Water Supply Engineering MCQs

Welcome to our comprehensive collection of Multiple Choice Questions (MCQs) on Water Supply Engineering, a fundamental topic in the field of Civil Engineering. Whether you're preparing for competitive exams, honing your problem-solving skills, or simply looking to enhance your abilities in this field, our Water Supply Engineering MCQs are designed to help you grasp the core concepts and excel in solving problems.

In this section, you'll find a wide range of Water Supply Engineering mcq questions that explore various aspects of Water Supply Engineering problems. Each MCQ is crafted to challenge your understanding of Water Supply Engineering principles, enabling you to refine your problem-solving techniques. Whether you're a student aiming to ace Civil Engineering tests, a job seeker preparing for interviews, or someone simply interested in sharpening their skills, our Water Supply Engineering MCQs are your pathway to success in mastering this essential Civil Engineering topic.

Note: Each of the following question comes with multiple answer choices. Select the most appropriate option and test your understanding of Water Supply Engineering. You can click on an option to test your knowledge before viewing the solution for a MCQ. Happy learning!

So, are you ready to put your Water Supply Engineering knowledge to the test? Let's get started with our carefully curated MCQs!

Water Supply Engineering MCQs | Page 1 of 36

Q1.
P0, P1, P2 be the populations of a city at times t0, t1 and t2 = 2t1, the saturation value of the population Ps of the city, is

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (a).A
Q2.
Most satisfactory formula for an estimate of fire demand Q for a city of population P in thousands for Indian conditions, is

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (c).C
Q3.
According to Kuichling's formula, fire demand in litres per minute for a

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (a).A
Q4.
Q is the discharge from an unconfined tube well with depression head s through its pipe of radius rw. If the radius of influence is R, the length of the required strainer, is

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (c).C
Q5.
The superimposed load transmitted to the pipe, is generally evaluated by Bousiness formula

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (b).B
Q6.
The equation given by following equation, in which Q is yearly run off in cm, P is yearly total rainfall in cm, H is difference of R.L.s. of lowest and highest points and A is area of catchment in square metres, is known as
Discuss
Answer: (c).Justin's formula
Q7.
If d is the diameter of the pipe, p is the total internal pressure, f is the permissible tensile stress and n is the effective of the joint, the thickness t of metal pipe, is

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (b).B
Q8.
If G is the specific gravity of particles of diameter d, the velocity of settlement V in still water at T°C, according to Stoke's law, is

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (a).A
Q9.
Pressure exerted at 90° bend in a pipe of cross-sectional area A and carrying water with a velocity V under a pressure p, is

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (c).C
Q10.
According to Buston's formula, fire demand in litres per minute for a population of P thousands, is

a.

A

b.

B

c.

C

d.

D

Discuss
Answer: (d).D
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