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There are two lines made by joining points A, B,C. B lies between the line joining A and C. Is the distance between the A and C passes through the B more then 7 Km.
I. The distance between A and B is 6 Km
II. Distance between B to C is 7 Km long,
We know the distance between Points B and C but we do not know about the distance between A and B
Statement II
This statement tells us about the distance between A and B and by using Both statement we can calculate the distance between A and C that is longer than the 7 Km.
Direction: In the given question, a word/phrase is given followed by three statements; I, II and III. Choose the pair of sentences which can be combined using the given word/ phrase when used at the beginning of the new sentence.
And
I: When Lionel Messi, Ronaldo and Neymar kick and dribble the football, they don’t remain confined to Argentina, Portugal or Brazil, respectively.
II: Let the entire world realise that through sports, especially football, we all can cement our bonds, wash away our bitterness and prejudices.
III: Live with a greater sense of closeness and joy with each other.
Here sentences II and III are displaying same sense that is realizing the benefit of football in our lives whereas sentence I is providing entirely different aspect of football as a sport.
Hence option (B) will be the most appropriate choice.
New sentence: Let the entire world realise that through sports, especially football, we all can cement our bonds, wash away our bitterness and prejudices, and live with a greater sense of closeness and joy with each other.
Which of the following is the MOST SIMILAR in meaning to Accreditation?
Certification = an official document attesting to a status or level of achievement.
Meticulous = showing great attention to detail; very careful and precise.
Lurid = very vividly shocking.
Suppressive = tending or acting to suppress.
Agreement = harmony or accordance in opinion or feeling.
Thus, option B is the correct answer.
In how many ways can you place 2 white bishops on an empty chess board?
Ways of doing that = ^{32}C_{1} * 32C1
= 32 × 32 = 1024
Direction: In the question below are given statements followed by some conclusions. You have to take the given statements to be true even if they seem to be at variance with commonly known facts. Read all the conclusions and then decide which of the given conclusions logically follows from the given statements disregarding commonly known facts.
Statement:
No physics is maths.
Some chemistry is maths.
All sciences are chemistry.
Conclusion:
I. No science is physics.
II. Some physics are science.
III. Some physics are chemistry.
Conclusions:
I. No science is physics → False (It is possible but not definite).
II. Some physics are science → False (It is possible but not definite)
III. Some physics are chemistry → False (It is possible but not definite)
Conclusion I and II form complementary pair.
Hence, either conclusion I or II follows.
Direction: Read the information carefully and give the answer of the following questions
(This pie chart shows the percentage of students appear in six different exams in 2016)
(This bar graph shows the percentage of failed students which appear in these six different exams in 2016)
If in 2016, total number of failed students in exam F was 4080, then how many passed students appears in the exam B?
14280 (Let total number of students be = 100z.
Total number of students appears in exam F
= 16% of 100z
= 16z;
Total number of failed students in exam F
= 30% of 16z
= 4.8z = 4080;
⇒ z = 850;
Total number of passed students appears in the exam B
= (100 – 30)% of 24% of 100z
= 16.8z = 16.8 × 850 = 14280
Direction: Two sentences with two blanks in each, followed by five alternatives with two words in each, are given. Choose that option as the answer which can fill both the blanks of both the sentences.
i. A sinking feeling of panic ________ over them and a temporary paralyzing fear engulfed them ________.
ii. Being a cleanliness freak, she ________ the floor and went down to the market only after the house was _________ clean.
‘Sweep’ is to clean (an area) by brushing away dirt or litter. It fits the first blank of the second sentence, as the subject is cleaning the floor. Further, ‘sweep over’ means to overcome or overwhelm, thus fits in the first blank of the first sentence. The second blank of both the sentences can be filled by "completely", thus conveying an appropriate sense. Thus, option D is the correct answer.
Direction: Five statements are given below, labelled 1, 2, 3, 4 and 5 which are supposed to be in a logical order. A statement labelled P is given thereafter. P can replace one of the five statements such that the four statements along with P would make a coherent paragraph. You have to identify which statement should P replace and then the find out the correct sequence from the options. If the five options are in logical order and form a coherent paragraph/passage, choose the fifth option “12345”.
1) The future of Germany’s coalition government is hanging in the balance after the country’s interior minister reportedly announced his intention to resign over a migration showdown with Angela Merkel.
