15 amps per circuit
240 Volts total
120 Volts each circuit
GFCI=Ground Fault Circuit Interrupter
The formula you are looking for is Watts = Amps x Volts.
Circuit breakers operate on current not voltage.
120 power flows through a circuit with 1 amp and 120 volts.
In a parallel circuit, Voltage is constant through out the circuit. Thus, the voltage across each lamp is 6-volts.
A fully charged battery will read 12.6 volts. The engine needs somewhere between 20,000 and 50,000 volts or maybe higher to fire the spark plugs. The ignition system is divided into two sections, the primary circuit and the secondary circuit. The low voltage primary circuit operates at alternator voltage (13.5 to 15.5 volts engine running) and is responsible for generating the signal to fire the spark plug at the exact right time and sending that signal to the ignition coil. The ignition coil is the component that converts the 12 volt signal into the high 20,000+ volt charge. Once the voltage is stepped up, it goes to the secondary circuit which then directs the charge to the correct spark plug at the right time.
An automobile cigarette lighter uses 12 Volts DC. A typical 120 Volt circuit would destroy the 12 volt lighter.
Downstream O2 sensor circuit volts high.Downstream O2 sensor circuit volts high.
by attatching a voltmeter into the circuit you are trying to measure the volts of.
You can hook up an infinitive number of 12 volt batteries in a parallel circuit and still have 12 volts.
This is a text-only site and was not designed to show circuit diagrams, but there are lots of circuit diagrams available elsewhere!Just put "power invertor circuit diagram" or similar wording into your favorite web search engine and you'll be given lots of links to them.A link to a very typical circuit diagram for a 12 volts dc to 230 volts ac invertor is given as a Related Link below this answer.
The formula you are looking for is Watts = Amps x Volts.
The flow in a circuit is called the electric current and it is measured by voltages. The number of volts that are present in the charge will determine the strength of the electric current.
Voltage is a measure of "pressure" in an electrical circuit. Electrical voltage is produced as a function of the number of windings in a field coil in comparison to the number of windings in the stator of a generator. the greater difference in the number of windings the greater the voltage. This voltage can also be modified by transformers, which are coils in the circuit that transfer electricity from one coil to another by induction. The difference in the number of windings in one coil to the other coil will determine the change in voltage. So by taking a circuit with a voltage of , say, 110 volts, by installing a transformer that has twice as many windings in one coil than the other, you can transform the voltage from 110 volts to 220 volts.
A circuit has an applied voltage of 100 volts and a resistance of 1000 ohms. The current flow in the circuit is 100v/1000ohms which would equal .1.
13-15 volts
voltmeters
volts current ohms