The thickness of the topping of a ribbed slab, varies between

RCC Structures Design
The thickness of the topping of a ribbed slab, varies between

8 cm to 10 cm

3 cm to 5 cm

5 cm to 8 cm

12 cm to 15 cm

8 cm to 10 cm

3 cm to 5 cm

5 cm to 8 cm

12 cm to 15 cm

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RCC Structures Design
Pick up the assumption for the design of a pre-stressed concrete member from the following:

All listed here

During deformation limits, Hook's law is equally applicable to concrete as well as to steel

Variation of stress in reinforcement due to changes in external loading is negligible

A transverse plane section remains a plane after bending

All listed here

During deformation limits, Hook's law is equally applicable to concrete as well as to steel

Variation of stress in reinforcement due to changes in external loading is negligible

A transverse plane section remains a plane after bending

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

Breadth of the rib + half clear distance between ribs

Least of the above

Breadth of the rib + four times thickness of the slab

One-sixth of the effective span

Breadth of the rib + half clear distance between ribs

Least of the above

Breadth of the rib + four times thickness of the slab

One-sixth of the effective span

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RCC Structures Design
For stairs spanning l meters longitudinally between supports at the bottom and top of a flight carrying a load w per unit horizontal area, the maximum bending moment per metre width, is

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RCC Structures Design
A pile of length ‘L’ carrying a uniformly distributed load ‘W’ per metre length is suspended at two points, the maximum, B.M. at the centre of the pile or at the points of suspension, is

WL/8

WL²/24

WL²/47

WL²/16

WL/8

WL²/24

WL²/47

WL²/16

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RCC Structures Design
If the ratio of the span to the overall depth does not exceed 10, the stiffness of the beam will ordinarily be satisfactory in case of a

Cantilever beam

Continuous beam

Simply supported beam

None of these

Cantilever beam

Continuous beam

Simply supported beam

None of these

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RCC Structures Design

RCC Structures Design The thickness of the topping of a ribbed slab, varies between

RCC Structures Design Pick up the assumption for the design of a pre-stressed concrete member from the following:

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

RCC Structures Design For stairs spanning l meters longitudinally between supports at the bottom and top of a flight carrying a load w per unit horizontal area, the maximum bending moment per metre width, is

RCC Structures Design A pile of length ‘L’ carrying a uniformly distributed load ‘W’ per metre length is suspended at two points, the maximum, B.M. at the centre of the pile or at the points of suspension, is

RCC Structures Design If the ratio of the span to the overall depth does not exceed 10, the stiffness of the beam will ordinarily be satisfactory in case of a

RCC Structures Design
The thickness of the topping of a ribbed slab, varies between

RCC Structures Design
Pick up the assumption for the design of a pre-stressed concrete member from the following:

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

RCC Structures Design
For stairs spanning l meters longitudinally between supports at the bottom and top of a flight carrying a load w per unit horizontal area, the maximum bending moment per metre width, is

RCC Structures Design
A pile of length ‘L’ carrying a uniformly distributed load ‘W’ per metre length is suspended at two points, the maximum, B.M. at the centre of the pile or at the points of suspension, is

RCC Structures Design
If the ratio of the span to the overall depth does not exceed 10, the stiffness of the beam will ordinarily be satisfactory in case of a