8.1. R.C.C. (Reinforced Cement Concrete) MCQs (SAD490)

1. What is the main difference between Plain Cement Concrete (PCC) and Reinforced Cement Concrete (RCC)?

(a) PCC includes steel reinforcement, while RCC does not

(b) RCC includes steel reinforcement, while PCC does not

(c) Both PCC and RCC include steel reinforcement

(d) PCC is stronger in tension than RCC

2. Which of the following is NOT an advantage of reinforced concrete?

(a) Easily cast in any desired size and shape

(b) Strength of concrete increases with age

(c) High maintenance cost

(d) Good weather and fire resistance

3. Why is steel used in Reinforced Cement Concrete (RCC)?

(a) Steel is stronger in compression

(b) Steel is stronger in tension

(c) Steel prevents cracks in concrete

(d) Steel reacts chemically with cement to form a stronger bond

4. Which of the following structures commonly use RCC?

(a) Bridges and dams

(b) Wooden houses

(c) Plastic structures

(d) All of the above

5. What is a disadvantage of reinforced concrete?

(a) Cannot be easily dismantled and reused

(b) Requires no centering or curing

(c) Lightweight structure

(d) Easily used in trusses

6. Which of the following is an application of Plain Cement Concrete (PCC)?

(a) Foundation bases

(b) Structural beams

(c) Multi-story columns

(d) Bridges

7. What property of concrete improves over time?

(a) Weight

(b) Strength

(c) Flexibility

(d) Permeability

8. Why is reinforced concrete preferred for structural applications?

(a) It is stronger in compression and tension

(b) It is easy to construct without curing

(c) It is very light in weight

(d) It cannot be used in buildings

9. What is the main reason for using different grades of concrete?

(a) To control the color of concrete

(b) To provide the required strength

(c) To reduce cost

(d) To increase permeability

10. Which of the following is NOT a common material in PCC?

(a) Cement

(b) Fine aggregate

(c) Coarse aggregate

(d) Steel

11. What is the primary composition of Ordinary Portland Cement (OPC)?

(a) Lime, silica, alumina, and iron oxide

(b) Fly ash and OPC clinkers

(c) High dicalcium silicate and reduced lime

(d) Cement clinkers and hydrophobic agents

12. Which type of cement is best suited for marine structures and chemical plants?

(a) Ordinary Portland Cement (OPC)

(b) Portland Pozzolana Cement (PPC)

