I'm not quite sure what context you mean.
V=IR
to explain this in words you would simply say
the voltage (V) of a circuit would be equal to the current (I) multiplied by the resistance(R).
a practical example could be, if the resistance in a circuit was 2 and the current was 12 what is the voltage?
well using Ohms law we would simply do (2 * 12) the voltage would be 24.
[note, i do not know if that would work in real life it's just a example using numbers]
you can aslo rearrange V=IR to work out how to calculate current and resistance
V=IR
I = V/R. Current equals votlage divided by resistance
R=V/I. Resistance equals voltage divided by current
hope this helps
The unit of Ohms was named after the German physicist Georg Simon Ohm, known for Ohm's Law which relates the voltage across a conductor to the current flowing through it.
Just use Ohm's Law: V=IR (voltage = current x resistance; using units: volts = amperes x ohms).
the entire branch of electricity uses this ohms law in building their circuits..........the voltage and current relations are being brought using this ohms law also many other laws are based upon this law only.
Using Ohm's Law (V = I * R), where V is voltage, I is current, and R is resistance, we can rearrange the formula to solve for resistance: R = V / I. In this case, R = 12V / 0.5A = 24 ohms. So the resistance of the electromagnet is 24 ohms.
Ohm's Law states that the current (amps) in a circuit is directly proportional to the voltage and inversely proportional to the resistance (ohms). This relationship can be described by the formula I = V/R, where I is the current, V is the voltage, and R is the resistance.
It is used in Science: Energy and Power.
ohms law.
Ohm's Law.
To find the conductance using ohms law,you take the inverse of the resistance(/R)
The letter R is used to represent resistance. For instance, the R in a circuit is said to be 52 ohms. Just that simple.
Current
No.
no
Ohms are used to measure electric resistance.
ohms=amps/volts Amps= volts/ohms Volts = Amps*Ohms
Ohms law does not consider inductance
Ohms law.