Deck 32: Alternating Current Circuits

A) leads the voltage across the resistor.
B) lags the voltage across the resistor.
C) is in phase with the voltage across the resistor.
D) does none of the above.

A) $\sqrt { 3 }$
B) $\sqrt { 2 }$
C) $1 / \sqrt { 2 }$
D) $1 / 2$

A) $\sqrt { 2 }$
B) 2.
C) 1/2.
D) 1/ $\sqrt { 2 }$

A) $V _ { \max } ^ { 2 } / R$
B) $V _ { m / s } ^ { 2 } / ( 2 R )$
C) $V _ { \max } ^ { 2 } / ( 3 R )$
D) $V _ { r m s } ^ { 2 } / R$

A) 400 W.
B) 800 W.
C) 200 W.
D) 100 W.

A) $C + V Q = 0$
B) $V - C Q = 0$
C) $V + C Q = 0$
D) $V C - Q = 0$

A) 1 $\Omega$
B) 2 $\Omega$
C) 3 $\Omega$
D) 4 $\Omega$

A) the current leads the voltage by $\pi / 2$
B) the current lags the voltage by $\pi$
C) the current leads the voltage by $\pi$
D) the current lags the voltage by $\pi / 2$

A) the current leads the voltage by $\pi / 2$
B) the current lags the voltage by $\pi$
C) the current leads the voltage by $\pi$
D) the current lags the voltage by $\pi / 2$

A) 22 A.
B) 77 mA.
C) 13 A.
D) 5.2 A.

A) $d I / d t = V / L$
B) $d V / d t = I / L$
C) $d V / d t = L / I$
D) $d I / d t = L / V$

A) 0.04 $\Omega$
B) 25 $\Omega$
C) 12 $\Omega$
D) 7.5 $\Omega$

A) 1.5 A.
B) 6.8 A.
C) 510 mA.
D) 150 mA.

A) 210 Hz.
B) 120 Hz.
C) 36 Hz.
D) 82 Hz.

A) 0.16 Hz.
B) 1 Hz.
C) 1.2 Hz.
D) 1.4 Hz.

A) 120.
B)6/5.
C) 100
D)infinite.

A) 34º.
B) 82º.
C) 22º.
D) 56º.

A) 45º.
B) 90º.
C) 0º.
D) 135º.

A) 26 $\Omega$
B) 12 $\Omega$
C) 23 $\Omega$
D) 21 $\Omega$

A) 16 $\Omega$
B) 12 $\Omega$
C) 18 $\Omega$
D) 20 $\Omega$

A) 62 VAC.
B) 92 VAC.
C) 230 VAC.
D) 180 VAC.

A) 2.6 A.
B) 9.7 A.
C) 3.5 A.
D) 7.8 A.

A) voltage.
B) power.
C) current.
D) resistance.

A) resistance.
B) voltage.
C) current.
D) both (a) and (c).

A) Corona discharge
B) Joule heating
C) Melting point of conductor
D) Latent heat of fusion of conductor

A) a step-up transformer.
B) a step-down transformer.
C) an ideal transformer.
D) a nonideal transformer.

A) power is stepped down.
B) voltage is stepped up.
C) power is stepped up.
D) power remains constant.

A) for a given AC current, the AC voltage increases.
B) for a given AC power, the AC current decreases.
C) for a given AC voltage, the AC current decreases.
D) for a given AC voltage, the AC power increases.

A) both large.
B) large and small, respectively.
C) small and large, respectively.
D) both small.

A) current leads the voltage by 90°.
B) voltage leads the current by 90°.
C) Either response might be correct, depending on further details.
D) The voltage and current are in phase.

A) the current.
B) the time integral of the current.
C) the time derivative of the current.
D) none of the above.

A) a capacitor.
B) an inductor.
C) a resistor.
D) any of the above.

A) (LC) $1 / 2$
B) (L/C) $1 / 2$
C) (C/L) $1 / 2$
D) (1/LC) $1 / 2$

A) C $\propto$ k and L $\propto$ m.
B) C $\propto$ 1/k and L $\propto$ m.
C) C $\propto$ m and L $\propto$ 1/k.
D) C $\propto$ 1/m and L $\propto$ 1/k.

A) inductor.
B) capacitor.
C) Either of the previous responses is valid.
D) None of the previous responses is valid.

A) L/R.
B) RC.
C) R/L.
D) L/C.

A) is increased.
B) is decreased.
C) remains unchanged.
D) Insufficient information is given for a response.

A) capacitance.
B) inductance.
C) resistance.
D) There are no exceptions.

A) its components have very precise values.
B) its resonant curve has a steep slope.
C) it is well shielded from stray electromagnetic fields.
D) its components are very durable.

A) interpret P as average power.
B) interpret I as rms current.
C) The first two answers are valid and sufficient.
D) Both of the first two answers are necessary, but they are not sufficient.

A) interpret P as average power.
B) interpret I as rms current.
C) Both of the first two answers are necessary and sufficient.
D) Both of the first two answers are necessary, but they are not sufficient.

A) V_rms = V_peak.
B) V_rms = V_peak/ $\sqrt { 2 }$ .
C) V_rms = V_peak/2.
D) V_rms = V_peak/4.

A) second/farad.
B) henry/second.
C) volt/amp.
D) There are no exceptions.

A) current and current.
B) current and voltage.
C) voltage and current.
D) voltage and voltage.

A) currents add, and for elements in parallel currents add.
B) currents add, and for elements in parallel voltages add.
C) voltages add, and for elements in parallel currents add.
D) voltages add, and for elements in parallel voltages add.

A) voltage cannot exceed the input voltage.
B) current cannot exceed the input current.
C) power cannot exceed the input power.
D) Each of the previous responses is valid.

A) sin $\theta$ .
B) cos $\theta$
C) tan $\theta$
D) cot $\theta$

A) the voltage and current in the capacitor.
B) the voltage and current in the inductor.
C) the voltage and current in the resistor.
D) All of the previous responses are valid.

A) greater than 90°.
B) exactly 90°.
C) less than 90°.
D) exactly 0°.