To determine the voltage needed to overcome 2 ohms of resistance, you can use Ohm's Law, which states that voltage (V) is equal to current (I) multiplied by resistance (R): V = I × R. Therefore, the voltage required will depend on the amount of current you are trying to pass through the 2 ohms of resistance. For example, if you want a current of 1 ampere, you would need 2 volts (V = 1 A × 2 Ω).
ohms is the unit of resistance while volts is the unit of voltage
Current is inversely proportional to resistance. If you double the resistance, you halve the current. Ohm's Law: Volts = Amps * Ohms Solve for Amps: Amps = Volts / Ohms
Ohms are used to measure resistance, and volts are used to measure potential difference -two completely-different quantities. You might as well be asking, "How many kilometres are there in 12 degrees Celsius?"
Ohms law
E = I x R. Transpose equation for R. E = volts, I = amps, R = resistance (ohms).
ohms=amps/volts Amps= volts/ohms Volts = Amps*Ohms
ohms is the unit of resistance while volts is the unit of voltage
To calculate volts, you also need to know the resistance (ohms) in the circuit according to Ohm's Law. The formula to find volts is V = I x R, where V is voltage, I is current in amps, and R is resistance in ohms. So, to determine volts given 0.01 amps, you'd need the resistance value.
It depends on how many volts it has.
Resistance(Ohms)= Voltage(volts)/Current (Ampheres) -X
6 amperes
Current is inversely proportional to resistance. If you double the resistance, you halve the current. Ohm's Law: Volts = Amps * Ohms Solve for Amps: Amps = Volts / Ohms
Ohm's Law: Voltage = Amperes times Resistance 9 volts = amps * 10 ohms amps = .9
It will take 36 volts to make 12 amps go through 3 ohms of resistance. Ohm's law states that the current in amperes is equal to voltage over resistance.
0.2 volts
If they're connected in series the total resistance is 2000 ohms. If they're connected in parallel the resistance is 500 ohms.
Voltage is not measured in ohms. It is measured in volts.