Question 1

If you double the rms voltage in an AC circuit, the peak voltage&#10;A) increases by a fACtor of 2.&#10;B) decreases by a fACtor of 2.&#10;C) increases by a fACtor of   .&#10;D) decreases by a fACtor of   .&#10;E) does not change.

Accepted Answer

increases by a fACtor of 2.

Question 2

A motor sometimes burns out when its load is suddenly increased because the resulting sudden decrease in its rotational frequency causes&#10;A) an increased bACk EMF and an increased current flow.&#10;B) a decreased bACk EMF and a decreased current flow.&#10;C) a decreased bACk EMF and zero current flow.&#10;D) an increased bACk EMF and a decreased current flow.&#10;E) a decreased bACk EMF and an increased current flow.

Accepted Answer

When the load on a motor is suddenly increased, its rotational frequency decreases, leading to a decrease in back EMF. This decrease in back EMF allows more current to flow through the motor, potentially causing it to burn out if the current exceeds the motor's design limits.

Question 3

An AC motor can be turned into an AC generator by&#10;A) reversing the poles of the permanent magnets.&#10;B) applying a reverse voltage to the terminals of the motor.&#10;C) mechanically rotating the coils instead of applying a voltage to the coil.&#10;D) replACing the magnet with an armature coil and vice versa.&#10;E) applying a DC voltage instead of an AC voltage.

Accepted Answer

When a mechanical force is applied to an AC motor (such as rotating the coils), it causes the motor to produce an alternating electrical current. This is the basic principle behind how generators work. Reversing the polarity of the magnets (A) or applying a reverse voltage (B) would not convert the motor into a generator. Replacing the magnet with an armature coil (D) would not work because the magnet is a necessary component for generating an electrical current. Applying a DC voltage (E) would not work because a DC voltage only produces a unidirectional electrical current, whereas a generator needs to produce an alternating current.

Question 4

The rms value of house voltage in much of Europe is 220 V. What is the maximum voltage?&#10;A) 440 V&#10;B) 310 V&#10;C) 220 V&#10;D) 160 V&#10;E) 120 V

Accepted Answer

The maximum voltage can be found by multiplying the rms value by the square root of 2 (1.414). Thus, the maximum voltage is 220 V x 1.414 = 310 V. Therefore, the best choice is B.

Question 5

How much does the maximum EMF produced by a generator (a rotating coil) change if the period of rotation is doubled?&#10;A) it is the same&#10;B) it is doubled&#10;C) it is quadrupled&#10;D) it is halved&#10;E) it is quartered

Accepted Answer

The answer of How much does the maximum EMF produced...

Question 6

A circular coil of radius 10 cm and a separate square coil of side 20 cm are both rotated in a magnetic field of 1.5 T. If the circular coil is rotated at a frequency of 60 Hz, then at what frequency must the square coil be rotated in order for both coils to have the same maximum induced voltage?

A) 47 Hz
B) 60 Hz
C) 76 Hz
D) 30 Hz
E) 19 Hz

Accepted Answer

The maximum induced voltage in a coil rotating in a magnetic field is given by the formula $EMF = NBA\omega$, where $N$ is the number of turns (assumed to be the same for both coils for this comparison), $B$ is the magnetic field strength, $A$ is the area of the coil, and $\omega$ is the angular velocity in radians per second. The frequency $f$ is related to $\omega$ by $\omega = 2\pi f$.For the circular coil, the area $A_{circle} = \pi r^2 = \pi (0.1)^2 = 0.01\pi$ m$^2$.For the square coil, the area $A_{square} = side^2 = (0.2)^2 = 0.04$ m$^2$.To have the same maximum induced voltage, we set the expressions for EMF equal to each other, leading to the relationship between their areas and angular velocities (or frequencies).Given that the circular coil is rotated at 60 Hz, we find the frequency for the square coil by ensuring the product of the area and frequency (which is proportional to angular velocity) is the same for both coils.$\frac{A_{circle}}{A_{square}} = \frac{f_{square}}{f_{circle}}$$\frac{0.01\pi}{0.04} = \frac{f_{square}}{60}$Solving for $f_{square}$, we get:$f_{square} = 60 \times \frac{0.01\pi}{0.04} = 60 \times \frac{\pi}{4} \approx 47$ Hz.Therefore, the square coil must be rotated at approximately 47 Hz to have the same maximum induced voltage as the circular coil rotated at 60 Hz.

