for youtube video visit link https://youtu.be/eq5UnA1e17E Single phase AC circuits is most basic and important portion topic for GATE,IES,PSU,SSC,and different state level examinations.which covers following topics.1-Phase AC Circuits,AC & DC SIGNALS,Differentiate AC vs DC signal,PROPERTIES OF AC SIGNALS,peak value and peak to peak value,average value,R.M.S. value,instantaneous value,form factor,peak factor,WAVEFORM ANALYSIS OF AC SIGNAL,advantages of sinusoidal waveform,cycle, time periods and frequency,Phasor,Differentiate between Active, Reactive and Apparent Power,power triangle ,MCQ FOR PRACTICES,unilateral circuit ,bilateral circuit , irreversible circuit , reversible circuit series with each other , parallel with each other , series with the voltage source., parallel with the voltage source ,linear network , non-linear network , passive network , active network # Previous videos in channel for learning https://youtu.be/NSdIbrxIE74 # Network Analysis Part 1 https://youtu.be/UWSHxL8Daro # Network Analysis Part 2 https://youtu.be/fPzCrnBlsIA AC motors Comparision https://youtu.be/Nwo8IfNdQZA Wound Rotor and squirrel cage rotor https://youtu.be/Y_WoddRiVSE What is electrical Machine https://youtu.be/N4xWOwgi8I4 Overview of Power plants https://youtu.be/kPWElNXvxGs How to Study for success https://youtu.be/A_L1lI3zOsc Why unemployment of Indian engineers https://youtu.be/pdLe1Z4RRGs Why I do engineering https://youtu.be/DTtRl1t2DaM

1. GATE/IES/
PSU-2020
RRB/SSC(AE/
JE/SSE)
WITH MCQ
NETWORK
ANALYSIS
PART-3
TECHNICAL INTERVIEW

2. 1-Phase AC
Circuits
AC & DC SIGNALS

3. Q.Define AC signal. Differentiate AC vs DC signal.
Ans. The difference between AC and DC lies in the direction in which
the electrons flow. In DC, the electrons flow steadily in a single
direction, or "forward." In AC, electrons keep switching directions,
sometimes going "forward" and then going "backward."
Amount of energy that
can be carried
Safe to transfer over longer
city distances and can provide
more power.
Voltage of DC cannot travel
very far until it begins to
lose energy.
Compariso
n
DC
AC PULSATING DC

4. Frequency The frequency of alternating
current is 50Hz or 60Hz
depending upon the country.
The frequency of direct
current is zero.
Direction It reverses its direction while
flowing in a circuit.
It flows in one direction
in the circuit.
Obtained from A.C Generator and mains. Cell or Battery.
Passive
Parameters
Impedance. Resistance only
Power Factor Lies between 0 & 1. it is always 1.
Types Sinusoidal, Trapezoidal,
Triangular, Square.
Pure and pulsating.

5. PROPERTIES OF AC
SIGNALS

6. Q. What are peak value and peak to peak value?
Ans. The peak value of the sine wave during positive or negative half only.
The sum of positive and negative value is called a peak to peak value. The
peak to peak value of a sinusoidal alternating voltage is equal to two times
the peak value.
PeaktoPeakvalue
Peak Value

7. Q. What is average value?
Ans. It is defined as area under one half cycle to period. The
average value of the sine wave is the total area under the half-
cycle curve divided by the distance of the curve.
 Divide the positive half cycle into (n)
number of equal parts as shown in the
above figure
 Let i1, i2, i3…….. in be the mid ordinates
 The Average value of current
Iav = mean of the mid ordinates

8. Q. Define R.M.S. value.
Ans. The root mean square value may be determined by taking the
mean of the squares of the instantaneous value of current over
cycle.

9. Q. What is instantaneous value?
Ans. The value of an alternating
current, at any particular moment
is called its instantaneous value.
Q. Define form factor.
Ans. The ratio of RMS value to the average value is called
the Form factor.
𝐹𝐹 =
𝑅𝑀𝑆 𝑉𝑎𝑙𝑢𝑒(𝐸𝑓𝑓𝑒𝑐𝑡𝑖𝑣𝑒 𝑉𝑎𝑙𝑢𝑒)
𝐴𝑣𝑒𝑟𝑎𝑔𝑒 𝑉𝑎𝑙𝑢𝑒(𝑀𝑒𝑎𝑛 𝑉𝑎𝑙𝑢𝑒)

