SSC JE 2015 Electrical question paper with solution and Explanation | MES Electrical
Ques 1. How much energy is stored in a 100 mH inductance when a current of 1A is flowing through it?
5.0 J
0.05
0.5 J
0.005 J✔
The energy stored in the magnetic field of an inductor can be expressed as
E = 1/2L I2
where
E = energy stored (joules, J)
L = inductance (henrys, H)
I = current (amps, A)
1/2(100 × 10-3 × 1)
50 × 10-3 J
0.05 J
Ques 2. For the circuit shown below, find the resistance between points P & Q
1 Ω✔
2 Ω
3 Ω
4 Ω
Ques 3. The rate of change of current in a 4 H inductor is 2 Amps/sec. Find the voltage across an inductor
8 V ✔
16 V
2 V
0.8 V
Here L = 4H and di/dt = 2 A
Hence voltage Across inductor
= V = L(di/dt)
= 4 x 2 = 8 V
Ques 4. Find the node voltage VA
6 V ✔
5.66 V
6.66 V
5 V
Ques 5. In a pure inductive circuit if the supply frequency is reduced to half the current will?
Be four times as high
Be doubled
Be reduced to half
Be reduced to one fourth
The amplitude of the current in a pure inductive circuit is given by
Im = Vm/ωl
And ω = 2πf
Im = Vm/2πfl
Im ∝ 1/f
Hence, when the frequency is halved, the amplitude of the current is doubled in a pure inductive circuit.
Ques 6. A 10 pole 25 Hz alternator is directly coupled to and is driven by a 60 Hz synchronous motor then the number of poles in a synchronous motor is?
24 poles ✔
48 poles
12 Poles
None of the above
Number of poles of alternator Pa = 10
F = 25 Hz (alternator)
F = 60 Hz (motor)
Then the number of poles of motor Pm =?
Since the synchronous motor is directly coupled hence
Synchronous speed of an alternator = Synchronous speed of the motor
(120 x 25)/10 = (120 x 60)/ Pm
Pm = 24
Ques 7. When a source is delivering maximum power to the load the efficiency will be?
Below 50 %
Above 50%
50 %✔
Maximum
Maximum Power Transfer theorem
The maximum power is transferred when the load resistance RL is equal to internal resistance Rth or the equivalent resistance Rth.
RL = Rth
Under this condition, the same amount of power is dissipated in the internal resistance Rth and hence the efficiency is 50%.
Ques 8. In the Maxwell Bridge as shown in the figure below the value of resistance Rx and inductance Lx of a coil is to be calculated after balancing the bridge. The component value is shown in the figure at balance the value of Rx and Lx will respectively be
37.5 ohms, 75 mH
75 ohm, 75 mH
375 ohm, 75 mH ✔
75 ohm, 150 mH
A Maxwell bridge is a modification to a Wheatstone bridge used to measure an unknown inductance (usually of low Q value) in terms of calibrated resistance and inductance or resistance and capacitance.
The balanced condition for Maxwell bridge is given as
Z1Z4 = Z2Z3
Here Z1 = Rx + jωLx
Z2 = 200Ω
Z3 = 750Ω
Z4 = R4 ||(1/ωC4)
Ques 9. The internal resistance of a voltage source is 10 ohm and has 10 volts and its terminals. Find the maximum power that can be transferred to the load
25 W
5 W
0.25 W
2.5 W ✔
For maximum power to be transferred from a source to a load resistance, the value of load resistance should be equal to the internal resistance of the source.
RL = R = 10Ω
current through the circuit = 10/(10+10) = 0.5 A
power transferred = I2R = 0.25 x 10 = 2.5 W
Ques 10. As the load is increased the speed of the DC shunt motor is
Remain constant
Increase Proportionately
Reduces Slightly✔
Increase Slightly
For a dc shunt motor. field current is practically constant and thus the torque is directly proportional to the armature current. Hence the torque-armature current characteristic is a straight line passing through the origin. However, due to the armature reaction under the loaded conditions of the machine. the flux decreases slightly with the load.
Since flux is practically constant for DC shunt motor. The speed of the DC shunt motor is
N = K (V – IaRa)
Armature current increases as the load on the motor are increased. Thus, the speed of the dc shunt motor will fall slightly with the armature current. As the speed characteristic is only slightly drooping, the dc shunt motor is normally regarded as a constant speed motor.
Sir,
If you have uee and basic electronics Notes or materials.
Please send me sir.
deepak
sir ans no 83 is worng plss correct it
admin
Ans no 83 is right deepak …can you please explain us why the answer is wrong
Chetangusain
10 As flux ɸ is assumed to be constant, we can say N ∝ Eb. But, as back emf is also almost constant, the speed should remain constant. But practically, ɸ as well as Eb decreases with increase in load. Back emf Eb decreases slightly more than ɸ, therefore, the speed decreases slightly. Generally, the speed decreases only by 5 to 15% of full load speed. Therefore, a shunt motor can be assumed as a constant speed motor.
So as per explanation…… option C be ho Sakte h”.
admin
Your explanation is absolutely right I explained the speed of DC shunt motor working in normal operating condition.
My fault!! thanks
Very nice .This is Very Help full. Are your apps for this?
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Sir 22nd ques ka explanation plz??
Check your Gmail inbox swati
Sir, can please mail the answer to me too.
Check your mail Shreyas
Sir pls explain 22question
Check your mailbox Chetan Gusain
Sir,
If you have uee and basic electronics Notes or materials.
Please send me sir.
sir ans no 83 is worng plss correct it
Ans no 83 is right deepak …can you please explain us why the answer is wrong
10 As flux ɸ is assumed to be constant, we can say N ∝ Eb. But, as back emf is also almost constant, the speed should remain constant. But practically, ɸ as well as Eb decreases with increase in load. Back emf Eb decreases slightly more than ɸ, therefore, the speed decreases slightly. Generally, the speed decreases only by 5 to 15% of full load speed. Therefore, a shunt motor can be assumed as a constant speed motor.
So as per explanation…… option C be ho Sakte h”.
Your explanation is absolutely right I explained the speed of DC shunt motor working in normal operating condition.
My fault!! thanks