Question 7

As the frequency in this simple AC circuit increases, the rms current through the resistor&#10;A) increases.&#10;B) does not change.&#10;C) may increase or decrease depending on the magnitude of the original frequency.&#10;D) may increase or decrease depending on the magnitude of the resistance.&#10;E) decreases.

Accepted Answer

The answer of   As the frequency in this...

Question 8

A 200-turn coil rotates in a magnetic field of magnitude 0.25 T at a frequency of 60 Hz. The area of the coil is 5.0 cm². What is the maximum EMF in the coil? A) 1.5 V B) 4.5 V C) 9.0 V D) 9.4 V E) 24 V

Accepted Answer

The maximum EMF in the coil is given by:
$EMF = 2\pi f N A B_{max}$,
where $N$ is the number of turns, $A$ is the area of the coil, and $B_{max}$ is the maximum magnitude of the magnetic field. Plugging in the given values, we get:
$EMF = 2\pi (60	ext{ Hz})(200)(5.0	ext{ cm}^2)(0.25	ext{ T}) = 9.42$ V
Therefore, the closest option is D) 9.4V.

Question 9

The resistance of the armature windings of DC motor is 5 $\Omega$ . The motor is connected to a 120 V line. When the motor is spinning at full speed, it draws a current of 4 A. The bACk EMF at full speed is

A) 20 V
B) 100 V
C) 120 V
D) 40 V
E) 80 V

Accepted Answer

At full speed, the voltage across the armature windings can be calculated using Ohm's law:

V = IR + E

where V is the applied voltage (120V), I is the current through the windings (4A), R is the resistance of the windings (5Ω), and E is the back EMF.

Solving for E, we get:

E = V - IR
E = 120V - (4A * 5Ω)
E = 100V

Therefore, the back EMF at full speed is 100V, which is choice (B).

Question 10

How much does the maximum EMF produced by a generator (a rotating coil) change if the area of the coil is doubled and the angular frequency halved?&#10;A) it is the same&#10;B) it is increased by a factor of two&#10;C) it is increased by a factor of eight&#10;D) it is decreased by a factor of four&#10;E) it is impossible to tell given the information provided

Accepted Answer

The maximum EMF ($E_{max}$) produced by a generator is given by the formula $E_{max} = NBA\omega$, where $N$ is the number of turns in the coil, $B$ is the magnetic field strength, $A$ is the area of the coil, and $\omega$ is the angular frequency. If the area $A$ is doubled and the angular frequency $\omega$ is halved, the changes cancel each other out ($2A \times \frac{1}{2}\omega = A\omega$), leaving the maximum EMF unchanged.

Question 11

A simple generator consists of a single rectangular loop of wire rotating between two magnetic pole fACes as shown. Which curve in the graph correctly represents the EMF $\epsilon$ as a function of the angle between the normal to the plane of the coil and the direction of the magnetic field?&#10;A) 1&#10;B) 2&#10;C) 3&#10;D) 4&#10;E) None of these is correct.

Accepted Answer

The answer of   A simple generator consists of...

Question 12

A square coil with 12 turns and side 5 cm is rotated in a uniform magnetic field of 1.2 T at an angular frequency of 90 radians per second. What is the maximum voltage induced in the coil?&#10;A) 10 V&#10;B) 3.2 V&#10;C) 0.51 V&#10;D) 0.27 V&#10;E) none of the above

Accepted Answer

The answer of A square coil with 12 turns and...

Question 13

A flat, rectangular coil measuring 0.10 m by 0.20 m and containing 50 turns of wire is rotating at a constant speed of 100 $\pi$ rad/s in a magnetic field of 0.20 T. The maximum EMF induced in this coil is approximately

A) 1.0 V
B) 10 V
C) 63 V
D) 44 V
E) 0.13 V

Accepted Answer

The answer of A flat, rectangular coil measuring 0.10 m...

Question 14

How much does the maximum EMF produced by a generator (a rotating coil) change if the number of turns of the coil is tripled?&#10;A) it is the same&#10;B) it is tripled&#10;C) it is increased by a fACtor of nine&#10;D) it is reduced by one-third&#10;E) it is impossible to tell given the information provided

Accepted Answer

The answer of How much does the maximum EMF produced...

Question 15

As the frequency in this simple AC circuit increases, the rms power dissipated by the resistor&#10;A) increases.&#10;B) does not change.&#10;C) may increase or decrease depending on the magnitude of the original frequency.&#10;D) may increase or decrease depending on the magnitude of the resistance.&#10;E) decreases.

Accepted Answer

The answer of   As the frequency in this...

