The floor slab of a building is supported on reinforced cement floor beams. The ratio of the end and intermediate spans is kept

RCC Structures Design
The floor slab of a building is supported on reinforced cement floor beams. The ratio of the end and intermediate spans is kept

0.9

0.7

0.2

0.8

0.9

0.7

0.2

0.8

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RCC Structures Design
The weight of a foundation is assumed as

10% of wall weight

12% of wall weight

7% of wall weight

5% of wall weight

10% of wall weight

12% of wall weight

7% of wall weight

5% of wall weight

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RCC Structures Design
A pre-stressed concrete member is preferred because

Its dimensions are not decided from the diagonal tensile stress

All listed here

Large size of long beams carrying large shear force need not be adopted

Removal of cracks in the members due to shrinkage

Its dimensions are not decided from the diagonal tensile stress

All listed here

Large size of long beams carrying large shear force need not be adopted

Removal of cracks in the members due to shrinkage

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RCC Structures Design
As per IS : 456, the reinforcement in a column should not be less than

0.5% and not more than 5% of cross-sectional area

0.8% and not more than 8% of cross-sectional area

0.6% and not more than 6% of cross-sectional area

0.7% and not more than 7% of cross-sectional area

0.5% and not more than 5% of cross-sectional area

0.8% and not more than 8% of cross-sectional area

0.6% and not more than 6% of cross-sectional area

0.7% and not more than 7% of cross-sectional area

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RCC Structures Design
If W is total load per unit area on a panel, D is the diameter of the column head, L is the span in two directions, then the sum of the maximum positive bending moment and average of the negative bending moment for the design of the span of a square flat slab, should not be less than

WL/12 (L - 2D/3)²

WL/10 (L + 2D/3)²

WL/12 (L - D/3)²

WL/10 (L - 2D/3)²

WL/12 (L - 2D/3)²

WL/10 (L + 2D/3)²

WL/12 (L - D/3)²

WL/10 (L - 2D/3)²

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RCC Structures Design
If p₁ and p₂ are mutually perpendicular principal stresses acting on a soil mass, the normal stress on any plane inclined at angle θ° to the principal plane carrying the principal stress p₁, is:

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] cos 2θ

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] cos 2θ

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] sin 2θ

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] sin 2θ

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] cos 2θ

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] cos 2θ

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] sin 2θ

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] sin 2θ

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RCC Structures Design

RCC Structures Design The floor slab of a building is supported on reinforced cement floor beams. The ratio of the end and intermediate spans is kept

RCC Structures Design The weight of a foundation is assumed as

RCC Structures Design A pre-stressed concrete member is preferred because

RCC Structures Design As per IS : 456, the reinforcement in a column should not be less than

RCC Structures Design If p₁ and p₂ are mutually perpendicular principal stresses acting on a soil mass, the normal stress on any plane inclined at angle θ° to the principal plane carrying the principal stress p₁, is:

RCC Structures Design
The floor slab of a building is supported on reinforced cement floor beams. The ratio of the end and intermediate spans is kept

RCC Structures Design
The weight of a foundation is assumed as

RCC Structures Design
A pre-stressed concrete member is preferred because

RCC Structures Design
As per IS : 456, the reinforcement in a column should not be less than

RCC Structures Design
If p₁ and p₂ are mutually perpendicular principal stresses acting on a soil mass, the normal stress on any plane inclined at angle θ° to the principal plane carrying the principal stress p₁, is: