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

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

8 cm to 10 cm

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RCC Structures Design
A reinforced concrete cantilever beam is 3.6 m long, 25 cm wide and has its lever arm 40 cm. It carries a load of 1200 kg at its free end and vertical stirrups can carry 1800 kg. Assuming concrete to carry one-third of the diagonal tension and ignoring the weight of the beam, the number of shear stirrups required, is

30

45

40

35

30

45

40

35

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RCC Structures Design
A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

Coincides the geometrical centre of the beam

None of these

Remains below the slab

Remains within the flange

Coincides the geometrical centre of the beam

None of these

Remains below the slab

Remains within the flange

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RCC Structures Design
For a ribbed slab

Width of the rib shall not be less than 7.5 cm

Clear spacing between ribs shall not be greater than 4.5 cm

Overall depth of the slab shall not exceed four times the breadth of the rib

All listed here

Width of the rib shall not be less than 7.5 cm

Clear spacing between ribs shall not be greater than 4.5 cm

Overall depth of the slab shall not exceed four times the breadth of the rib

All listed here

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RCC Structures Design
If the loading on a pre-stressed rectangular beam, is uniformly distributed, the tendon to be provided should be.

Straight below centroidal axis

Parabolic with convexity upward

Straight above centroidal axis

Parabolic with convexity downward

Straight below centroidal axis

Parabolic with convexity upward

Straight above centroidal axis

Parabolic with convexity downward

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RCC Structures Design
If ‘A’ is the sectional area of a pre-stressed rectangular beam provided with a tendon pre-stressed by a force ‘P’ through its centroidal longitudinal axis, the compressive stress in concrete, is

P/A

P/2A

A/P

2A/P

P/A

P/2A

A/P

2A/P

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RCC Structures Design

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

RCC Structures Design A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

RCC Structures Design For a ribbed slab

RCC Structures Design If the loading on a pre-stressed rectangular beam, is uniformly distributed, the tendon to be provided should be.

RCC Structures Design If ‘A’ is the sectional area of a pre-stressed rectangular beam provided with a tendon pre-stressed by a force ‘P’ through its centroidal longitudinal axis, the compressive stress in concrete, is

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

RCC Structures Design
A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

RCC Structures Design
For a ribbed slab

RCC Structures Design
If the loading on a pre-stressed rectangular beam, is uniformly distributed, the tendon to be provided should be.

RCC Structures Design
If ‘A’ is the sectional area of a pre-stressed rectangular beam provided with a tendon pre-stressed by a force ‘P’ through its centroidal longitudinal axis, the compressive stress in concrete, is