**CE8302 Important Questions FLUID MECHANICS**

CE8302 Important Questions FLUID MECHANICS Regulation 2017 Anna University free download. FLUID MECHANICS Important Questions CE8302 pdf free download.

**Sample CE8302 Important Questions FLUID MECHANICS:**

1 Define “Pascal’s Law” 7

2 What is mean by Absolute pressure and Gauge pressure? 7

3 Define Manometers 7

4 A differential manometer is connected at the two points A and B .

At B pr is 9.81 N/cm2 (abs), find the absolute pr at A

7

5 Define Buoyancy 7

6 Define META – CENTRE 8 CE8302 Important Questions FLUID MECHANICS

7 Write a short notes on “ Differential Manometers” 8

8 Define Centre of pressure 8

9 Write down the types of fluid flow 8

10 Write a short notes on “Laminar flow”. 8

11 Define “ Turbulent flow”. 8

12 What is mean by Rate flow or Discharge? 9 CE8302 Important Questions FLUID MECHANICS

13 What do you understand by Continuity Equation? 9

14 What is mean by Local acceleration? 9

15 What is mean by Convective acceleration? 9

16 Define Velocity potential function. 9

17 Define Stream function 9 CE8302 Important Questions FLUID MECHANICS

18 What is mean by Flow net? 10

19 Write the properties of stream function. 10

20 What are the types of Motion? 10

21 Define “Vortex flow”. 10

22Water is flowing through two different pipes, to which an inverted

differential manometer having an oil of sp. Gr 0.8 is connected the

pressure head in the pipe A is 2 m of water, find the pressure in thepipe B for the manometer readings. CE8302 Important Questions FLUID MECHANICS

23 A differential manometer is connected at the two points A and B .

At B pr is 9.81 N/cm2 (abs), find the absolute pr at A 11

24 A hydraulic pressure has a ram of 30 cm diameter and a plunger of

4.5 cm diameter. Find the weight lifted by the hydraulic pressure

when the force applied at the plunger is 500 N.

25 The diameters of a pipe at the sections 1 and 2 are 10 cm and 15 cm

respectively. Find the discharge through the pipe if the velocity of

water flowing through the pipe section 1 is 5 m/s. determine also

the velocity at section 2 CE8302 Important Questions FLUID MECHANICS

Subject name | FLUID MECHANICS |

Semester | 3 |

Subject Code | CE8302 |

Regulation | 2017 regulation |

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**CE8302 Syllabus FLUID MECHANICS**