Question 16

How much does the maximum EMF produced by a generator (a rotating coil) change if the area of the coil is quadrupled?&#10;A) it is the same&#10;B) it is increased by a factor of sixteen&#10;C) it is increased by a factor of eight.&#10;D) it is increased by a factor of four&#10;E) it is impossible to tell given the information provided

Accepted Answer

The answer of How much does the maximum EMF produced...

Question 17

How much does the maximum EMF produced by a generator (a rotating coil) change if its magnetic field is halved?&#10;A) it is the same&#10;B) it is increased by a factor of sixteen&#10;C) it is decreased by a factor of two&#10;D) it is increased by a factor of four&#10;E) it is impossible to tell given the information provided

Accepted Answer

The answer of How much does the maximum EMF produced...

Question 18

If you were to plug a 1200-W heater and a 600-W toaster into a 110-V electrical outlet, what total rms current would these two appliances draw if the wiring is parallel?&#10;A) 5.45 A&#10;B) 10.9 A&#10;C) 11.6 A&#10;D) 16.4 A&#10;E) 23.1 A

Accepted Answer

The answer of If you were to plug a 1200-W...

Question 19

An AC generator supplies 22 rms volts to a 30-$\Omega$resistor at 50 Hz. What is the maximum current in the resistor?&#10;A) 3.3 mA&#10;B) 21 mA&#10;C) 0.52 A&#10;D) 0.73 A&#10;E) 1.0 A

Accepted Answer

The answer of An AC generator supplies 22 rms volts...

Question 20

A circular coil with 20 turns and radius 5 cm is rotated in a uniform magnetic field of 3.2 T. If the maximum voltage induced in the coil is 5 V, calculate the number of rotations of the coil per minute.

A) 600 revs per minute
B) 15 revs per minute
C) 5 revs per minute
D) 95 revs per minute
E) 200 revs per minute

Accepted Answer

The answer of A circular coil with 20 turns and...

Question 21

The reACtance of an inductor is 10$\Omega$at 1 kHz. The inductance of this inductor is&#10;A) 1.00 mH&#10;B) 1.59 mH&#10;C) 2.06 mH&#10;D) 2.86 mH&#10;E) 3.45 mH

Accepted Answer

The answer of The reACtance of an inductor is 10$\Omega$at...

Question 22

A 500-W toaster is plugged into a 120-V AC outlet. What is the peak current in the toaster?&#10;A) 0.24 A&#10;B) 4.2 A&#10;C) 2.9 A&#10;D) 0.34 A&#10;E) 5.9 A

Accepted Answer

The answer of A 500-W toaster is plugged into a...

Question 23

A 15-$\Omega$ resistor is connected ACross a sinusoidal source that has a peak value of 75 V. The rms current drawn from this source is approximately&#10;A) 5.0 A&#10;B) 0.20 A&#10;C) 7.1 A&#10;D) 3.5 A&#10;E) 0.28 A

Accepted Answer

The answer of A 15-$\Omega$ resistor is connected ACross a...

Question 24

A 15-$\Omega$resistor is connected ACross a sinusoidal source that has a peak value of 75 V. The average power delivered by this source is approximately&#10;A) 75 W&#10;B) 0.19 kW&#10;C) 0.38 kW&#10;D) 0.75 kW&#10;E) 1.2 W

Accepted Answer

The answer of A 15-$\Omega$resistor is connected ACross a sinusoidal...

Question 25

If you connect a 12-V rms AC power supply that operates at 5.0 kHz to a 20-$\mu$F capACitor, what is the rms current in the circuit? (neglect any resistance)&#10;A) 1.2 A&#10;B) 7.5 A&#10;C) 19 A&#10;D) 8.4 A&#10;E) 11 A

Accepted Answer

The answer of If you connect a 12-V rms AC...

Question 26

At what frequency is the reACtance of a 3.5-mH inductor equal to 10.0 $\Omega$?&#10;A) 1.45 kHz&#10;B) 1.05 kHz&#10;C) 0.865 kHz&#10;D) 0.455 kHz&#10;E) 0.234 kHz

Accepted Answer

The answer of At what frequency is the reACtance of...

Question 27

For an inductor, the&#10;A) voltage lags behind the current.&#10;B) current lags behind the voltage.&#10;C) current and the voltage are in phase.&#10;D) current-voltage phase angle is greater than 90&#186;.&#10;E) current-voltage phase angle is less than 90&#186;.

Accepted Answer

The answer of For an inductor, the&#10;A) voltage lags behind...

