Test: Bernoulli’s Equation For Real Fluids & Applications Of Bernoulli’s Equation

Question 1

When is orifice called ‘large orifice’?

Accepted Answer

If the head of liquid is less than 5 times the depth of orifice

Answer

If the head of liquid is less than 2.5 times the depth of orifice

Answer

If the head of liquid is less Hence, 4 times the depth of orifice

Answer

If the head of liquid is less than 1.5 times the depth of orifice

Question 2

In case of any orifice, velocity always remains constant and hence discharge can be calculated.

Accepted Answer

False

Answer

True

Question 3

Find the discharge through a rectangular orifice 2.2 m wide and 1.3 m deep fitted to a easier tank. The water level in a team is 2.5 m above the top edge of orifice.

Accepted Answer

13.9 m3/s

Answer

11.5 m3/s

Answer

16.9 m3/s

Answer

8.7 m3/s

Question 4

Find the discharge through a rectangular orifice 3.2 m wide and 1.7 m deep fitted to a easier tank. The water level in a team is 3.3 m above the top edge of orifice. Take Cd = 0.6

Accepted Answer

29.4 m3/s

Answer

58.5 m3/s

Answer

67.9 m3/s

Answer

78.7 m3/s

Question 5

Find the discharge through totally drowned orifice of width 2.3 m if the difference of water levels on both side of the orifice be 40 cm. The height of water from top and bottom of the orifice are 2.6 m and 2.75 m respectively.

Accepted Answer

56 m3/s

Answer

64 m3/s

Answer

75 m3/s

Answer

55 m3/s

Question 6

Find the discharge through totally drowned orifice of width 3.3 m if the difference of water levels on both side of the orifice be 50 cm. The height of water from top and bottom of the orifice are 2.25 m and 2.67 m respectively.

Accepted Answer

2.6 m3/s

Answer

2.8 m3/s

Answer

2.7 m3/s

Answer

2.5 m3/s

Question 7

A rectangular orifice of 2 m width and 1.2 m deep is fitted in one side of large tank. The easier level on one side of the orifice is 3m above the top edge of the orifice while on the other side of the orifice the water level is 0.5 m below it’s top edge. Calculate discharge if Cd = .64

Accepted Answer

4.95 m3/s

Answer

5.67 m3/s

Answer

3.56 m3/s

Answer

6.75 m3/s

Question 8

The time taken to empty the tank is independent of Cd but depends only on the height and acceleration due to gravity.

Accepted Answer

False

Answer

True

Question 9

The discharge rate is independent of the height difference and dependent only on the height.

Accepted Answer

False

Answer

True

Question 10

In case of submerged orifice the discharge is substantially dependent on temperature of fluid

Accepted Answer

False

Answer

True

Bernoulli’s Equation For Real Fluids & Applications Of - Free MCQ Practice

MCQ Practice Test & Solutions: Test: Bernoulli’s Equation For Real Fluids & Applications Of Bernoulli’s Equation (10 Questions)

When is orifice called ‘large orifice’?

In case of any orifice, velocity always remains constant and hence discharge can be calculated.

Find the discharge through a rectangular orifice 2.2 m wide and 1.3 m deep fitted to a easier tank. The water level in a team is 2.5 m above the top edge of orifice.

Find the discharge through a rectangular orifice 3.2 m wide and 1.7 m deep fitted to a easier tank. The water level in a team is 3.3 m above the top edge of orifice. Take Cd = 0.6

Find the discharge through totally drowned orifice of width 2.3 m if the difference of water levels on both side of the orifice be 40 cm. The height of water from top and bottom of the orifice are 2.6 m and 2.75 m respectively.

Find the discharge through totally drowned orifice of width 3.3 m if the difference of water levels on both side of the orifice be 50 cm. The height of water from top and bottom of the orifice are 2.25 m and 2.67 m respectively.

A rectangular orifice of 2 m width and 1.2 m deep is fitted in one side of large tank. The easier level on one side of the orifice is 3m above the top edge of the orifice while on the other side of the orifice the water level is 0.5 m below it’s top edge. Calculate discharge if Cd = .64

The time taken to empty the tank is independent of Cd but depends only on the height and acceleration due to gravity.

The discharge rate is independent of the height difference and dependent only on the height.

In case of submerged orifice the discharge is substantially dependent on temperature of fluid

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