2) Horst Seehofer, who is also leader of the Christian Social Union, on Sunday night offered to step down from his ministerial role and party leadership in a closeddoor meeting in which he and fellow CSU leaders had debated the merits of the migration deal Merkel hammered out with fellow European Union leaders in Brussels.
3) But with CSU hardliners believed to have tried to talk the combative interior minister into staying, a press conference was postponed until Monday, with Seehofer seeking to go back to Merkel in search of a final compromise.
4) At a 2am media conference, Seehofer said he had agreed to meet again with Merkel’s party before he made his decision final.
5) “We’ll have more talks today with the CDU in Berlin with the hope that we can come to an agreement,” Seehofer said.
P. Merkel said on Sunday she wanted the CDU and its Bavarian allies to continue working together.
The paragraph talks about the issues pertaining to the state of coalition government in Germany. The first sentence introduces the issue to us. The second sentence explains the problem. The third sentence then goes on to elaborate upon the meeting, and the fourth and fifth sentence talk about the current state and measures being taken. Thus, they are in perfect order. Sentence P is completely out of place here because CDU is not the subject of this paragraph and it does not matter what Merkel thinks they should do. Thus, D is the correct answer.
4 identical solid spheres are melted and reformed into a solid hemisphere. Then, the ratio of the curved surface area of the hemisphere to half of the surface area of a single sphere is 
Let radius of sphere be ‘r’ and radius of hemisphere be ‘R’.
Then,
ATQ,
Volume of Spheres = Volume of Hemisphere
4 x (4/3)πr^{3} = (2/3)πR^{3}
Or, R / r = (8)^{1/3} = 2 …(1)
C.S.A of hemisphere = 2πR^{2}
And, Surface area of sphere = 4πr^{2}
ATQ,
2πR^{2} :( ½) of 4πr^{2}
= 2πR^{2} :2πr^{2} = R^{2} :r^{2} {using (1)}
= 4 :1
A study of people who reduced the calories they consumed has found the strongest evidence yet that such restrictions slow down metabolism, raising hopes that a low calories lifestyle or treatments stimulating biological effects of restricted eating, could prolong health in old age. The report provides the most robust evidence to date that everything we have learnt in other animals can be applied to humans.
Which of the following argument will prove that the above conclusion is flawed?
The given passage gives the benefits of reducing calories to attain a healthier lifestyle and out of the given options, option B seems to give a contradictory fact stating that the lack of required calories may cause problems to the body. Hence, option B is correct.
The value of k such that the system of equation
x + ky + z = 0, x + 3y + kz = 0, 2x + y + z = 0 has nontrivial solution.
To find the value of K, we have to make rank of matrix less than unknown of the equation.
Apply R_{2} = R_{2}  R_{1}
R_{3} = R_{3}  2R_{1}
The frequency at the output of the following cascaded circuit is …………. Hz
Modulus of 4 bit ripple counter = 2^{N} = 2^{4} = 16
Modulus of 5bit Johnson counter = 2N = 2 × 5 = 10
Frequency at the output
A PCM (Pulse Code Modulation) system uses 8bit encoder and uniform quantization. What is the maximum bandwidth(in MHz) of the lowpass input message signal for which the bit rate of the system is 20Mbps?
We have,
Again, by Nyquist Criterion, f_{z} ≥ 2f
A super heterodyne receiver having RF amplifier is tuned to 1200 kHz, the intermediate frequency is 450 kHz. The quality factor of the tuned circuit at RF amplifier and at the mixer are same and is equal to 65. The image rejection ratio is
a = Image rejection ratio
[Turned circuit of same quality factor used ar two stages]
Therefore,
Simplify the given Boolean expression
A+AB'+AB'C'+AB'C'D'+AB'C'D'E'+…………………
We know A + 1 = 1 (Rule)
Now A.1 = A
If the skin depth is 60 µm at 3 MHz in a certain conducting medium then what will be the skin depth if the frequency is changed to 27 MHz?
From the expression we find that δ is inversely proportional to square root of frequency,
Find the Standing Wave Ratio of a transmission line of characteristic impedance 80Ω is connected to a load of 100Ω.