Question 28

Electronic devices use electrical energy even when they are on standby. Calculate the percent of energy used per day for the following entertainment equipment in the standby mode assuming that they are plugged in all the time.
Device
Standby Power
Power when on
Hours on per day
DVD player
1 W
75 W
4
TV
2 W
100 W
6
Tuner
1 W
150 W
4

A) 0.45%
B) 1.1%
C) 4.8%
D) 5.1%
E) None of these is correct.

Accepted Answer

The answer of Electronic devices use electrical energy even when...

Question 29

If you double the peak voltage in an AC circuit, the rms voltage&#10;A) increases by a fACtor of 2.&#10;B) decreases by a fACtor of 2.&#10;C) increases by a fACtor of   .&#10;D) decreases by a fACtor of   .&#10;E) does not change.

Accepted Answer

The answer of If you double the peak voltage in...

Question 30

Use the following figure for the next two problems.
The figure shows the voltage and current for a device. The average power consumed by the device is

A) 2 W
B) 0.6 W
C) 1.2 W
D) 0.3 W
E) 2.4 W

Accepted Answer

The answer of Use the following figure for the next...

Question 31

A heater is plugged into the same 120-V AC outlet as an 800-W hair dryer. If the total rms current drawn is 16.7 A, then calculate the power rating of the heater.&#10;A) 2000 W&#10;B) 800 W&#10;C) 3200 W&#10;D) 1200 W&#10;E) 2800 W

Accepted Answer

The answer of A heater is plugged into the same...

Question 32

Use the following figure for the next two problems.
The figure shows the voltage and current for a device. The average power consumed by the device is

A) 2 W
B) 0.6 W
C) 1.2 W
D) 0.3 W
E) 2.4 W

Accepted Answer

The answer of Use the following figure for the next...

Question 33

The main power panel of a modern home is typically rated at 200 A at 120 V. The number of 60 W light bulbs that can be on at the same time is&#10;A) 120&#10;B) 240&#10;C) 360&#10;D) 400&#10;E) 600

Accepted Answer

The answer of The main power panel of a modern...

Question 34

At what frequency is the reACtance of a 1.5-mH inductor equal to 5.0 $\Omega$0?&#10;A) 0.53 kHz&#10;B) 0.13 kHz&#10;C) 3.3 kHz&#10;D) 21 Hz&#10;E) 21 kHz

Accepted Answer

The answer of At what frequency is the reACtance of...

Question 35

The reACtance of an inductor is 100 $\Omega$ at 2 kHz. The inductance of this inductor is&#10;A) 1.99 mH&#10;B) 3.98 mH&#10;C) 7.96 mH&#10;D) 8.86 mH&#10;E) None of these answers is correct.

Accepted Answer

The answer of The reACtance of an inductor is 100...

Question 36

Two heaters are plugged into the same 120-V AC outlet. If one heater is rated at
1100 W, then what can be the maximum rating of the second heater in order not to exceed the 20 A trip rating on the circuit?

A) 1100 W
B) 1300 W
C) 1200 W
D) 2400 W
E) 920 W

Accepted Answer

The answer of Two heaters are plugged into the same...

Question 37

What is the resistance of a regular 75-W light bulb connected to a 120-V AC outlet? A) 190 $\Omega$ B) 1.6 $\Omega$ C) 0.62 $\Omega$ D) 5.2 *10^-3 $\Omega$ E) 270 $\Omega$

Accepted Answer

The answer of What is the resistance of a regular...

Question 38

For a capACitor, the&#10;A) voltage lags behind the current.&#10;B) current lags behind the voltage.&#10;C) current and the voltage are in phase.&#10;D) current-voltage phase angle is greater than 90&#186;.&#10;E) current-voltage phase angle is less than 90&#186;.

Accepted Answer

The answer of For a capACitor, the&#10;A) voltage lags behind...

Question 39

In the U.K. the power companies supply an rms voltage of 240 V to most home outlets. If you were to try and use your standard U.S. rated 1200-W (at 120-V) hair dryer in the U.K. without using a transformer, what would be the average power supplied to the hair dryer?

A) 1200 W
B) 2400 W
C) 4800 W
D) 600 W
E) None of the above

Accepted Answer

The answer of In the U.K. the power companies supply...

Question 40

Which of the following statements about an inductor that is connected to an AC voltage is true?&#10;A) The average power dissipated by the inductor is zero.&#10;B) At low frequencies the inductor behaves like a short circuit.&#10;C) At high frequencies the inductor behaves like an open short circuit.&#10;D) The back EMF produced by the inductor is the maximum when the voltage is at zero part of the cycle.&#10;E) All the above statements are true.

