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

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

16

8

10

12

16

8

10

12

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RCC Structures Design
A short column 20 cm × 20 cm in section is reinforced with 4 bars whose area of cross section is 20 sq. cm. If permissible compressive stresses in concrete and steel are 40 kg/cm² and 300 kg/cm², the Safe load on the column, should not exceed

None of these

412,000 kg

41,200 kg

4,120 kg

None of these

412,000 kg

41,200 kg

4,120 kg

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RCC Structures Design
The spacing of transverse reinforcement of column is decided by the following consideration.

Forty-eight times the diameter of transverse reinforcement

The least lateral dimension of the column

Sixteen times the diameter of the smallest longitudinal reinforcing rods in the column

All listed here

Forty-eight times the diameter of transverse reinforcement

The least lateral dimension of the column

Sixteen times the diameter of the smallest longitudinal reinforcing rods in the column

All listed here

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RCC Structures Design
After pre-stressing process is completed, a loss of stress is due to

Elastic shortening of concrete

Shrinkage of concrete

All of the listed here

Creep of concrete

Elastic shortening of concrete

Shrinkage of concrete

All of the listed here

Creep of concrete

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RCC Structures Design
A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

17 cm²

16 cm²

14 cm²

15 cm²

17 cm²

16 cm²

14 cm²

15 cm²

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RCC Structures Design
If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

Remains unchanged

Is increased by PZ/e

Is decreased by Pe/Z

Is increased by Pe/Z

Remains unchanged

Is increased by PZ/e

Is decreased by Pe/Z

Is increased by Pe/Z

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RCC Structures Design

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

RCC Structures Design A short column 20 cm × 20 cm in section is reinforced with 4 bars whose area of cross section is 20 sq. cm. If permissible compressive stresses in concrete and steel are 40 kg/cm² and 300 kg/cm², the Safe load on the column, should not exceed

RCC Structures Design The spacing of transverse reinforcement of column is decided by the following consideration.

RCC Structures Design After pre-stressing process is completed, a loss of stress is due to

RCC Structures Design A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

RCC Structures Design If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

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

RCC Structures Design
A short column 20 cm × 20 cm in section is reinforced with 4 bars whose area of cross section is 20 sq. cm. If permissible compressive stresses in concrete and steel are 40 kg/cm² and 300 kg/cm², the Safe load on the column, should not exceed

RCC Structures Design
The spacing of transverse reinforcement of column is decided by the following consideration.

RCC Structures Design
After pre-stressing process is completed, a loss of stress is due to

RCC Structures Design
A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

RCC Structures Design
If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge