Ohms are the unit of resistance you find in Ohms LAw which says Volts = Amps x Ohms. You can get a voltage drop across a resistance, but would have to know what current is being used and you would have a potentiometer in effect. You are not "converting 12V" to 10V, your are essentially loosing two volts through a resistor.
If you think about it and stop tryna cheat on your homework you would get it dumb a
770
Voltage is Current multiplied by Resistance. The formulas for calculating the resistance in parallel and series circuits are: Resistors in Series: R(total)=R1+R2+R3+... Resistors in Parallel: 1/(Rtotal)=(1/R1)+(1/R2)+... Current is a measure of Coulombs of charge per unit of time or I=C/t The current depends on the circuit, whether it has capacitors or resistors, and the exact layout. Current 'flows' through wires in much the same way that water flows through pipes, so if the current meets some resistance (a resistor), some of the current will go through the resistor, but the rest will go through any other available path (like in a parallel circuit).
A 12 ohm resistor with 6 volts across it will dissipate 3 watts of power. Current = voltage divided by resistance = 6 / 12 = 0.5 amperes. Power = voltage times current = 6 * 0.5 = 3 watts.
This answer depends on who you are asking some people say it flows from negative to positive and others say its the other way around but really it doesn't matter that much because normal 60Hz AC changed direction 60 times a sec
A tazer capable of delivering such a charge would probably have to be powered by a truck-mounted generator. 350 kilovolts is similar to the voltage used in the large long-distance power lines. Such a voltage can create a three meter electric arc through thin air. However, strictly speaking the power of an electric shock is the coefficient of voltage and current. A very high voltage with next to no current must not necessarily harm or kill. People have been known to survive lightning strike, and the voltage in an average lightning exceeds one million volts. So, the answer depends on what current is used. 24 volts can kill you if the current is 1 kA (kiloampere, a thousand amperes). On 1 nA (nanoampere, a millionth of an ampere), even 100 kV does not have much power.
Ohm's Law Volts = Current x Resistance Amps = V / R 110 / 20 = 5.5 Amps
Assuming that you mean connected to 120 Volts (V) supply, start with Power(P)=Current(I) x Voltage(V), and if P=V*I, then I=P/V. I=12W/120V=0.1A or 100mA and that is your current.
same current flow in each bulb
Ohm's Law Voltage = Current x Resistance Answer is 15/300
In a 12VDC circuit with a 1K load, there will be 12ma of current. (Ohm's law: Volts = Amps * Ohms, so Amps = Volts / Ohms.)
100/80.6=___
12 volts DC current except the current to the spark plugs which can be 12,000 volts up to as much as 45,000 volts.
Use Ohm's Law, i.e., V=IR here, V=voltage I=current R=resistance
120 power flows through a circuit with 1 amp and 120 volts.
I = E/R = 9/2400 = 0.00375 Amp = 3.75 milliamp
36 volts
50WATT