10. Q .Define peak factor.
Ans. Peak factor is defined as the ratio of the maximum value to
the rms value.
Peak Factor For,
Pure Sine Full wave=√2=1.414
Half Wave Sine Wave =2.0
Rectangular wave = 1
Triangular Wave= √3
𝑃𝐹 =
𝑀𝑎𝑥𝑖𝑚𝑢𝑚 𝑣𝑎𝑙𝑢𝑒
𝑅𝑀𝑆 𝑉𝑎𝑙𝑢𝑒
Form Factor For,
Pure Sine Full wave=1.11
Half Wave Sine Wave =1.57
Rectangular wave = 1
Triangular Wave= 1.16

11. WAVEFORM ANALYSIS
OF AC SIGNAL

12. Q. Write few advantages of sinusoidal waveform?
Ans. 1. The response of the sinusoidal input for second order
system is sinusoidal.
2. The wave form can be written in terms of sinusoidal function
according to Fourier theorem.
3. The derivatives and integral also sinusoidal.
4. Easy for analyses.
5. Easy to generate.

13. Q. Distinguish between a cycle, time periods and frequency.
Ans. Cycle-One complete set of positive and negative instantaneous
values of the voltage or current.
Time Period -The time taken by an alternating quantity to complete
one cycle is called time period (T). (T) = 2π/W
Frequency- The number of cycle that a alternating quantity
completed per second is known as frequency. t is measured in HZ.
Frequency
(f) = 1/T

14. Q. Define Phasor.
Ans. Graphical representation of phase-angle is known as
Phasor.
Q. Define phase angle.
Ans. The phase angle is the difference in phase between the
voltage and the current in an AC circuit, its associated with the
impedance Z of the circuit.

15. Power in ac circuits

16. Q. Differentiate between Active, Reactive and Apparent Power?
Ans: Apparent Power-The product of rms value of voltage and
current.
Active/Real/True/Wattfull Power= The product of rms value of
voltage & Active component of current.
 Product of Apparent power and power factor.KW which is also
written ad Kilo-Watt is the real power that is actually converted
to the useful work.
Reactive Power/Wattless Power=The product of rms value of
voltage & Reactive component of current.
 KVAR is also termed as Kilo-Volt Reactive this power is used for magnetic
field excitation and flows back and forth between source and load.
S=VI (Volt Ampere) or VA
P=V* I COSФ (Watt)
P=VI*COSФ=S* COSФ
Q=V* I SINФ (VAR)

17. Active power P=V* I COSФ (Watt)
ReactivePowerQ=V*ISINФ
Ф
Apparent Power=Real Power+jReactive Power
S=P+jQ
𝑆2 = 𝑃2 + 𝑄2
Q. What is power triangle ?
Ans. A commonly employed graphical representation of complex
power is known as the power triangle.
𝑆2
= 𝑃2
+ 𝑄2

18. MCQ FOR PRACTICES

19. Q. The circuit whose properties are same in either direction is
known as
(a) unilateral circuit
(b) bilateral circuit
(c) irreversible circuit
(d) reversible circuit
Ans: b
Q. In a series parallel circuit, any two resistances in the same current
path must be in
(a) series with each other
(b) parallel with each other
(c) series with the voltage source.’
(d) parallel with the voltage source
Ans: a

20. Q. The circuit has resistors, capacitors and semi-conductor diodes.
The circuit will be known as
(a) non-linear circuit
(b) linear circuit
(c) bilateral circuit
(d) none of the above
Ans: a
Q. A non-linear network does not satisfy
(a) superposition condition
(b) homogeneity condition
(c) both homogeneity as well as superposition condition
(d) homogeneity, superposition and associative condition
Ans: c

21. Q. An ideal voltage source has
(a) zero internal resistance
(b) open circuit voltage equal to the voltage on full load
(c) terminal voltage in proportion to current
(d) terminal voltage in proportion to load
Ans: a
Q. A network which contains one or more than one source of e.m.f.
is known as
(a) linear network
(b) non-linear network
(c) passive network
(d) active network
Ans: d

22. Q. Ohm’s law is not applicable to
(a) semi-conductors
(b) D.C. circuits
(c) small resistors
(d) high currents
Ans: a
Q. An open resistor, when checked with an ohm-meter reads
(a) zero
(b) infinite
(c) high but within tolerance
(d) low but not zero
Ans: b

23. Q. All good conductors have high
(a) conductance
(b) resistance
(c) reluctance
(d) thermal conductivity
Ans: a
Q. Voltage dependent resistors are usually made from
(a) charcoal
(b) silicon carbide
(c) nichrome
(d) graphite
Ans: c