Q2) Calculate the capacitor and inductor reactance ( X ) magnitudes for the following frequency ( f ) values when the capacitance is C = 20 uF, and inductance is L = 20 uH; (2 points each)

A) f = 60 Hz XC = XL =

B) f = 2 kHz XC = XL =

C) f = 60 kHz XC = , XL =

D) f = 2 MHz XC = , XL =

Q3) Calculate the capacitor and inductor reactance ( X ) magnitudes for the following frequency ( f ) values when the capacitance is C = 20 nF, and inductance is L = 20 mH; (2 points each)

A) f = 60 Hz XC = , XL =

B) f = 2 kHz XC = , XL =

C) f = 60 kHz XC = , XL =

D) f = 2 MHz XC = , XL =

Q4) Calculate the capacitor and inductor reactance ( X ) magnitudes for the following frequency ( f ) values when the capacitance is C = 20 pF, and inductance is L = 20 H; (2 points each)

A) f = 60 Hz XC = , XL =

B) f = 2 kHz XC = , XL =

C) f = 60 kHz XC = , XL =

D) f = 2 MHz XC = , XL =

Q5) A capacitor connected to a circuit with an applied DC voltage can be considered a(n)

A) Open circuit.

B) Short circuit.

C) neither.

D) Depends on the applied voltage frequency.

Q6) An inductor connected to a circuit with an applied DC voltage can be considered a(n) .

A) Open circuit.

B) Short circuit.

C) neither.

D) Depends on the applied voltage frequency.

Q7) When the value of a resistor or reactance is zero the component can be considered a(n)

A) Open circuit.

B) Short circuit.

C) Depends if the applied voltage is AC or DC.