Voltage reflection ratio,
Standing Wave Ratio, SWR
Consider the following continuous time signal x(t)
If C_{k} is the complex Fourier series coefficient of signal x(t). Then the value of C_{2} will be
The circuit shown in the figure below is in steady state when switch is closed at t = 0, then the value of
i_{L}(0^{}) = 10/(9 + 1) = 10/10 = 1A
After t = 0^{+}
By Applying KVL in the loop
V_{L} + 1(1) = 0
V_{L} = 1
Characteristic equation of a system having unity feedback is
(s + 1)(s  2)+ k(s  3)(s + 4). The system is then which of the following?
For minimum phase system, all finite poles and zeroes are located in the left half of the splane. For a nonminimum phase system, one or more zeroes are located in the right half of the splane and remaining all zeroes and poles are located on the left half of the splane. For Allpass system, zeroes lies on the right half of the splane and poles lies on the left half of the splane and are symmetrical about the imaginary axis. Also, magnitude should be 1 and phase should be 180
Consider a spatial curve in 3D space given on parameters form by
X = t
Y = 1
Z = 3t/π in 0 ≤ t ≤ π. The length of the curve is
The modified work function of Nchannel MOSFET is 0.8V. The effective positive charge at the Semiconductor oxide layer interface is 9.8 x 10^{5} C/m^{2} and the oxide capacitance is 300 μF/ m^{2}, then calculate the flat band voltage.
The flat band voltage is given by
In the voltage controller circuit shown in the figure (assume that opamp is ideal). The BJT has V_{BE} = 0.7V & β is very large and V_{2} = 4.7V. For a regulated output of 9.4V, the value of R (in kΩ) is
Consider a lossless antenna with a directive gain of +6db. If 1mW of power is fed to it the total power radiated by the antenna will be
Input power to antenna = 1 mW
Power radiated by antenna = 4 mW
Thus,
Radiated power = 4 × 1 mW = 4 mW
Hence option (a) is correct.
The output voltage V_{o}(in mV) of the circuit shown in figure
For a given P^{+}  N Si junction diode with N_{D} = 10^{15} cm^{3} and _{ni} = 10^{10} cm^{3} and e = 8.85 × 10^{14} C^{2}/Ncm^{3}. Find the electric field at the midpoint of the depletion region on the nside. (let reverse bias voltage = 100V)
We have
Divergence is,
For the voltage amplifier circuit shown in the figure, A_{v} is very high. Also R_{S} = 1mΩ, R_{L} = 1kΩ R_{1} = 1 kΩ and R_{2} = 1mΩ
Then what is the value of V_{o}/V_{s} = ?
Hence option A is correct.
The value of d/dt x(t) at t = 1.5 for x(t) = u(t) + r(t)  2r(t  1) + r(t  2)  u(t  2) is
By adding all above signals we get x(t) as
by differentiation of x(t)
Consider an angle modulated signal X(t) = 10.cos [10^{8} πt + Sin 2π 10^{3}t]
The maximum frequency deviation is ________kHz?
θ(t) = 10^{8} πt + 5. Sin 2π10^{3}t
= ω_{c}t + ϕ (t)
∴ ϕ(t) = 5. sin 2π10^{3}t
∴ ϕ’ (t) = 10^{4}.π.cos 2π 10^{3} t
Maximum frequency deviation is
Δω =  ϕ’(t)max
= 2π (5000) rad/s
∴ ∆f_{max} = 5 kHz.
With G(s) = k/(s+3)^{5}. Find kmax for stability.
k =
Poles = 5
Zeros = 0
angle of asymptotes
For k = 0, 1, 2,…, (P − Z − 1)
∴ k = 0, 1, 2, 3, 4
∴ angles = 36º, 108º, 180º, 252º, 324º
Hence root locus is:
For the circuit using opamp 741 with unity gain frequency of 1 MHz. The overall 3 dB frequency is ____?
Hence option C is correct
Given that D = z⋅ρ cos^{2}ϕa_{2}c/m^{2}, Calculate the charge density at (1, π/4, 3) and then the total charge enclosed by the cylinder of radius 1m with −2 ≤ z ≤ 2m is?
=∂D_{z}/∂_{z }=ρ⋅cos^{2}ϕ
Now charge enclosed is
Hence option C is correct.