(c) Rapid Hardening Cement

(d) White Cement

13. Which type of cement has a low heat of hydration and is used for mass concreting works like dams?

(a) Rapid Hardening Cement

(b) Low Heat Cement

(c) White Cement

(d) Sulphate Resistant Cement

14. Which type of cement is water-repellent and suitable for long-term storage in humid conditions?

(a) Hydrophobic Cement

(b) Air Entraining Cement

(c) Sulphate Resistant Cement

(d) Colour Cement

15. What is the compressive strength of 33 Grade Portland Cement after 28 days?

(a) 33 N/mm²

(b) 43 N/mm²

(c) 53 N/mm²

(d) 53 S N/mm²

16. Which type of cement is used for decorative works like tile laying and marble works?

(a) Sulphate Resistant Cement

(b) White Cement

(c) Low Heat Cement

(d) Portland Blast Furnace Slag Cement

17. What is the main application of Rapid Hardening Cement?

(a) Decorative works

(b) Mass concreting

(c) Repair works in bridges and roads

(d) Marine structures

18. Which cement is designed to resist sulphate attacks in structures?

(a) Portland Pozzolana Cement

(b) Sulphate Resistant Cement

(c) Hydrophobic Cement

(d) Ordinary Portland Cement

19. What is the main purpose of Air Entraining Cement?

(a) To improve aesthetic quality

(b) To improve workability and weather resistance

(c) To reduce heat of hydration

(d) To resist sulphate attacks

20. What does the “S” stand for in 53 S Grade Portland Cement?

(a) Standard

(b) Sulphate Resistant

(c) Strength

(d) Sleeper

21. Which type of cement is most suitable for construction in sulphate-prone soils or water?

(a) Hydrophobic Cement

(b) Sulphate Resistant Cement

(c) Air Entraining Cement

(d) Low Heat Cement

22. What property of Rapid Hardening Cement makes it suitable for emergency structures?

(a) Low heat of hydration

(b) Strength development in 24 hours

(c) Resistance to sulphate attacks

(d) Water-repellent properties

23. What is the primary advantage of using Portland Blast Furnace Slag Cement in construction?

(a) High resistance to fire

(b) Low heat of hydration

(c) Water-tightness and workability

(d) Quick setting time

24. Which cement is specifically designed to improve the aesthetic appearance of structures?

(a) White Cement

(b) Sulphate Resistant Cement

(c) Hydrophobic Cement

(d) Portland Pozzolana Cement

25. What is the typical composition of Portland Pozzolana Cement (PPC)?

(a) 100% OPC clinkers

(b) 30% pozzolanic material and 70% OPC clinkers

(c) 50% OPC clinkers and 50% blast furnace slag

(d) 65% OPC clinkers and 35% blast furnace slag

26. Which of the following is a property of Hydrophobic Cement?

(a) Entrains air bubbles to improve insulation

(b) Resists moisture and is suitable for storage in humid conditions

(c) Develops strength in 24 hours

(d) Generates low heat during hydration

27. What is the fineness of Ordinary Portland Cement (OPC)?

(a) 225 m²/kg

(b) 325 m²/kg

(c) 400 m²/kg

(d) 500 m²/kg

28. Which type of cement contains air-entraining agents like natural resins and oils?

(a) Portland Blast Furnace Slag Cement

(b) Air Entraining Cement

(c) Rapid Hardening Cement

(d) Sulphate Resistant Cement

29. Why is Low Heat Cement used in mass concreting works like dams?

(a) It develops strength rapidly

(b) It generates minimal heat during hydration

(c) It has high sulphate resistance

(d) It improves aesthetic appearance

30. Which grade of Ordinary Portland Cement (OPC) is most commonly used for high-strength applications?

(a) 33 Grade

(b) 43 Grade

(c) 53 Grade

(d) 53 S Grade

31. Which type of steel is mentioned under IS 456:2000?

(a) Mild steel and medium tensile steel

(b) High strength deformed steel bars

(c) Hard drawn steel wire fabric

(d) All of the above

32. What is the grade designation for Mild Steel according to IS 456:2000?

(a) Fe 350

(b) Fe 415

(c) Fe 250

(d) Fe 500

33. What does the 'D' in Fe 500 D stand for in high yield strength deformed bars?

(a) Durability

(b) Ductility

(c) Density

(d) Deformation

34. What is the characteristic strength of a concrete grade M25?

(a) 15 N/mm²

(b) 20 N/mm²

(c) 25 N/mm²

(d) 30 N/mm²

35. What does the number in the grade designation of concrete (e.g., M25) represent?

(a) The water-cement ratio of the mix

(b) The characteristic compressive strength at 28 days

(c) The weight of cement used per cubic meter

(d) The density of the concrete mix

36. Which of the following grades is categorized as high-strength concrete?

(a) M20

(b) M55

(c) M65

(d) M40

37. For concrete with compressive strength greater than M55, what should be considered?

(a) Standard design parameters

(b) Specialized literature and experimental results

(c) IS 875 design parameters

(d) Nominal mix proportions

38. Which grade of steel is classified as Medium Tensile Steel?

(a) Fe 250

(b) Fe 350

(c) Fe 415

(d) Fe 500

39. Characteristic strength of concrete is defined as the strength below which not more than what percentage of test results are expected to fall?

