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Hydraulics Online Test – Paper 3

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Created by 83a36dcfd5c4caff12bc80f0020c9c749e12cbbbdb7c406dc1dd39996cb85836?s=32&d=monsterid&r=g gkaimVikash chaudhary

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  • Total Questions: 50
  • Time Allotted: 50 minutes
  • Passing Score: 70%
  • Randomization: Yes
  • Certificate: Yes
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1. *The hydraulic ram is a device

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2. Falling drops of water become spheres due to

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3. To ensure that water does not rise more than 100 cm above the crest, for a discharge of 5.00 m^3/sec, the length of the weir will be (Cd = 0.62)

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4. The multiplying factor for converting one poise into MKS unit of dynamic viscosity is

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5. When the pipes are connected in parallel, the total loss of head

6 / 50

6. Which of the following quantities are dimensionless?

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7. The water immediately downstream of the conduit or weir is called

8 / 50

8. For the flow of liquid from an open-ended tube (nozzle) leading to the formation of a spray of liquid drops, the number generally is

9 / 50

9. When the pipes are connected in series, the total rate of flow

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10. For uniform flow in the channel

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11. The thickness of a sharp-crested weir is kept less than

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12. *The rise of the water table, which takes place due to the transformation of the unstable shooting flow (super-critical) to the stable streaming is called

13 / 50

13. Practical fluids possess

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14. *If a pitot tube is placed with its nose facing downstream, the liquid

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15. *The continuity equation deals with the law of conservation of

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16. The line joining the points to which the liquid rises in vertical piezometer tubes fitted at different cross-sections of a conduit is known as

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17. If the fluid particles move in straight lines and all the lines are parallel to the surface, the flow is called

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18. *Barometers are used to measure

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19. The most economical section of a circular channel for the maximum discharge is when

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20. *Capillarity of water is

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21. When the fluid is at rest, the shear stress is

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22. The difference in pressure head measured by a mercury-oil differential manometer for a 20 cm difference of mercury level will be (specific gravity of oil-0.8)

23 / 50

23. *The imaginary line joining each head of water is called

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24. The depth of flow at which the specific energy is minimum is called

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25. In fluids, steady flow occurs when

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26. Head loss due to friction in a pipe is given by the Darcy-Weisbach equation

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27. A ideal fluid

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28. A substance which deforms continuously under the action of shear stress is called

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29. The phenomenon of rising of a liquid surface in a tube of small diameter relative to the adjacent normal level of the liquid is known as

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30. Specific weight of sea water is more than that of pure water because of

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31. *The atmospheric pressure varies with

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32. Cavitations in flowing fluid occurs when

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33. At the vena contracta, the jet has the minimum cross-sectional area, and so the velocity of the liquid at this section will be

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34. *Hydraulic gradient line (H.G.L.) represents the sum of

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35. The section of the Jet leaving an orifice, having the minimum cross-section area, is called

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36. *The difference between the total energy line and the hydraulic gradient line is

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37. "Manning's formula is used for

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38. The total energy of a liquid in motion is equal to:

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39. Liquids or fluids

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40. Gauge pressure is

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41. The minimum head loss will occur in

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42. The inlet length of a venturimeter

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43. The ratio of the mean velocity to the surface velocity in open channels is equal to

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44. Specific energy of a flowing fluid per unit weight is equal to

45 / 50

45. *Losses are more in

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46. The term z is known as

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47. The profile of rising water on the upstream side of the dam is called

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48. *Molecules of fluids get attracted due to

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49. *The discharge through a trapezoidal channel is maximum when

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50. A steady uniform flow is through a

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