Ohm's law relates voltage, current, and resistance.
Voltage is current times resistance
Current is voltage divided by resistance
Resistance is voltage divided by current
E=IR Where E is electromotive force in volts. I is current flow in amps. R is resistance in ohms.
I=E/R, R=E/I
(3 x 103) x (3 x 10-6) = 0.009 squared ohms ... a quantity with no physical significance
To find the resistance in a circuit, use the equation R = V/I, where R is the resistence in ohms, V is the voltage, and I is the current in amps. Therefore, your equation is R = 120/0.6. Therefore, the resistance is 200 ohms. Hope this helps
Current, by Ohm's Law, is voltage divided by resistance, so, 18 volts divided by 2 ohms is 9 amperes.
E = I x R. Transpose equation for R. E = volts, I = amps, R = resistance (ohms).
Ohm's Law requires you know two of three parameters to calculate the third. Volts = Amps x Ohms You need to know current flowing through resistance to calculate voltage drop.
Use the equation that shows the relationship between ohms and the properties that are known.
Ohms law. R = E/I,where R= resistance in ohms, E = voltage in volts, and I = current in amperes.
(3 x 103) x (3 x 10-6) = 0.009 squared ohms ... a quantity with no physical significance
You have to convert all values to ohms. 3 kiloohms = 3000 ohms. 3 micoohms = three millionth of an ohm = 0.000003 ohms. The product is: 3000 times 0.000003 = 0.009 ohms squared.
It depends if the are in series or parallel. In series: 55K ohms In parallel: 5K ohms It really all depends brah.
Ohms Law
5 ohms.
5 ohms
30 ohms
Ohm's Law: Resistance in ohms is voltage in volts divided by current in amperes.
Ohm's Law: Resistance in ohms is voltage in volts divided by current in amperes.
R = (density)(Length)/(Area) Unit of resistance is Ohms.