(a) 1%

(b) 3%

(c) 5%

(d) 10%

40. What is the specified compressive strength of a 150mm concrete cube at 28 days for grade M30?

(a) 25 N/mm²

(b) 30 N/mm²

(c) 35 N/mm²

(d) 40 N/mm²

41. Which type of steel is commonly used in reinforced concrete structures?

(a) Mild steel

(b) High strength deformed steel bars

(c) Hard drawn steel wire fabric

(d) Structural steel wires

42. What is the characteristic compressive strength of M40 grade concrete?

(a) 20 N/mm²

(b) 30 N/mm²

(c) 40 N/mm²

(d) 50 N/mm²

43. For which grade of concrete is the standard design parameters not applicable as per IS 456:2000?

(a) M20

(b) M30

(c) M55

(d) M65 and above

44. What is the main advantage of using high-strength deformed steel bars over mild steel?

(a) Greater flexibility

(b) Higher ductility

(c) Greater strength in tension

(d) Easier handling on-site

45. Which group of concrete grades is categorized as Ordinary Concrete?

(a) M10, M15, M20

(b) M25, M30, M35

(c) M65, M70, M75

(d) M40, M45, M50

46. Which of the following is NOT a type of steel mentioned in IS 456:2000?

(a) Hard drawn steel wire fabric

(b) Structural steel wires

(c) Stainless steel

(d) High strength deformed steel bars

47. What is the characteristic compressive strength of M15 grade concrete?

(a) 10 N/mm²

(b) 15 N/mm²

(c) 20 N/mm²

(d) 25 N/mm²

48. What is the grade of concrete used for structural elements requiring high compressive strength, like skyscrapers?

(a) M15

(b) M25

(c) M65

(d) M10

49. Which of the following is NOT a characteristic property of Fe 415 steel?

(a) High ductility

(b) High yield strength

(c) High corrosion resistance

(d) High tensile strength

50. Which type of steel is commonly used in structural steel frames for industrial buildings?

(a) Hard drawn steel wire fabric

(b) Structural steel wires

(c) Mild steel

(d) High strength deformed steel bars

51. What does the "Nominal Mix Concrete" refer to as per IS 456:2000?

(a) Concrete mix designed for M25 and higher grades

(b) Concrete mix with proportions specified by fixed ratios of cement, sand, and coarse aggregate

