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Chapter 32: Q. 6 (page 924)

A $200 惟$ resistor is connected to an AC source with ${鈭�}_{o} = 10 V$ . What is the peak current through the resistor if the emf frequency is (a) $100 H z$ ? (b) $100 k H z$ ?

Short Answer

Expert verified

Result is:

$I_{o} = 0.05 A 鈬� 50 mA$

Step by step solution

01

Part(a) Step 1: Given information

We have been given that $R = 200 惟$ and $蔚_{o} = 10 V$

02

Part(a) Step 2: Simplify

Peak current is given by $I = \frac{蔚_{o}}{R^{}}$ ,does not depend upon frequency

$I_{o} = \frac{蔚_{o}}{R}$

$I_{o} = \frac{10 V}{200 惟}$

$I_{o} = 0.05 A 鈬� 50 mA$

03

Part(b) Step 1: Given information

We have been given that $R = 200 惟$ and $蔚_{o} = 10 V$

04

Part(b) Step 2: simplify

Peak current is given by $I = \frac{蔚_{o}}{R}$ ,does not depend upon frequency

$I_{o} = \frac{10 V}{200 惟}$

$I_{o} = 0.05 A 鈬� 50 mA$

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Most popular questions from this chapter

a. Show that the peak inductor voltage in a series RLC circuit is maximum at frequency

$蝇_{L} = {(\frac{1}{蝇_{o}^{2}} - \frac{1}{2} R^{2} C^{2})}^{\frac{- 1}{2}}$

b. A series RLC circuit with $蔚_{o} = 10.0 V$ consists of a $1.0 惟$ resistor, a $1.0 渭 H$ inductor, and a $1.0 渭 F$ capacitor. What is $V_{L}$ at $蝇 = 蝇_{o}$ and $蝇 = 蝇_{L}$ ?

A series RLC circuit consists of a $50 惟$ resistor, a $3.3 m H$ inductor, and a $480 n F$ capacitor. It is connected to a localid="1650490479345" $3.0 k H z$ oscillator with a peak voltage of localid="1650490469008" $5.0 V$ . What is the instantaneous emf $E$ when

a. $i = I$ ?

b. $i = 0 A$ and is decreasing?

c. $i = - I$

A $20 m H$ inductor is connected across an AC generator that produces a peak voltage of $10 V$ . What is the peak current through the inductor if the emf frequency is (a) $100 H z$ ? (b) $100 k H z$ ?

FIGURE $Q 32.1$ shows emf phasors a, b, and c.

a. For each, what is the instantaneous value of the emf?

b. At this instant, is the magnitude of each emf increasing, decreasing, or holding constant?

In the series RLC circuit represented by the phasors of FIGURE Q32.7, is the EMF frequency less than, equal to, or greater than the resonance frequency $蝇_{0}$ ? Explain.

See all solutions

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