|
 Flow Through Pipes 30 Flashcards |
Start
|
|
In a pipe network, if the friction factor is the same for all pipes, which statement is true regarding flow rates at junctions? |
Card: 1 / 30 |
|
|
The flow rates at junctions must satisfy the continuity equation, meaning the total inflow equals total outflow. |
Card: 2 / 30 |
|
|
Fill in the blank: The ______ is defined as the ratio of the actual velocity of jet of liquid at vena contracta to the theoretical velocity of jet. |
Card: 3 / 30 |
|
|
Coefficient of velocity (Cv) |
Card: 4 / 30 |
|
|
True or False: The flow rate through a venturimeter is equal to the theoretical discharge multiplied by the coefficient of discharge. |
Card: 5 / 30 |
|
|
True. |
Card: 6 / 30 |
|
|
Riddle: I change shape as I flow, but my total volume stays the same. What am I? |
Card: 7 / 30 |
|
|
Fluid |
Card: 8 / 30 |
|
|
What is the relationship between velocity and pressure in a venturimeter? |
Card: 9 / 30 |
|
|
As the velocity increases, the pressure decreases according to Bernoulli's principle. |
Card: 10 / 30 |
|
|
Which of the following statements about the coefficient of discharge (Cd) is correct? A) Cd is always greater than 1 B) Cd varies from 0.61 to 0.98 C) Cd is constant for all flow conditions D) Cd is independent of fluid properties |
Card: 11 / 30 |
|
|
B) Cd varies from 0.61 to 0.98 |
Card: 12 / 30 |
|
|
Fill in the blank: The loss of head due to friction in a pipe is given by ______. |
Card: 13 / 30 |
|
|
Darcy-Weisbach equation |
Card: 14 / 30 |
|
|
True or False: The maximum power transmission efficiency through a pipeline is 50%. |
Card: 15 / 30 |
|
|
 Unlock all Flashcards with EduRev Infinity Plan Starting from @ ₹99 only
|
|
|
|
False. The maximum power transmission efficiency is 67%. |
Card: 16 / 30 |
|
|
What does the term 'equivalent length' refer to in the context of pipe fittings? |
Card: 17 / 30 |
|
|
It is the length of an unobstructed straight pipe that would produce the same loss of head as the fitting. |
Card: 18 / 30 |
|
|
Riddle: I’m a measure of resistance in flow, related to roughness and flow's speed, what am I? |
Card: 19 / 30 |
|
|
Friction factor (f) |
Card: 20 / 30 |
|
|
In a flow through a pipe, if the diameter increases suddenly, what happens to the velocity and pressure? |
Card: 21 / 30 |
|
|
Velocity decreases and pressure increases due to conservation of energy. |
Card: 22 / 30 |
|
|
Fill in the blank: The pressure difference in a manometer indicates the ______ in the pipe. |
Card: 23 / 30 |
|
|
Pressure drop |
Card: 24 / 30 |
|
|
True or False: The hydraulic radius for a circular pipe is simply the radius of the pipe. |
Card: 25 / 30 |
|
|
False. The hydraulic radius is defined as the cross-sectional area divided by the wetted perimeter. |
Card: 26 / 30 |
|
|
Which equation is used to calculate the discharge through an orifice meter? |
Card: 27 / 30 |
|
|
Q = Cd * A * sqrt(2gH), where H is the head and A is the area of the orifice. |
Card: 28 / 30 |
|
|
Riddle: I measure flow with a contraction in my path, my readings depend on pressure’s aftermath. What am I? |
Card: 29 / 30 |
|
|
Venturimeter |
Card: 30 / 30 |
|
|
Completed! Keep practicing to master all of them. |
Restart
|
