Electronices Sample Questions : Q8 A circuit has a
resistance of 11 W, a coil of inductive reactance 120 W, and a capacitor with a
120W reactance, all connected in series with a 110V, 60Hz power source. What
is the potential difference across each circuit element?
A) (a) VR = 110 V, (b) VL = VC = 1.2 Kv
B) (a) VR = 120 V, (b) VL = VC = 2.4 kV
C) (a) VR = 4.8 V, (b) VL = VC = 0 kV
D) (a) VR = 5.0 V, (b) VL = VC = 8.0 V
Q2 Applying DeMorgan's theorem to the expression , we get
A) (A+B)+C
B) A(B + C)
C) Both A & B
D) None of above
Q4 Refer Below figure to Determine the resonant frequency…
A) 123.4 kHz
B) 61.7 kHz
C) 45.97 kHz
D) 23.1 kHz
Q4 Express the decimal number 57 in binary.
A) 100101
B) 111010
C) 110010
D) 111001
Q5 A vertical electric dipole antenna
a) radiates uniformly in all directions.
b) radiates uniformly in all horizontal directions, but more strongly in the
vertical direction.
c) radiates most strongly and uniformly in the horizontal directions
d) does not radiate in the horizontal directions
Q6 A particle oscillates according to the equation y=5.0 cos 23 t,
where y is in centimeters. Find its frequency of oscillation and its position at
t=0.15 s.
a) f = 23 Hz, y = 4.8 cm
B) f = 3.7 Hz, y = 5.0 cm
C) f = 3.7 Hz, y = 4.8 cm
D) f = 3.7 Hz, y = +4.8 cm
Q7 A 10.0µF capacitor is in series with a 40.0W resistance, and the
combination is connected to a 110V, 60.0Hz line. Calculate (a) the capacitive
reactance, (b) the impedance of the circuit, (c) the current in the circuit, (d)
the phase angle between current and supply voltage
A) (a) 0.0038W (b) 305W (c) 0.415 A (d) voltage lags by 8.58°
B) (a) 266W (b) 269W (c) 0.409 A (d) voltage lags by 81.4°
C) (a) 16 kW (b) 72 kW (c) 2.75 A (d) voltage lags by 6.63°
D) (a) 2.6 kW (b) 262W (c) 0.256 MA (d) voltage leads by 81.4°
Q8 A circuit has a resistance of 11 W, a coil of inductive reactance
120 W, and a capacitor with a 120W reactance, all connected in series with a
110V, 60Hz power source. What is the potential difference across each circuit
element?
A) (a) VR = 110 V, (b) VL = VC = 1.2 Kv
B) (a) VR = 120 V, (b) VL = VC = 2.4 kV
C) (a) VR = 4.8 V, (b) VL = VC = 0 kV
D) (a) VR = 5.0 V, (b) VL = VC = 8.0 V
Q9 What is the primary function of multiplexing?
A ) To match the frequency range of a signal to a particular channel.
B ) To reduce the bandwidth of a signal.
C ) To select one radio channel from a wide range of transmitted channels.
D ) To allow a number of signals to make use of a single communications channel.
Q10 A second step to further increase system capacity is a digital
access method called TDMA (Time Division Multiple Access). Using the same
frequency channelization and reuse as FDMA analog but adding a time sharing
element, the effective capacity is:
A) Doubled
B) Tripled
C) Reduced by one third
D) Unchanged
Q11 What are PseudoRandom noise sequences, or P/N Sequences?
A) P/N Sequences are known sequences which exhibit the properties or
chracteristics of random sequences
B) P/N Sequences can be used to logically isolate users on the same physical
(frequency) channel
C) P/N Sequences appear as random noise to everyone else, except to the
transmitter and intended receiver
D) All of the above
Q12 An opamp integrator has a squarewave input. The output should
be
A ) a sine wave.
B) a triangle wave
C) a square wave.
D) pure DC.
Q13 What is the relationship between the series and parallel resonant
frequencies of a quartz crystal?
A) They are equal.
B) Parallel resonant frequency is approximately 1 kHz higher than series
resonant frequency
C) Series resonant frequency is approximately 1 kHz higher than parallel
resonant frequency.
D) none of the above
Q14 Refer Below figure to Determine the resonant frequency…
A) 123.4 kHz
B) 61.7 kHz
C) 45.97 kHz
D) 23.1 kHz
Q15 Which FET amplifier(s) has (have) a phase inversion between input
and output signals?
A) commongate
B) commondrain
C) commonsource
D) all of the above