Accepted Answer

The answer of Which of the following statements about an...

Question 41

You place a 50-mH inductor across an AC generator that has a maximum EMF of 120 V. The inductive reactance when the frequency is 60 Hz is approximately&#10;A) 3.0 $\Omega$&#10;B) 0.31 $\Omega$&#10;C) 6.0 $\Omega$&#10;D) 47$\Omega$&#10;E) 19 $\Omega$

Accepted Answer

The answer of You place a 50-mH inductor across an...

Question 42

Use the following figure to answer the next problem:
The diagram that correctly represents the phase relationship between the current through the resistor and the voltage across the inductor in a circuit containing an inductor L, a capacitor C, and a resistor R all connected in series is

A) 1
B) 2
C) 3
D) 4
E) 5

Accepted Answer

The answer of Use the following figure to answer the...

Question 43

Use the following figure for the next three problems.  &#10;&#10;-At t = 0.25 s, the power input is approximately&#10;A) -2.5 W&#10;B) 2.5 W&#10;C)-10 W&#10;D) 10 W&#10;E) zero

Accepted Answer

The answer of Use the following figure for the next...

Question 44

If you double the frequency in the circuit shown, the inductive reactance of the inductor&#10;A) increases by a factor of 2.&#10;B) does not change.&#10;C) decreases by a factor of 2.&#10;D) increases by a factor of 4.&#10;E) decreases by a factor of 4.

Accepted Answer

The answer of   If you double the frequency...

Question 45

The diagram that correctly represents the phase relationship between the voltage across the resistor and the voltage across the capacitor in a circuit containing an inductor L, a capacitor C, and a resistor R all connected in series is

A) 1
B) 2
C) 3
D) 4
E) 5

Accepted Answer

The answer of   The diagram that correctly represents...

Question 46

If you place a 40.0-$\mu$F capacitor across a generator that has a maximum EMF of 120 V, the capacitive reactance when the frequency is 60 Hz is approximately&#10;A) 1.5$\Omega$&#10;B) 66$\Omega$&#10;C) 0.38 k$\Omega$&#10;D) 19 $\Omega$&#10;E) 0.13 k$\Omega$

Accepted Answer

The answer of If you place a 40.0-$\mu$F capacitor across...

Question 47

An inductor is placed across an AC generator that has a maximum EMF of 170 V. For a frequency of 3000 Hz, the rms current through the inductor is 5.0 A. Find the value of the inductor. A) 8.0 * 10^-3 H B) 9.2 * 10^-4 H C) 1.8*10^-3 H D) 1.3 * 10^-3 H E) 5.6 * 10^-3 H

Accepted Answer

The answer of An inductor is placed across an AC...

Question 48

The diagram that correctly represents the phase relationship between the voltage across the resistor and the voltage across the capacitor in a circuit containing an inductor L, a capacitor C, and a resistor R all connected in series is

A) 1
B) 2
C) 3
D) 4
E) 5

Accepted Answer

The answer of   The diagram that correctly represents...

Question 49

A capacitor is placed across an AC generator that has a maximum EMF of 170 V. For a frequency of 3000 Hz, the maximum current through the capacitor is 12 A. Find the value of the capacitor. A) 2.4 * 10^-5 F B) 2.6 *10^-6 F C) 1.8 * 10^-5 F D) 3.7 * 10^-6 F E) 5.6* 10^-6 F

Accepted Answer

The answer of A capacitor is placed across an AC...

Question 50

At what frequency would the reactance of a 100-pF capactor be 1000 $\Omega$?&#10;A) 3.18 MHz&#10;B) 15.9 MHz&#10;C) 1.59 MHz&#10;D) 3.98 MHz&#10;E) 2.54 Mhz

Accepted Answer

The answer of At what frequency would the reactance of...

Question 51

At what frequency would the reactance of a 10-&#181;F capacitor be 100 $\Omega$&#10;A) 318 Hz&#10;B) 159 Hz&#10;C) 79.6 Hz&#10;D) 39.8 Hz&#10;E) 25.4 Hz

Accepted Answer

The answer of At what frequency would the reactance of...

Question 52

You place a 50-mH inductor across an AC generator that has a maximum EMF of 120 V. The inductive reactance when the frequency is 2.0 kHz is approximately&#10;A) 0.63 k$\Omega$&#10;B) 13 k$\Omega$&#10;C) 0.60 k$\Omega$&#10;D) 47 $\Omega$&#10;E) 19 $\Omega$

Accepted Answer

The answer of You place a 50-mH inductor across an...