Let c be triangle path connecting the points (0, 0), (4, 4) and (0, 4) in the counter clock wise direction then,
Acc. to Green theorem,
For the transfer function
The resonance peak magnitude is
For given system
∴ Also 0C gain k = 5
Resonance peak can be given as
Res f(z)_{z = a} = 1/(n – 1)! d^{n1}/dz^{n1} [(z – a)^{n} f(z)]_{z=a}
_{Here we have n = 2 and a = 2}
_{Thus}
_{Res f(z)z=2 = 1/(21)! d/dz [(z2)2 1/(z2)2(z+2)2]z=a}
_{Res f(z)z=2 = d/dz [1/(z+2)2]z=a}
_{Res f(z)z=2 = [2/(z+2)3]z=a}
_{Res f(z)z=2 = 2/64}
_{Res f(z)z=2 = 1/32}
This is the line integral in the form
Comparing with the given function.
since path along which integration is to be done is not given, F may or may not be exact.
Curl F = 0, Hence this line integral is path independent.
F = grad ϕ
ϕ = e^{xz} + y
ϕ_{1} at (2, 3, 0) is = e^{∘} + 3 = 4
ϕ_{2} at (0, 1, 2) is = e^{∘} + 1 = 2
For the lattice circuit shown in figure, Z_{a} = 20Ω and Z_{b} = 10Ω. The value of open circuit impedance parameter Z_{12 i}s ____ Ω ?
For lattice network
For given circuit, with R = 1 kΩ and C = 1 μF and also R_{1} = R_{2}. The output frequency is ____ kHz. (Assume ideal opamp)
This is a Astable multivibrator.
Hence
A photodetector circuit shown in figure. The photodiode has an active area of 10^{+2} cm^{2} and sensitivity of 0.55 A/W. When light of intensity 10mW/cm^{2} falls on the photodiode, the output voltage V_{O} is ___ volt.
I = light intensity x sensitivity x Area
= 10 x 10^{3} x 0.55 x 10^{2} x 10^{4}
= 0.55 x 10^{4} A
Hence V_{o1} = (100k) x I = 5.5 volt
Now for 2^{nd} opamp,
Current through 20 kΩ resistor is
Study the standard negative feedback configuration with G(s) Find the number of clockwise encirclements of (1, 0) in the Nyquist of the Loop transfer function G(s) H(s) will be
Characteristics equation
1+ G(s) H(s) = 0
3s^{2}0.2s+ 300 = 0
The given system is unstable with two roots in right hand side of splane
So Z = 2
Also P = 2 since OLTF has two poles in right hand side of splane
So N = P  Z = 2 – 2 = 0
N = 0
Hence the number of clockwise encirclements of (1, 0) in the Nyquist of the Loop transfer function G(s) H(s) is zero.
A second order process having transfer function is cascaded with a standard PD controller in unity feedback configuration. If the closed loop system have velocity error constant K_{V} = 300 and damping ratio ζ = 0.6, then the value of controller gain (k_{P}) is
G_{c}(s) = K_{P} (1 + K_{D}s)
Velocity error constant Kv=lim(s→0) s G_{c}(s) G(s)H(s)
300 = Kp (60/8)
K_{p} = 40
Which of the following signal is obtained on integrating ramp signal?
On integrating t, we get (1/2)t2 which is the amplitude of parabolic signal. Thus, option C is the correct answer.
A unity feedback control system has an open loop transfer function.
The value of system gain K for which all the roots are equal is _______.
dK/ds = 0
The characteristic equation for unity feedback system is
∴ The break point =−4
Equal roots are at = 4
For a Si, one sided abrupt junction with N_{A} = 2 × 10^{19}/cm^{3 }& N_{D }= 8 × 10^{15}/cm^{3 }& n_{i} = 9.65 × 10^{9}/cm^{3} The junction capacitance at zero bias is ______(in mF/cm^{2}). Given,ϵ_{r} = 11.7
In an nchannel MOSFET, drain is shorted to the gate so that V_{GS} = V_{DS}. And
V_{T} = 1V. If the drain current I_{D} is 1 mA for V_{GS} = 2V then for V_{GS} = 3V, I_{D} (in mA) is
I_{D1} = 1 mA, V_{GS1} = 2V
V_{GS2} = 3V, I_{D2} = ?
