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Chapter 30: Q. 12 (page 869)

12. An LC circuit oscillates at a frequency of $2000 Hz$ . What will the frequency be if the inductance is quadrupled?

Short Answer

Expert verified

If the inductance is quadrupled, the value of the frequency will be $1000 Hz$

Step by step solution

01

Step 1. Given information

Initial frequency: $f = 2000 Hz$

The frequency of a LC circuit is given by

$f = \frac{1}{2 蟺 \sqrt{L C}}$

02

Step 2. Explanation

Consider the inductance and capacitance of the circuit is L and C, hence the initial frequency of the circuit is

$f_{i} = \frac{1}{2 蟺 \sqrt{L C}}$

If the inductance is quadrupled, the new inductance of the inductor will be 4L, hence, the final frequency of the circuit will be

$f_{f} = \frac{1}{2 蟺 \sqrt{4 L C}} = \frac{1}{2} \frac{1}{2 蟺 \sqrt{L C}} = \frac{1}{2} (2000 Hz) = 1000 Hz$

If the inductance is quadrupled, the value of the frequency will be $1000 Hz$

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Most popular questions from this chapter

The 10-cm-wide, zero-resistance slide wire shown in FIGURE is pushed toward the $2.0 鈩�$ resistor at a steady speed of $0.50 m / s$ . The magnetic field strength is $0.50 T$ .

a. How big is the pushing force?

b. How much power does the pushing force supply to the wire?

c. What are the direction and magnitude of the induced current?

d. How much power is dissipated in the resistor?

13. Rank in order, from largest to smallest, the three time constants $蟿_{a}$ to $蟿_{c}$ for the three circuits in FIGURE Q30.13. Explain.

The square loop shown in $F I G U R E P 30.53$ moves into a $0.80 T ALC$ magnetic field at a constant speed of $10 m / s$ .The loop has a resistance of $0.10 惟$ , and it enters the field at $t = 0 s .$

a. Find the induced current in the loop as a function of time. Give your answer as a graph of ii versus $t$ from $t = 0 s$ to $t = 0.020 s .$

b. What is the maximum current? What is the position of the loop when the current is maximum?

68. II A inductor with negligible resistance has a 1.0 A current through it. The current starts to increase at $t = 0 s$ , creating a constant $5.0 mV$ voltage across the inductor. How much charge passes through the inductor between $5.0 mV$ and $t = 5.0 s$ ?

74. II The inductor in FIGURE P30.74 is a $9.0 鈭� cm$ -long, $2.0 鈭� cm 鈭�$ diameter solenoid wrapped with 300 turns. What is the current in the circuit $10 渭 s$ after the switch is moved from a to b ?

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