Cantilever retaining walls can safely be used for a height not more than

RCC Structures Design
Cantilever retaining walls can safely be used for a height not more than

5 m

3 m

6 m

4 m

5 m

3 m

6 m

4 m

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RCC Structures Design
With usual notations the depth of the neutral axis of a balanced section, is given by

t/mc = (d + n)/n

mc/t = (d - n)/n

mc/t = n/(d - n)

t/mc = (d - n)/n

t/mc = (d + n)/n

mc/t = (d - n)/n

mc/t = n/(d - n)

t/mc = (d - n)/n

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

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

A transverse plane section remains a plane after bending

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

All listed here

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

A transverse plane section remains a plane after bending

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

All listed here

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RCC Structures Design
If A is the area of the foundation of a retaining wall carrying a load W and retaining earth of weight 'w' per unit volume, the minimum depth (h) of the foundation from the free surface of the earth, is

h = √(W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]

h = (W/Aw) [(1 + sin φ)/(1 + sin φ)]

h = √(W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]

h = (W/Aw) [(1 + sin φ)/(1 + sin φ)]

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RCC Structures Design
For normal cases, stiffness of a simply supported beam is satisfied if the ratio of its span to its overall depth does not exceed

10

20

15

25

10

20

15

25

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

Elastic shortening of concrete

All of the listed here

Shrinkage of concrete

Creep of concrete

Elastic shortening of concrete

All of the listed here

Shrinkage of concrete

Creep of concrete

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RCC Structures Design

RCC Structures Design Cantilever retaining walls can safely be used for a height not more than

RCC Structures Design With usual notations the depth of the neutral axis of a balanced section, is given by

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

RCC Structures Design If A is the area of the foundation of a retaining wall carrying a load W and retaining earth of weight 'w' per unit volume, the minimum depth (h) of the foundation from the free surface of the earth, is

RCC Structures Design For normal cases, stiffness of a simply supported beam is satisfied if the ratio of its span to its overall depth does not exceed

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

RCC Structures Design
Cantilever retaining walls can safely be used for a height not more than

RCC Structures Design
With usual notations the depth of the neutral axis of a balanced section, is given by

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

RCC Structures Design
If A is the area of the foundation of a retaining wall carrying a load W and retaining earth of weight 'w' per unit volume, the minimum depth (h) of the foundation from the free surface of the earth, is

RCC Structures Design
For normal cases, stiffness of a simply supported beam is satisfied if the ratio of its span to its overall depth does not exceed

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