The design of a retaining wall assumes that the retained earth

RCC Structures Design
The design of a retaining wall assumes that the retained earth

All listed here

Is not cohesive

Is dry

Is free from moisture

All listed here

Is not cohesive

Is dry

Is free from moisture

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RCC Structures Design
An R.C.C. beam of 6 m span is 30 cm wide and has a lever arm of 55 cm. If it carries a U.D.L. of 12 t per m and allowable shear stress is 5 kg/cm², the beam

Needs revision of section

Is safe with stirrups

Is safe with stirrups and inclined bars

Is safe in shear

Needs revision of section

Is safe with stirrups

Is safe with stirrups and inclined bars

Is safe in shear

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RCC Structures Design
The angle of internal friction of soil mass is the angle whose

None of these

Sine is equal to the ratio of the maximum resistance to sliding on any internal inclined plane to the normal pressure acting on the plane

Tangent is equal to the rate of the maximum resistance to sliding on any internal inclined plane to the normal pressure acting on the plane

Cosine is equal to the ratio of the maximum resistance sliding on any internal inclined plane to the normal pressure acting on the plane

None of these

Sine is equal to the ratio of the maximum resistance to sliding on any internal inclined plane to the normal pressure acting on the plane

Tangent is equal to the rate of the maximum resistance to sliding on any internal inclined plane to the normal pressure acting on the plane

Cosine is equal to the ratio of the maximum resistance sliding on any internal inclined plane to the normal pressure acting on the plane

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RCC Structures Design
If T and R are tread and rise respectively of a stair, then

2R + T = 30

R + 2T = 60

2R + T = 60

R + 2T= 30

2R + T = 30

R + 2T = 60

2R + T = 60

R + 2T= 30

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RCC Structures Design
[A + (m - 1)ASC] known as equivalent concrete area of R.C.C. is given by

Modular ratio method

Load factor method

None of these

Ultimate load method

Modular ratio method

Load factor method

None of these

Ultimate load method

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RCC Structures Design
The stresses developed in concrete and steel in reinforced concrete beam 25 cm width and 70 cm effective depth, are 62.5 kg/cm² and 250 kg/cm² respectively. If m = 15, the depth of its neutral axis is

35 cm

20 cm

25 cm

30 cm

35 cm

20 cm

25 cm

30 cm

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RCC Structures Design

RCC Structures Design The design of a retaining wall assumes that the retained earth

RCC Structures Design An R.C.C. beam of 6 m span is 30 cm wide and has a lever arm of 55 cm. If it carries a U.D.L. of 12 t per m and allowable shear stress is 5 kg/cm², the beam

RCC Structures Design The angle of internal friction of soil mass is the angle whose

RCC Structures Design If T and R are tread and rise respectively of a stair, then

RCC Structures Design [A + (m - 1)ASC] known as equivalent concrete area of R.C.C. is given by

RCC Structures Design The stresses developed in concrete and steel in reinforced concrete beam 25 cm width and 70 cm effective depth, are 62.5 kg/cm² and 250 kg/cm² respectively. If m = 15, the depth of its neutral axis is

RCC Structures Design
The design of a retaining wall assumes that the retained earth

RCC Structures Design
An R.C.C. beam of 6 m span is 30 cm wide and has a lever arm of 55 cm. If it carries a U.D.L. of 12 t per m and allowable shear stress is 5 kg/cm², the beam

RCC Structures Design
The angle of internal friction of soil mass is the angle whose

RCC Structures Design
If T and R are tread and rise respectively of a stair, then

RCC Structures Design
[A + (m - 1)ASC] known as equivalent concrete area of R.C.C. is given by

RCC Structures Design
The stresses developed in concrete and steel in reinforced concrete beam 25 cm width and 70 cm effective depth, are 62.5 kg/cm² and 250 kg/cm² respectively. If m = 15, the depth of its neutral axis is