Thin and Thick Cylinders MCQs

Welcome to our comprehensive collection of Multiple Choice Questions (MCQs) on Thin and Thick Cylinders, a fundamental topic in the field of Mechanics of Materials. Whether you're preparing for competitive exams, honing your problem-solving skills, or simply looking to enhance your abilities in this field, our Thin and Thick Cylinders 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 Thin and Thick Cylinders mcq questions that explore various aspects of Thin and Thick Cylinders problems. Each MCQ is crafted to challenge your understanding of Thin and Thick Cylinders principles, enabling you to refine your problem-solving techniques. Whether you're a student aiming to ace Mechanics of Materials tests, a job seeker preparing for interviews, or someone simply interested in sharpening their skills, our Thin and Thick Cylinders MCQs are your pathway to success in mastering this essential Mechanics of Materials topic.

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Thin and Thick Cylinders MCQs | Page 7 of 18

Discover more Topics under Mechanics of Materials

01.

Stress and Strain

02.

Stresses in Members

03.

Strain Energy and Resilience

04.

Center of Gravity and Moment of Inertia

05.

Shear Force and Bending Moment

06.

Pure Bending

07.

Shear Stress and Bending Stress

08.

Dams Analysis

09.

Slope and Deflection

10.

Indeterminate Beams

11.

Torsion

12.

Columns and Struts

Q61.

Calculate the hoop stress at the bottom of penstock, if a steel penstock of 1 m and 10 mm thick is subjected to 100m head of water. Take w = 9.81 kN/m³.

49 N/mm²

47 N/mm²

45 N/mm²

43 N/mm²

Discuss

Answer: (a).49 N/mm²

Q62.

Maximum daily demand = _____ × Average daily demand.

2.5

3.5

1.5

Discuss

Answer: (c).1.5

Q63.

Which of the following is not a short term estimate in population forecast?

Graphical comparison

Geometrical increase method

Arithmetical increase method

Graphical extension method

Discuss

Answer: (a).Graphical comparison

Q64.

Pn = P[1+r/100]ⁿ is a formula used in ___________

Arithmetical increase method

Incremental increase method

Geometrical increase method

Graphical extension method

Discuss

Answer: (c).Geometrical increase method

Q65.

According to Freeman, estimate of fire demand can be made from the formula?

Q = 3175 P

Q = 2125 P

Q = 1136.5 (P/5 +10)

Q = 2715 (P/5 + 10)

Discuss

Answer: (c).Q = 1136.5 (P/5 +10)

Q66.

Fire hydrants are located in a main at a distance of ______________

200 to 250 m

150 to 200 m

100 to 150 m

50 to 100 m

Discuss

Answer: (c).100 to 150 m

Q67.

In total consumption, losses account about __________

Discuss

Answer: (b).15

Q68.

_______ is integrated or summation hydrograph.

Mass curve

Mild curve

Ryve’s curve

Dicken’s curve

Discuss

Answer: (a).Mass curve

Q69.

___________ is an example of a subsurface source.

Streams

Impounding reservoir

Rivers

Springs

Discuss

Answer: (d).Springs

Q70.

Infiltration wells are ____________ wells constructed in series.

Vertical

Horizontal

Inclined

Radial

Discuss

Answer: (a).Vertical

Page 7 of 18

Thin and Thick Cylinders MCQs | Page 7 of 18

Discover more Topics under Mechanics of Materials

Stress and Strain

Stresses in Members

Strain Energy and Resilience

Center of Gravity and Moment of Inertia

Shear Force and Bending Moment

Pure Bending

Shear Stress and Bending Stress

Dams Analysis

Slope and Deflection

Indeterminate Beams

Torsion

Columns and Struts