(c) Concrete mix designed for the highest strength

(d) Concrete mix with no specific strength requirements

52. Which grades are classified as "Lean Mix Concrete"?

(a) M15 and M20

(b) M5 and M7.5

(c) M25 and M30

(d) M35 and above

53. What is the nominal mix proportion for M15 grade concrete?

(a) 1:5:10

(b) 1:4:8

(c) 1:3:6

(d) 1:2:4

54. Which of the following is NOT true about "Design Mix Concrete"?

(a) It is preferred over nominal mix concrete

(b) It is economical and designed for desired strength and workability

(c) It is used for grades M5, M7.5, and M10

(d) It is determined based on laboratory tests

55. For which grades of concrete is nominal mix proportioning recommended?

(a) M25 and higher

(b) M15 and higher

(c) M20 and lower

(d) M30 and higher

56. What is the nominal mix proportion for M20 grade concrete?

(a) 1:5:10

(b) 1:1.5:3

(c) 1:3:6

(d) 1:2:4

57. Which component is referred to as "FA" in the nominal mix proportions?

(a) Coarse Aggregate

(b) Fine Aggregate

(c) Cement

(d) Water

58. What is the significance of "Design Mix Concrete" as per IS 456:2000?

(a) It provides fixed proportions of materials for all grades

(b) It ensures workability, strength, and durability in an economical way

(c) It is used only for decorative concrete applications

(d) It is less durable than nominal mix concrete

59. What is the nominal mix proportion for M10 grade concrete?

(a) 1:4:8

(b) 1:3:6

(c) 1:2:4

(d) 1:1.5:3

60. Why is "Design Mix Concrete" preferred over "Nominal Mix Concrete"?

(a) It requires less water

(b) It provides higher workability and is more economical

(c) It uses fixed proportions for all ingredients

(d) It is used only for lean concrete mixes

61. What is the Modular Ratio (m) in reinforced concrete as per IS 456:2000?

(a) The ratio of tensile stress in steel to concrete

(b) The ratio of the modulus of elasticity of steel to that of concrete

(c) The ratio of compressive strength of concrete to tensile strength of steel

(d) The ratio of concrete strength to steel strength

62. What is the formula for calculating the modular ratio (m) as per IS 456:2000?

(a) m=3σc280

(b) m=2803σcbc

(c) m=σcbc280

(d) m=EcEs

63. For M20 grade concrete, what is the permissible stress in compression in bending (σcbc)?

(a) 5.0 N/mm²

(b) 7.0 N/mm²

(c) 8.5 N/mm²

(d) 10.0 N/mm²

64. What is the equivalent concrete area when steel reinforcement is provided in the compression zone?

(a) As

(b) m×As

(c) Ac

(d) 1.5m×As

65. Why is the modular ratio used in the analysis of RC members?

(a) To determine the strength of steel reinforcement

(b) To convert the stress in steel to an equivalent stress in concrete

(c) To calculate the permissible stress in compression

(d) To reduce the strain in concrete

66. For M15 grade concrete, what is the permissible stress in compression in bending?

(a) 3.0 N/mm²

(b) 5.0 N/mm²

(c) 7.0 N/mm²

(d) 8.5 N/mm²

67. What assumption is made for strain in steel and concrete in reinforced concrete?

(a) Strain in steel is greater than strain in concrete

(b) Strain in concrete is greater than strain in steel

(c) Strain in steel is equal to strain in concrete

(d) Strain in steel and concrete are independent of each other

68. What is the permissible stress in bending compression (σcbc) for M30 grade concrete?

(a) 7.0 N/mm²

(b) 8.5 N/mm²

(c) 10.0 N/mm²

(d) 12.0 N/mm²

69. What is the modular ratio if the permissible stress in bending compression (σcbc) for M25 concrete is 8.5 N/mm²?

(a) 10.0

(b) 11.0

(c) 12.0

(d) 13.0

70. According to IS 456:2000, the actual stress in steel is equal to what in terms of the modular ratio?

(a) Modular ratio times the stress in surrounding concrete

(b) Stress in concrete divided by the modular ratio

(c) Actual strain divided by modular ratio

(d) Compressive strength of concrete divided by modular ratio

71. Which IS code provides the guidelines for different types of loads on structures?

(a) IS 456:1987

(b) IS 456:2000

(c) IS 875:1987

(d) IS 875:2000

72. What does the dead load in a building primarily consist of?

(a) Weight of furniture and machinery

(b) Weight of walls, partitions, floors, roofs, and permanent construction

(c) Weight due to snow accumulation on roofs

(d) Load caused by wind pressure on the structure

73. What is the unit weight of reinforced concrete as per IS standards?

(a) 24 kN/m³

(b) 25 kN/m³

(c) 28 kN/m³

(d) 30 kN/m³

74. Imposed loads, also known as live loads, include which of the following?

(a) Furniture and machinery weights

(b) Walls and roof weights

(c) Wind pressure

(d) Snow accumulation

75. In which regions of India are snow loads particularly considered in design?

(a) Coastal regions

(b) Plains

(c) Mountainous regions in northern India

(d) Desert regions

76. Which of the following is an example of an "Other Load"?

(a) Wind load

(b) Earthquake load

(c) Snow load

(d) Dead load

77. Which method of design considers the elastic behavior of materials?

(a) Limit state method

(b) Working stress method

(c) Ultimate load method

(d) Experimental investigations

78. Which design method is most widely used for modern structural design as per IS 456:2000?

(a) Working stress method

(b) Limit state method

(c) Ultimate load method

(d) Method of experimental investigations

79. What is the primary characteristic of wind loads on structures?

(a) They are permanent and static

(b) They occur due to occupancy of the building

(c) They are caused by very strong winds during the lifetime of the structure

(d) They are irrelevant in mountainous regions

80. What is the unit weight of plain concrete as per IS standards?

(a) 22 kN/m³

(b) 24 kN/m³

(c) 25 kN/m³

(d) 26 kN/m³

81. Which of the following loads is considered due to the effect of temperature?

(a) Dead loads

(b) Snow loads

(c) Other loads

(d) Wind loads

82. Which method of design involves the study of failure loads of structures?

(a) Working stress method

(b) Limit state method

(c) Ultimate load method

(d) Experimental investigations

83. Which load includes movable partitions in a building?

(a) Dead load

(b) Imposed load

(c) Wind load

(d) Snow load

84. Which load is most critical for designing roofs in regions of high snowfall?

(a) Dead load

(b) Snow load

(c) Imposed load

(d) Wind load

85. What are the main types of loads considered in structural design as per IS 875?

(a) Dead loads and wind loads only

(b) Imposed loads and snow loads only

(c) Dead loads, imposed loads, wind loads, snow loads, and other loads

(d) Snow loads and temperature effects only