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3.1 Ideal circuit elements

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This module provides examples of the elementary circuit elements; the resistor, the capacitor,and the inductor, which provide linear relationships between voltageand current.

The elementary circuit elements—the resistor,capacitor, and inductor— impose linear relationships between voltage and current.

Resistor

Resistor

Resistor. v R i

The resistor is far and away the simplest circuit element. In a resistor, the voltage is proportional to the current, withthe constant of proportionality R , known as the resistance . v t R i t Resistance has units of ohms, denoted by , named for the German electrical scientist Georg Ohm . Sometimes, the v-i relation for the resistor is written i G v , with G , the conductance , equal to 1 R . Conductance has units of Siemens (S), and is named for theGerman electronics industrialist Werner von Siemens .

When resistance is positive, as it is in most cases, a resistor consumes power. A resistor's instantaneous power consumption can be written one of two ways. p t R i t 2 1 R v t 2

As the resistance approaches infinity, we have what is known as an open circuit : No current flows but a non-zero voltage can appear across the open circuit. As theresistance becomes zero, the voltage goes to zero for a non-zero current flow. This situation corresponds to a short circuit . A superconductor physically realizes a short circuit.

Capacitor

Capacitor

Capacitor. i C t v t

The capacitor stores charge and the relationship between the charge stored and the resultant voltage is q C v . The constant of proportionality, thecapacitance, has units of farads (F), and is named for the English experimental physicist Michael Faraday . As current is the rate of change of charge,the v-i relation can be expressed in differential or integral form.

i t C t v t   or   v t 1 C α t i α
If the voltage across a capacitor is constant, then the current flowing into it equals zero. Inthis situation, the capacitor is equivalent to an open circuit.The power consumed/produced by a voltage applied to a capacitor depends on the product of the voltage and its derivative. p t C v t t v t This result means that a capacitor's total energy expenditure up to time t is concisely given by E t 1 2 C v t 2 This expression presumes the fundamental assumption of circuit theory: all voltages and currents in any circuit were zero in the far distant past ( t ).

Inductor

Inductor

Inductor. v L t i t

The inductor stores magnetic flux, with larger valuedinductors capable of storing more flux. Inductance has units of henries (H), and is named for the American physicist Joseph Henry . The differential and integral forms of the inductor's v-i relation are

v t L t i t   or   i t 1 L α t v α
The power consumed/produced by an inductor depends on the product of the inductor current and its derivative p t L i t t i t and its total energy expenditure up to time t is given by E t 1 2 L i t 2

Sources

Sources

The voltage source on the left and current source on theright are like all circuit elements in that they have a particular relationship between the voltage and currentdefined for them. For the voltage source, v v s for any current i ; for the current source, i i s for any voltage v .

Sources of voltage and current are also circuit elements, butthey are not linear in the strict sense of linear systems. For example, the voltage source's v-i relation is v v s regardless of what the current might be. As for the current source, i i s regardless of the voltage. Another name for a constant-valued voltage source is a battery, and can be purchased in anysupermarket. Current sources, on the other hand, are much harder to acquire; we'll learn why later.

Questions & Answers

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Nevermind i just realied that the graph is the phons output for a person with normal hearing and not just the phons output of the sound waves power, I should read the entire thing next time
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Source:  OpenStax, Fundamentals of electrical engineering i. OpenStax CNX. Aug 06, 2008 Download for free at http://legacy.cnx.org/content/col10040/1.9
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