difficult unit to write, so we just use ohms as the unit.
Voltage = Current x Resistance giving us Current = Voltage / Resistance i.e. Voltage divided by resistance
Ohms law is: I = V / R (current = voltage / resistance)... where if the voltage or resistance changes then the current will change. ... the current and resistance is a inversely proportional linearly relationship ...this means that if the resistance doubles then the current halfs, if the resistance halfs then the current doubles, etc...hope this helps
No. Voltage divided by resistance is equal to current.
Voltage = Current * Resistance (Ohm's law)