MCQOPTIONS
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MCQOPTIONS
This section includes 342 Mcqs, each offering curated multiple-choice questions to sharpen your Civil Engineering knowledge and support exam preparation. Choose a topic below to get started.
| 101. |
For the most economical trapezoidal section of a channel with regards to discharge, the required condition, is |
| A. | half of top width = sloping side |
| B. | hydraulic depth = half the depth |
| C. | [C]. |
| D. | perpendiculars drawn from the centre of the top width on to the bottom sloping side, are all equal |
| E. | all the above. |
| Answer» F. | |
| 102. |
The magnitude of water hammer in a pipe depends upon |
| A. | speed at which value is closed |
| B. | length of the pipe line |
| C. | elastic properties of the pipe material |
| D. | elastic properties of the following liquid |
| E. | all the above. |
| Answer» F. | |
| 103. |
The diameter (d) of a nozzle fixed at the end of a pipe (diameter D, length L) for maximum energy, is |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» D. [D]. | |
| 104. |
For pipes not running full, the hydraulic mean depth is given by |
| A. | m = r(θ - sin θ) |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» C. [C]. | |
| 105. |
The ratio of the hydraulic radius of a pipe running full to the hydraulic radius of a square section of a channel whose side is equal to the diameter of the pipe, is |
| A. | 1 |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» E. | |
| 106. |
To replace a pipe of diameter D by n parallel pipes of diameter d, the formula is |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| E. | [E]. |
| Answer» E. [E]. | |
| 107. |
A pipe consisting of several pipes of varying diameters and lengths, may be replaced by an equivalent pipe of diameter D of length |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» D. [D]. | |
| 108. |
The velocity of flow (v) at the outlet of a syphon of length l, is given by |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» C. [C]. | |
| 109. |
If S is the length of the crest, H is the height of water source of a weir whose length is L and discharge is Q m3/sec, the velocity of approach Vd is |
| A. | 2gH |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| E. | none of these. |
| Answer» D. [D]. | |
| 110. |
Discharge Q over a rectangular weir of length L and height H, is given by the equation |
| A. | Q = 2/3 Cd2g LH3/2 |
| B. | Q = 2/3 CdL H2gH |
| C. | [C]. |
| D. | all the above. |
| Answer» E. | |
| 111. |
The initial difference between liquid levels of two identical cylindrical vessels having their area of cross-section A, is H. Flow time T from one vessel to another through an orifice having coefficient of discharge Cd and area a will be |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» C. [C]. | |
| 112. |
Time of emptying liquid from a hemispherical vessel through an orifice at its bottom, is |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» E. | |
| 113. |
If a1 and a2 are the cross-sectional areas of a tank and orifice, h the height of water level in tank above the centre of the orifice, the velocity of approach is given by |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| Answer» B. [B]. | |
| 114. |
The value of momentum correction factor (β) for a laminar flow through a circular pipe, is |
| A. | 1/2 |
| B. | 2/3 |
| C. | 3/4 |
| D. | 4/3 |
| E. | 3/2 |
| Answer» E. 3/2 | |
| 115. |
In a circular pipe of length L and diameter d, a viscous liquid is flowing with a velocity v. The loss in head, is |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | [D]. |
| E. | none of these. |
| Answer» B. [B]. | |
| 116. |
The ratio of the maximum height to which a jet inclined through θ rises to its total horizontal span is |
| A. | sin θ |
| B. | cos θ |
| C. | tan θ |
| D. | cot θ. |
| Answer» D. cot θ. | |
| 117. |
The most familiar form of Bernoulli's equation, is |
| A. | [A]. |
| B. | [B]. |
| C. | |
| D. | none of these. |
| Answer» D. none of these. | |
| 118. |
The differential equation dp/ρ + gdz + vdv = 0 for a fluid motion is suggested by |
| A. | Bernoulli |
| B. | Cauchy-Riemann |
| C. | Laplace |
| D. | Leonard Euler. |
| Answer» E. | |
| 119. |
In a fluid flow a particle may posses |
| A. | elevation energy |
| B. | kinetic energy |
| C. | pressure energy |
| D. | initial energy |
| E. | all the above. |
| Answer» F. | |
| 120. |
The property of steam function ψ is : |
| A. | ψ is constant everwhere on any stream line |
| B. | the flow around any path in the fluid is zero for continuous flow |
| C. | the rate of change of ψ with distance in an arbitrary direction, is proportional to the component of velocity normal to that direction |
| D. | the velocity vector may be found by differentiating the stream function |
| E. | all the above. |
| Answer» F. | |
| 121. |
In two dimensional flow the components of velocity are given by u = ax; v = by. The stream lines will be |
| A. | circular |
| B. | parabolic |
| C. | hyperbolic |
| D. | elliptical. |
| Answer» D. elliptical. | |
| 122. |
Euler's equation for motion of liquids, is given by |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | ρdp + gdz + vdv = 0 |
| Answer» D. ρdp + gdz + vdv = 0 | |
| 123. |
For the two dimensional flow, the stream function is given by ψ = 2xy. The velocity at a point (3, 4) is |
| A. | 6 m/sec |
| B. | 8 m/sec |
| C. | 10 m/sec |
| D. | 12 m/sec |
| E. | 15 m/sec. |
| Answer» D. 12 m/sec | |
