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MCQs

Total Questions : 75 | Page 3 of 8 pages
Question 21. Which type of canal escape does the figure represent?Which Type Of Canal Escape Does The Figure Represent?
  1.    Weir Type Escape
  2.    Regular Type Escape
  3.    Venturi Flume
  4.    Surplus Water Escape
 Discuss Question
Answer: Option A. -> Weir Type Escape
Answer: (a).Weir Type Escape
Question 22. What is the formula for discharge through the pipe?What Is The Formula For Discharge Through The Pipe?
  1.    a
  2.    b
  3.    c
  4.    d
 Discuss Question
Answer: Option B. -> b
Answer: (b).b
Question 23. Which type of flume does the diagram depict?Which Type Of Flume Does The Diagram Depict?
  1.    Modular Venturi Flume
  2.    Free Flow Venturi Flume
  3.    Venturi Flume
  4.    Standing Wave Flume
 Discuss Question
Answer: Option C. -> Venturi Flume
Answer: (c).Venturi Flume
Question 24. What is the formula for discharge when venturi meter is used?What Is The Formula For Discharge When Venturi Meter Is Used...
  1.    a
  2.    b
  3.    c
  4.    d
 Discuss Question
Answer: Option B. -> b
Answer: (b).b
Question 25. What structure does the diagram represent?What Structure Does The Diagram Represent?
  1.    Standing Wave Flume
  2.    Venturi Flume
  3.    Non modular Venturi Flume
  4.    Drowned Venturi Flume
 Discuss Question
Answer: Option A. -> Standing Wave Flume
Answer: (a).Standing Wave Flume
Question 26. The discharge through the open sluice is given by suppressed weir formula.
  1.    True
  2.    False
  3.    May be True or False
  4.    Can't say
 Discuss Question
Answer: Option A. -> True
Answer: (a).True
Question 27. What is the formula for velocity through the pipe?
  1.    Total loss of head = Entry loss + Frictional loss
  2.    Total loss of head = Frictional loss + Velocity head at exit
  3.    Total loss of head = Entry loss + Velocity head at exit
  4.    Total loss of head = Entry loss + Frictional loss + Velocity head at exit
 Discuss Question
Answer: Option D. -> Total loss of head = Entry loss + Frictional loss + Velocity head at exit
Answer: (d).Total loss of head = Entry loss + Frictional loss + Velocity head at exit
Question 28. Why would a submerged pipe outlet be laid inclined?
  1.    To Provide Proper Exit Gradient
  2.    To Maintain Proper Hydraulic Jump
  3.    To Increase Silt Conductivity
  4.    To Increase the Discharge Capacity
 Discuss Question
Answer: Option C. -> To Increase Silt Conductivity
Answer: (c).To Increase Silt Conductivity
Question 29. To ensure equitable distribution of water flexible and rigid modules are preferred.
  1.    True
  2.    False
  3.    May be True or False
  4.    Can't say
 Discuss Question
Answer: Option A. -> True
Answer: (a).True
Question 30. How many types of submerged pipe outlets can be laid?
  1.    2
  2.    3
  3.    4
  4.    5
 Discuss Question
Answer: Option A. -> 2
Answer: (a).2

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