A semiconductor of thickness 0.5μm is illuminated with monochromatic light of hϑ = 2eV, and the absorption coefficient of semiconductor α = −5 × 10^{−4}cm^{−1}. If the incident power is 10mW (Assume semiconductor has perfect quantum efficiency) then number of photons given from recombination events per second is photons/sec
I = I_{0}e^{αl}
= 10^{2} exp(5 x 104 x 0.5 x 10^{4})
= 0.82m W
Total energy absorbed = 10  0.82 = 9.18mW
Number of photons emitted
= 2.8687 x 10^{16 }photons/sec
In a 8085 microprocessor, the register which holds address of the next instruction to be fetched is
A program counter is a register in a computer processor that contains the address (location) of the instruction being executed at the current time. As each instruction gets fetched, the program counter increases its stored value by 1.
After each instruction is fetched, the program counter points to the next instruction in the sequence. When the computer restarts or is reset, the program counter normally reverts to 0.
In computing, a program is a specific set of ordered operations for a computer to perform. An instruction is an order given to a computer processor by a program. Within a computer, an address is a specific location in memory or storage.
A register is one of a small set of data holding places that the processor uses. Thus, option B is the correct answer.
Calculate Zth across the terminals A and B:
To calculate Z_{th} consider the diagram
Current source has been open circuited.
XL = jωL = sL =10s since L = 10H
XC = 1/jωC = 1/sC = 1/10s since C = 10F
Therefore Zth= (XL+10)(XC + 10)
= {(XL+10)* (XC + 10)}/(20 + XL + XC)
= {(10 +10s)*(10 +1/10s)}/(20 + 10s +1/10s)
The response of a system at zero initial conditions and nonzero input is called ________.
The response of a system at zero initial conditions and nonzero input is called zero state response and the response of a system at nonzero initial conditions and zero input is called zero input response.
The sum of zero state response and zero input response is called total response.
Thus, option A is the correct answer.
Following the state diagram shown clocked sequential circuit:
How many states the sequential circuit has?
Drawing a state table: (Let input be X)
State e and g are equivalent because the next states and outputs are same. We can eliminate any one them, say ‘g’. Thus ‘g’ is replaced by ‘e’ wherever it occurs. Now sated d and f are equivalent. Thus one of them say d, can be eliminated. Thus the reduced state table
Consider the following circuit. A = a_{2}a_{1}a_{0} and B = b_{2}b_{1}b_{0} are three bit binary numbers input to the circuit. The output is Z = z_{3}z_{2}z_{1}z_{0}. R0, R1 and R2 are registers with loading clock shown. The registers are loaded with their input data with the falling edge of a clock pulse (signal CLOCK shown) and appears as shown. The bits of input number A, B and the full adders are as shown in the circuit. Assume Clock period is greater than the settling time of all circuits.
For 8 clocks pulses on the CLOCK terminal and the inputs A, B as shown, obtain the output Z (sequence of 4bit values of Z). Assume initial contents of R0, R1 and R2 as all zeros.
A = 110 011 111 101 000 000 000 000
B = 101 101 011 110 000 000 000 000
Clock No 1 2 3 4 5 6 7 8
A clock signal is a particular type of signal that oscillates between a high and a low state and is utilized like a metronome to coordinate actions of digital circuits. A clock signal is produced by a clock generator. Although more complex arrangements are used, the most Common clock signal is in the form of a square wave with a 50% duty cycle, usually with a fixed, constant frequency. Circuits using the clock signal for synchronization may become active at either the rising edge, falling edge, or, in the case of double data rate, both in the rising and in the falling edges of the clock cycle. Most integrated circuits (ICs) of sufficient complexity use a clock signal in order to synchronize different parts of the circuit, cycling at a rate less than the worstcase internal propagation delays. In some cases, more than one clock cycle is required to perform a predictable action. As ICs become more complex, the problem of supplying accurate and synchronized clocks to all the circuits becomes increasingly difficult.
Find by double integration the volume of the solid generated by revolving the ellipse about the xaxis.
Here we shall consider the revolution of the only upper half of the ellipse about the xaxis because volumes generated by upper and lower halves overlap. If V is the required volume, then
Put 3θ = x
3dθ = dx
(use gamma function formula)
Consider the following differential equation dy/dx = x+1
If y (2) = 1 then the value of y (2.2) using Runge Kutta third order method is
here, f(x) = −x + 1
h=0.2,x_{0} = 2,y_{0} = 1
According to RungeKutta third order method
Where,
K_{1} = hf(x_{0}, y_{0}) = hf(2,1)
= 0.2 × (−2 + 1) = −0.2
= 0.2 × f(2.1,1.1)
= 0.2 × (−2.1+1)
= −0.22
K_{3} = hf(x_{0} + h,y_{0} + 2K_{2 }− K_{1})
= hf(2+0.2,1+2×(−0.22)+0.2)
= 0.2 × f(2.2,0.76)
= 0.2 × (−2.2+1)
= 0.24
The value of integral c∮(yzdx + zxdy + xydz) where c is the curve x^{2} + y^{2} = 1 and z = y^{2} is
Consider the two port network shown below
Consider the 2 port circuit given below
Hybrid parameter h_{12} for the circuit is _____.
Redrawing the circuit by keeping I_{1} = 0
V_{2 }= 10(I_{2 } I_{x}) = 4i_{x} + 6i_{x} + 10i_{x}
10I_{2} = 30i_{x}
I_{2} = 3i_{x}
V_{1} = 10i_{x}
V_{2} = 10(I_{2 } I_{x})
V_{2} = 20I_{x}
V_{1}/V_{2} = 10i_{x}/20i_{x} = 0.5
For the opamp biasing shown in figure, it was found experimentally even at zero bias the current flowing into positive terminal is 15nA and current flowing into negative terminal is 10nA. If the output voltage of opamp is 8mV. The value of feedback resistance Rf is__________.
Assume (R_{f} ≫ R). R = 0.5 kΩ
Assuming ideal opamp and R_{f} ≫ R current can be modelled as voltage source
I^{+} = current at positive noninverting terminal
I^{} = current at the negative inverting terminal
V_{o}^{+} = output voltage due to noninverting current flow
V_{o}^{} = output voltage due to noninverting current flow
(Taking inverting node ground)
V_{0} (off set) = V_{0}^{+ }+ V_{0}− (By superposition theorem)
= I^{+}R+I^{+}R_{f}−I^{−}R_{f}
= I^{+}R+R_{f}(l+−I^{−})
8mV = 15 × 0.5 × 10^{−16 }+ R_{f}(15 − 10) × 10^{−9}
The inputoutput relationship of a causal stable LTI system is given as y[n] = αy[n  1] + βx[n].
If the impulse response h[n] of this system satisfies the condition the relationship between α cond β is
Given system equation as
The Fourier transform of continuous time signal X(t) = 3cos(10t) + 4sin(10t) is
x(t) = 3cos(10t) + 4sin(10t)
If the Nyquist rate for x(t) is ω_{0}, what will be the Nyquist rate for x(3t) and x(t/3)?
Considering x(t)↔X(ω), then if y(t) = x(at)
Then for y(t)=x(3t):
As the Nyquist rate for x(t) is ω_{0}, ω_{0},X(ω) = 0 for ω > ω_{0}/2
Considering y(t), Y(ω) = 0 for ω/3 > ω_{0}/2 =>Y(ω) = 0 for ω > 3ω_{0}/2
Therefore Nyquist rate for y(t) is 2×3ω_{0}/2=3ω_{0}
for y(t) = x(t/3): Y(ω) = 3X(3ω)
As the Nyquist rate for x(t) is ω_{0},X(ω) = 0 for ω > ω_{0}/2
Considering y(t), Y(ω) = 0 for 3ω > ω_{0}/2 => Y(ω) = 0 for ω > ω_{0}/6
Therefore Nyquist rate for y(t) is 2 x ω_{0}/6 = ω_{0}/3
Find the systems response to the input x[n] = u[n] if the unit impulse response h[n] of a DT LTI system is
Consider the speed control system of figure below where in the inner loop corresponds to motor back emf. The controller is an integrator with gain K observe that the load is inertia only.
Determine the value of k for which steady state error to unit ramp input (V_{r} = 1/s^{2}) is less than 0.01 rad/sec.
Reducing the inner loop
Find the capacitor voltage VC at t = 1msec if switch is closed as t = 0. Assume capacitor initially uncharged and opamp is not saturated.
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