| 124. |
The acceleration f required to accelerate a rectangular tank containing water horizontally so that the slope of its free surface is 45°, is |
| A. | g/2 |
| B. | g |
| C. | 2 g |
| D. | 2.5 g |
| E. | 3 g. |
| Answer» C. 2 g | |
| 125. |
In Newton's viscosity equation , the coefficient (μ) is known as coefficient of |
| A. | viscosity |
| B. | absolute viscosity |
| C. | dynamic viscosity |
| D. | simple viscosity |
| E. | all the above. |
| Answer» F. | |
| 126. |
Mass density of liquid (ρ) is given by |
| A. | [A]. |
| B. | [B]. |
| C. | [C]. |
| D. | all the above. |
| Answer» E. | |
| 127. |
Energy equation is usually applicable to |
| A. | none of these. |
| B. | non-uniform flow |
| C. | turbulent flow |
| D. | laminar flow |
| Answer» E. | |
| 128. |
Most economical section of a circular channel for maximum velocity, is if, |
| A. | neutral point |
| B. | stagnation point |
| C. | stationary point |
| D. | none of these. |
| Answer» E. | |
| 129. |
For critical flow, the Froude number is : |
| A. | 1 |
| B. | less than 1.0 |
| C. | more than 1.0 |
| D. | 2 |
| Answer» B. less than 1.0 | |
| 130. |
Water belongs to |
| A. | Newtonian fluids |
| B. | non-Newtonian fluids |
| C. | compressible fluid |
| D. | none of these. |
| Answer» B. non-Newtonian fluids | |
| 131. |
For steady flow in open channels, which one of the following does not change : |
| A. | 30% to 40%. |
| B. | depth of flow |
| C. | velocity of flow |
| D. | rate of flow |
| Answer» E. | |
| 132. |
The ratio of the percentage error in the discharge and percentage error in the measurement of head, over rectangular notch, is |
| A. | none of these. |
| B. | 43497 |
| C. | 43526 |
| D. | 43499 |
| Answer» D. 43499 | |
| 133. |
The acceleration f required to accelerate a rectangular tank containing water horizontally so that the slope of its free surface is 45°, is |
| A. | g/2 |
| B. | g |
| C. | 2 g |
| D. | 2.5 g |
| Answer» C. 2 g | |
| 134. |
Due to decrease of diameter of the droplet, inside pressure intensity |
| A. | increases |
| B. | decreases |
| C. | remains unaffected |
| D. | None of these. |
| Answer» B. decreases | |
| 135. |
Frictional loss of head includes the loss of energy due to |
| A. | none of these. |
| B. | viscosity |
| C. | turbulence |
| D. | both (a) and (b) |
| Answer» E. | |
| 136. |
The unit of the viscosity is |
| A. | below the centroid |
| B. | anywhere. |
| C. | kg sec/m2 |
| D. | Newton sec per m2 |
| Answer» C. kg sec/m2 | |
| 137. |
An orifice is an opening in a vessel with |
| A. | None of these. |
| B. | closed perimeter of regular shape through which water flows |
| C. | the water level of the liquid on the up stream side is below the top of the orifice |
| D. | partially full flow |
| Answer» B. closed perimeter of regular shape through which water flows | |
| 138. |
Hydraulic gradient is equal to difference in water surfaces |
| A. | gravitational force |
| B. | elasticity. |
| Answer» C. | |
| 139. |
Weber number is the ratio of inertia force to |
| A. | all the above. |
| B. | surface tension |
| C. | gravitational force |
| D. | elasticity |
| Answer» B. surface tension | |
| 140. |
With a clinging nappe of a weir, the excess discharge, is |
| A. | 6% to 7% |
| B. | 8% to 10% |
| C. | 18% to 20% |
| D. | 25% to 30% |
| Answer» E. | |
| 141. |
A triangular notch is preferred to a rectangular notch because |
| A. | only one reading is required |
| B. | its formula is simple to remember |
| C. | it gives more accurate results for low discharge |
| D. | it measures a wide range of flows accurately |
| Answer» E. | |
| 142. |
Hydrostatic pressure on a dam depends upon its |
| A. | length |
| B. | depth |
| C. | shape |
| D. | material |
| Answer» E. | |
| 143. |
A piezometer opening in pipes measures |
| A. | 2 |
| B. | velocity head |
| C. | static pressure |
| D. | total pressure |
| Answer» C. static pressure | |
| 144. |
In Newton's viscosity equation , the coefficient (μ) is known as coefficient of |
| A. | Reynold number |
| B. | Mach number. |
| C. | viscosity |
| D. | absolute viscosity |
| Answer» E. | |
| 145. |
Practical fluids possess |
| A. | all the above. |
| B. | viscosity |
| C. | surface tension |
| D. | compressibility |
| Answer» E. | |
| 146. |
Specific weight of sea water is more than that of pure water because of |
| A. | dissolved air |
| B. | dissolved salts |
| C. | suspended matter |
| D. | all the above. |
| Answer» E. | |
| 147. |
To avoid the force of surface tension in an inclined manometer, the minimum angle of inclination is |
| A. | 2° |
| B. | 3° |
| C. | 4° |
| D. | 5° |
| Answer» D. 5¬∞ | |
| 148. |
If cohesion between the molecules of a fluid is more than adhesion between the fluid and glass, the free level of fluid in a dipped glass tube will be |
| A. | higher than the surface of liquid |
| B. | same as the surface of liquid |
| C. | lower than the surface of liquid |
| D. | none of these. |
| Answer» D. none of these. | |
| 149. |
An open container filled with water is moved vertically upward with a uniform linear acceleration. The pressure at its bottom will be |
| A. | greater than static pressure |
| B. | equal to static pressure |
| C. | lesser than static pressure |
| D. | none of these. |
| Answer» B. equal to static pressure | |
| 150. |
The flow in open channel is said to be critical if the Froude number is : |
| A. | all the above. |
| B. | less than 1.0 |
| C. | equal to 1.0 |
| D. | greater than 1.0 |
| Answer» C. equal to 1.0 | |