Question 53

An inductor with inductance L = 10 mH is connected to a power supply which provides a current I = 5 mA sin  $ \omega $t. The maximum back EMF is&#10;A) 5 mV&#10;B) 10 mV&#10;C) 25 $\mu$V&#10;D) 50 $\mu$V&#10;E) 0 V

Accepted Answer

The answer of An inductor with inductance L = 10...

Question 54

If you double the frequency in the circuit shown, the capacitative reactance of the circuit&#10;A) increases by a factor of 2.&#10;B) does not change.&#10;C) decreases by a factor of 2.&#10;D) increases by a factor of 4.&#10;E) decreases by a factor of 4.

Accepted Answer

The answer of   If you double the frequency...

Question 55

Use the following figure for the next three problems.  &#10;The power dissipated per cycle is&#10;A) 2 W&#10;B) 4 W&#10;C) 6 W&#10;D) 8 W&#10;E) zero

Accepted Answer

The answer of Use the following figure for the next...

Question 56

Use the following figure for the next three problems.  &#10;The figure shows the voltage and current for a(n)&#10;A) inductor.&#10;B) capacitor.&#10;C) resistor.&#10;D) inductor and capacitor.&#10;E) inductor and resistor.

Accepted Answer

The answer of Use the following figure for the next...

Question 57

Which of the following statements about a capacitor that is connected to an AC voltage is true?&#10;A) The average power dissipated by the capacitor is zero.&#10;B) At low frequencies the capacitor behaves like an open circuit.&#10;C) At high frequencies the capacitor behaves like a short circuit.&#10;D) At any given instant the net charges on the capacitor is zero.&#10;E) All the above statements are true.

Accepted Answer

The answer of Which of the following statements about a...

Question 58

At what frequency is the reactance of a 2-mH inductor equal to the reactance of a 100-pF capacitor? A) 2.2* 10⁶ Hz B) 1.3 *10¹¹ Hz C) 3.6 *10⁵ Hz D) 600 Hz E) none of the above

Accepted Answer

The answer of At what frequency is the reactance of...

Question 59

If you double the frequency in the circuit shown, the inductance of the inductor&#10;A) increases by a factor of 2&#10;B) does not change&#10;C) decreases by a factor of 2&#10;D) increases by a factor of 4&#10;E) decreases by a factor of 4

Accepted Answer

The answer of   If you double the frequency...

Question 60

At what frequency would the reactance of a 1.0-mH inductor be twice that of a 10-$\mu$F capacitor?&#10;A) 10 kHz&#10;B) 3.2 kHz&#10;C) 2.2 kHz&#10;D) 1.6 kHz&#10;E) 1.1 kHz

Accepted Answer

The answer of At what frequency would the reactance of...

Question 61

A 5-&#181;F capacitor is charged to 30 V and is then connected across a 10-&#181;H inductor. The maximum current in this circuit after a long time has passed will be&#10;A) 0&#10;B) 8.83 A&#10;C) 15.4 A&#10;D) 21.2 A&#10;E) some value that cannot be determined from the given information.

Accepted Answer

The answer of A 5-&#181;F capacitor is charged to 30...

Question 62

A 5-&#181;F capacitor is charged to 30 V and is then connected in series with a 10-&#181;H inductor and a 50-$\Omega$resistor. The potential difference across the capacitor after a long time has passed will be&#10;A) 0&#10;B) 7 V&#10;C) 15 V&#10;D) 30 V&#10;E) some value that cannot be determined from the given information.

Accepted Answer

The answer of A 5-&#181;F capacitor is charged to 30...

Question 63

Use the following figure to answer the next problem:
The diagram that correctly represents the phase relationship between the current through the resistor and the voltage across the inductor in a circuit containing an inductor L, a capacitor C, and a resistor R all connected in series is

A) 1
B) 2
C) 3
D) 4
E) 5

Accepted Answer

The answer of Use the following figure to answer the...

Question 64

Use the following figure to answer the next problem:
The diagram that correctly represents the phase relationship between the current through the resistor and the voltage across the inductor in a circuit containing an inductor L, a capacitor C, and a resistor R all connected in series is

A) 1
B) 2
C) 3
D) 4
E) 5

Accepted Answer

The answer of Use the following figure to answer the...

Deck 9: Alternating-Current Circuits