For normal cases, stiffness of a simply supported beam is satisfied if the ratio of its span to its overall depth does not exceed

RCC Structures Design
For normal cases, stiffness of a simply supported beam is satisfied if the ratio of its span to its overall depth does not exceed

10

15

20

25

10

15

20

25

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RCC Structures Design
[A + (m - 1)ASC] known as equivalent concrete area of R.C.C. is given by

Load factor method

Ultimate load method

None of these

Modular ratio method

Load factor method

Ultimate load method

None of these

Modular ratio method

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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
The maximum ratio of span to depth of a cantilever slab, is

12

8

16

10

12

8

16

10

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RCC Structures Design
If the shear stress in a R.C.C. beam is

Greater than 4 kg/cm², but less than 20 kg/cm², shear reinforcement is provided

Equal or less than 5 kg/cm², no shear reinforcement is provided

All of these

Greater than 20 kg/cm², the size of the section is changed

Greater than 4 kg/cm², but less than 20 kg/cm², shear reinforcement is provided

Equal or less than 5 kg/cm², no shear reinforcement is provided

All of these

Greater than 20 kg/cm², the size of the section is changed

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RCC Structures Design
According to I.S. : 456, slabs which span in two directions with corners held down, are assumed to be divided in each direction into middle strips and edge strips such that the width of the middle strip, is

Three-fourth of the width of the slab

Half of the width of the slab

Two-third of the width of the slab

Four-fifth of the width of the slab

Three-fourth of the width of the slab

Half of the width of the slab

Two-third of the width of the slab

Four-fifth of the width of the slab

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RCC Structures Design

RCC Structures Design For normal cases, stiffness of a simply supported beam is satisfied if the ratio of its span to its overall depth does not exceed

RCC Structures Design [A + (m - 1)ASC] known as equivalent concrete area of R.C.C. is given by

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 maximum ratio of span to depth of a cantilever slab, is

RCC Structures Design If the shear stress in a R.C.C. beam is

RCC Structures Design According to I.S. : 456, slabs which span in two directions with corners held down, are assumed to be divided in each direction into middle strips and edge strips such that the width of the middle strip, is

RCC Structures Design
For normal cases, stiffness of a simply supported beam is satisfied if the ratio of its span to its overall depth does not exceed

RCC Structures Design
[A + (m - 1)ASC] known as equivalent concrete area of R.C.C. is given by

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 maximum ratio of span to depth of a cantilever slab, is

RCC Structures Design
If the shear stress in a R.C.C. beam is

RCC Structures Design
According to I.S. : 456, slabs which span in two directions with corners held down, are assumed to be divided in each direction into middle strips and edge strips such that the width of the middle strip, is