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
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

A/P

2A/P

P/2A

P/A

A/P

2A/P

P/2A

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RCC Structures Design
The minimum clear cover for R.C.C. columns shall be

Smaller of 40 mm or diameter

Greater of 40 mm or diameter

Smaller of 25 mm or diameter

Greater of 25 mm or diameter

Smaller of 40 mm or diameter

Greater of 40 mm or diameter

Smaller of 25 mm or diameter

Greater of 25 mm or diameter

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RCC Structures Design
If q is the punching shear resistance per unit area a, is the side of a square footing for a column of side b, carrying a weight W including the weight of the footing, the depth (D) of the footing from punching shear consideration, is

D = W (a² - b²)/8a²bq

D = W (a² - b²)/4a²bq

D = W (a - b)/4a²bq

D = W (a² - b²)/4abq

D = W (a² - b²)/8a²bq

D = W (a² - b²)/4a²bq

D = W (a - b)/4a²bq

D = W (a² - b²)/4abq

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RCC Structures Design
The amount of reinforcement for main bars in a slab, is based upon

Maximum bending moment

Minimum bending moment

Maximum shear force

Minimum shear force

Maximum bending moment

Minimum bending moment

Maximum shear force

Minimum shear force

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

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

All listed here

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RCC Structures Design
If ‘W’ is the uniformly distributed load on a circular slab of radius ‘R’ fixed at its ends, the maximum positive radial moment at its centre, is

3WR²/16

WR²/16

2WR²/16

None of these

3WR²/16

WR²/16

2WR²/16

None of these

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RCC Structures Design

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 minimum clear cover for R.C.C. columns shall be

RCC Structures Design If q is the punching shear resistance per unit area a, is the side of a square footing for a column of side b, carrying a weight W including the weight of the footing, the depth (D) of the footing from punching shear consideration, is

RCC Structures Design The amount of reinforcement for main bars in a slab, is based upon

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

RCC Structures Design If ‘W’ is the uniformly distributed load on a circular slab of radius ‘R’ fixed at its ends, the maximum positive radial moment at its centre, is

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 minimum clear cover for R.C.C. columns shall be

RCC Structures Design
If q is the punching shear resistance per unit area a, is the side of a square footing for a column of side b, carrying a weight W including the weight of the footing, the depth (D) of the footing from punching shear consideration, is

RCC Structures Design
The amount of reinforcement for main bars in a slab, is based upon

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

RCC Structures Design
If ‘W’ is the uniformly distributed load on a circular slab of radius ‘R’ fixed at its ends, the maximum positive radial moment at its centre, is