Fluid Mechanics Sheet 13

1) Question.

A discharge of $3.0 m^{3} / s$ flows in a canal, 2 m wide, at a depth of 1.2 m. If the width of the canal is reduced to 1.5 m by a canal transition, then neglecting losses, the depth of flow after the contractions will be -
Answer.
- 1
  
  1.12 m
- 2
  
  1.20 m
- 3
  
  1.28 m
- 4
  
  1.60 m
Answer: 1

Explanation:
2) Question.

The Hardy Cross method of hydraulic analysis of pipe networks, besides satisfying the continuity and energy principles, must also satisfy the condition that the -
Answer.
- 1
  
  algebraic sum of the head losses around any closed loop is zero
- 2
  
  flow into any junction equals the outflow from it
- 3
  
  flow in each pipe has head loss according to Darcy-weisbach or any other pipe head loss equation
- 4
  
  momentum principle is followed
Answer: 1

Explanation:
3) Question.

An aeroplane having a wing span of 16 m and chord of 2.5 m weighs 11 tonnes. If it gets airborne at a velocity of 300 kmph, then the coefficient of lift is nearly -
Answer.
- 1
  
  0.0004
- 2
  
  0.0006
- 3
  
  0.4
- 4
  
  0.6
Answer: 4

Explanation:
4) Question.

If a multijet Pelton turbine has 'n' number of jets, then its specific speed is directly proportional to -
Answer.
- 1
  
  $n^{0}$
- 2
  
  $n^{1 / 2}$
- 3
  
  $n^{3 / 4}$
- 4
  
  n
Answer: 2

Explanation:
5) Question.

In a laminar flow through a circular pipe of diameter 20 cm, the maximum velocity is found to be 1 m/s. The velocity at a radial distance of 5 cm from the axis of the pipe will be -
Answer.
- 1
  
  0.25 m/s
- 2
  
  0.50 m/s
- 3
  
  0.75 m/s
- 4
  
  1.0 m/s
Answer: 3

Explanation:
6) Question.

A harbour model has a horizontal scale of 1/150 and a vertical scale of 1/60. The interval between successive high tides in the model will be nearly -
Answer.
- 1
  
  90 min
- 2
  
  40 min
- 3
  
  15 min
- 4
  
  5 hours
Answer: 2

Explanation:
7) Question.

An open rectangular wagon 5 m long is filled with water to a level 0.5 m below the open top. The maximum acceleration (in $m / s^{2}$ ) at which it can be speeded up without spilling the water is nearly -
Answer.
- 1
  
  0.98
- 2
  
  1.96
- 3
  
  4.9
- 4
  
  9.8
Answer: 2

Explanation:
8) Question.

When a particular discharge is flowing in a horizontal pipe, a mercury-water U-tube manometer connected to the entrance and throat of a venturimeter fitted in the pipe recorded a deflection of 25 cm. If the same discharge flowed through the same pipe kept at an inclination of $45^{0}$ to the horizontal, then the corresponding deflection by the U-tube manometer will be -
Answer.
- 1
  
  $25 \sqrt{2} c m$
- 2
  
  $25 / \sqrt{2} c m$
- 3
  
  25/2 cm
- 4
  
  25 cm
Answer: 4

Explanation:
9) Question.

A cylindrical vessel with a constant plane area of 1 $m^{2}$ is rotated about its vertical axis such that the liquid inside the vessel is about to spill. If the height of the vessel is 2 m and the height of the paraboloid is 1 m, then the volume (in $m^{2}$ ) of the liquid in the vessel will be -
Answer.
- 1
  
  2
- 2
  
  1.5
- 3
  
  1.0
- 4
  
  0.5
Answer: 2

Explanation:
10) Question.

One end of a two dimensional water tank has the shape of a quadrant of a circle of radius, 2m. When the tank is full, the vertical component of the force per unit length on the curved surface will be -
Answer.
- 1
  
  250 $π$ kgf
- 2
  
  1000 $π$ kgf
- 3
  
  4000 kgf
- 4
  
  3000 kgf
Answer: 2

Explanation:

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