Complex Resistor Combinations

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Presentation transcript:

Complex Resistor Combinations Unit 14.3

Resistor Combinations Series and parallel circuits are not often encountered independent of one another. Most circuits today employ both series and parallel wiring to utilize the advantages of each type.

Resistor Combinations A common example of a complex circuit is the electrical wiring typical in a home.

Resistor Combinations In a home, a fuse or circuit breaker is connected in series to numerous outlets, which are wired to another in parallel.

Resistor Combinations As a result of the outlets being wired in parallel, all the appliances operate independently; if one is switched off, any others remain on.

Resistor Combinations Wiring the outlets in parallel ensures that an identical potential difference exists across any appliance. This way, appliance manufacturers can produce appliances that all use the same potential difference.

Resistor Combinations To prevent excessive current, a fuse or circuit breaker must be placed in series with all of the outlets. Fuses and circuit breakers open the circuit when the current becomes too high.

Resistor Combinations A fuse is a small metallic strip that melts if the current exceeds a certain value. After a fuse has been melted, it must be replaced.

Resistor Combinations A circuit breaker, a more modern device, triggers a switch when current reaches a certain value. The switch must be reset, rather than replaced, after the circuit overload has been removed.

Resistor Combinations Both fuses and circuit breakers must be in series with the entire load to prevent excessive current from reaching any appliance.

Resistor Combinations In fact, if all the devices were used at once, the circuit would be overloaded. The circuit breaker would interrupt the current.

Resistor Combinations Fuses and circuit breakers are carefully selected to meet the demands of a circuit. If the circuit is to carry currents as large as 30A, an appropriate fuse or circuit breaker must be used.

Resistor Combinations Because the fuse or circuit breaker is placed in series with the rest of the circuit, the current in the fuse or circuit breaker is the same as the total current in the circuit.

Resistor Combinations To find this current, one must determine the equivalent resistance.

Resistor Combinations When determining the equivalent resistance for a complex circuit, you must simplify the circuit into groups of series and parallel resistors and then find the equivalent resistance for each group by using the rules for finding the equivalent resistance of series and parallel resistors.

Resistor Combinations Now that the equivalent resistance for a complex circuit has been determined, you can work backward to find the current in and potential difference across any resistor in that circuit.

Resistor Combinations There is no single formula for finding the current in and potential difference across a resistor buried inside a complex circuit.

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