The effective span of a simply supported slab, is

RCC Structures Design
The effective span of a simply supported slab, is

Clear distance between the inner faces of the walls plus twice the thickness of the wall

None of these

Distance between the centers of the bearings

Clear span plus effective depth of the slab

Clear distance between the inner faces of the walls plus twice the thickness of the wall

None of these

Distance between the centers of the bearings

Clear span plus effective depth of the slab

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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

41,200 kg

412,000 kg

4,120 kg

None of these

41,200 kg

412,000 kg

4,120 kg

None of these

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RCC Structures Design
As the percentage of steel increases

Lever arm decreases

Lever arm increases

Depth of neutral axis increases

Depth of neutral axis decreases

Lever arm decreases

Lever arm increases

Depth of neutral axis increases

Depth of neutral axis decreases

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RCC Structures Design
The self-weight of the footing, is

Also considered for calculating the upward pressure on footing

Not considered for calculating the upward pressure on footing

Both (b) and (c)

Not considered for calculating the area of the footing

Also considered for calculating the upward pressure on footing

Not considered for calculating the upward pressure on footing

Both (b) and (c)

Not considered for calculating the area of the footing

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

Shrinkage of concrete

Creep of concrete

All of the listed here

Elastic shortening of concrete

Shrinkage of concrete

Creep of concrete

All of the listed here

Elastic shortening of concrete

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RCC Structures Design
The width of the flange of a L-beam, should be less than

Least of the above

Breadth of the rib + half clear distance between ribs

Breadth of the rib + four times thickness of the slab

One-sixth of the effective span

Least of the above

Breadth of the rib + half clear distance between ribs

Breadth of the rib + four times thickness of the slab

One-sixth of the effective span

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RCC Structures Design

RCC Structures Design The effective span of a simply supported 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 As the percentage of steel increases

RCC Structures Design The self-weight of the footing, is

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

RCC Structures Design The width of the flange of a L-beam, should be less than

RCC Structures Design
The effective span of a simply supported 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
As the percentage of steel increases

RCC Structures Design
The self-weight of the footing, is

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

RCC Structures Design
The width of the flange of a L-beam, should be less than