The current erection cost of a structure is Rs. 13,200. If the labour wages per day increase by
1/5 of the current wages and the working hours decrease by 1/24 of the current period, then
the new cost of erection in Rs. is

**A. ** 16,500

**B. ** 15,180

**C. ** 11,000

**D. ** 10,120

**Answer : ****Option B**

**Explaination / Solution: **

Let ‘W’ be the labour wages, and ‘T’ be the working hours.

Let ‘W’ be the labour wages, and ‘T’ be the working hours.

Now, total cost is a function of W × T

Increase in wages = 20%

∴ Revised wages = 1.2 W

Decrease in labour time = (100/24)%

∴ Re vised time = (1-(1/24))T = (23/24)T

Re vised Total cost = 1.2 × (23/24)WT = 1.15WT

= 1.15 × 13200 = 15180

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Consider the binary relation R = {(x, y), (x, z), (z, x), (z, y)} on the set {x, y, z}. Which one the following is TRUE?

**A. ** R is symmetric but NOT antisymmetric.

**B. ** R is NOT symmetric but antisymmetric

**C. ** R is both symmetric and antisymmetric

**D. ** R is neither symmetric nor antisymmetric

**Answer : ****Option D**

**Explaination / Solution: **

No Explaination.

No Explaination.

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A square matrix B is skew-symmetric if

**A. ** B^{T }= -B
**B. ** BT = B

**C. ** B-T = B

**D. ** B-1 = BT

**Answer : ****Option A**

**Explaination / Solution: **

No Explaination.

No Explaination.

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The Laplace Transform of f(t) = e^{2t} sin(5t) u(t) is

**A. **

**B. **

**C. **

**D. **

**Answer : ****Option A**

**Explaination / Solution: **

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The standard normal probability function can be approximated as

**A. ** 66.7 %

**B. ** 20.0 %

**C. ** 33.3 %

**D. ** 16.7 %

**Answer : ****Option B**

**Explaination / Solution: **

No Explaination.

where x_{N} = standard normal deviate. If mean and standard deviation of annual
precipitation are 102 cm and 27 cm respectively, the probability that the annual
precipitation will be between 90 cm and 102 cm is

No Explaination.

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If three coins are tossed simultaneously, the probability of getting at least one head is

**A. ** 1/8

**B. ** 3/8

**C. ** 1/2

**D. ** 7/8

**Answer : ****Option D**

**Explaination / Solution: **

No Explaination.

No Explaination.

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Probability density function of a random variable X is given below

**A. ** 3/4

**B. ** 1/2

**C. ** 1/4

**D. ** 1/8

**Answer : ****Option A**

**Explaination / Solution: **

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An input to a 6-level quantizer has the probability density function f(x) as shown
in the figure. Decision boundaries of the quantizer are chosen so as to maximize the
entropy of the quantizer output. It is given that 3 consecutive decision boundaries
are' −1'. '0 ' and '1'.

**A. **

**B. **

**C. **

**D. **

**Answer : ****Option A**

**Explaination / Solution: **

Area under the pdf curve must be unity 2a + 4a + 4b = 1 2a + 8b = 1.................................................(1) For maximum entropy three region must by equivaprobable thus 2a = 4b = 4b...............................................(2) From (1) and (2) we get b = 1/12 and a = 1/6

The values of a and b are

Area under the pdf curve must be unity 2a + 4a + 4b = 1 2a + 8b = 1.................................................(1) For maximum entropy three region must by equivaprobable thus 2a = 4b = 4b...............................................(2) From (1) and (2) we get b = 1/12 and a = 1/6

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The area enclosed between the curves y^{2} =4x and x^{2} = 4y is

**A. ** 16/3

**B. ** 8

**C. ** 32/3

**D. ** 16

**Answer : ****Option A**

**Explaination / Solution: **

No Explaination.

No Explaination.

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What is the possible number of reflexive relations on a set of 5 elements?

**A. ** 2^{10}

**B. ** 215

**C. ** 220

**D. ** 225

**Answer : ****Option C**

**Explaination / Solution: **

No Explaination.

No Explaination.

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**Preparation Study Material**- Circuit Analysis (Study/Preparation)
- Digital Electronics (Study/Preparation)
- Signals and Systems (Study/Preparation)
- Communication Theory (Study/Preparation)
- Basic Electrical and Instrumentation Engineering (Study/Preparation)
- Electrical Engineering and Instrumentation (Study/Preparation)
- Electronic Devices (Study/Preparation)
- Linear Integrated Circuits LIC (Study/Preparation)
- Electronic Circuits I (Study/Preparation)
- Electronic Circuits II (Study/Preparation)
- Control System Engineering (Study/Preparation)
- Digital Communication (Study/Preparation)
- Digital Signal Processing (Study/Preparation)
- Microprocessors and Microcontrollers (Study/Preparation)
- Electromagnetic Theory (Study/Preparation)