According to I.S.: 456, 1978 the thickness of reinforced concrete footing on piles at its edges, is kept less than

RCC Structures Design
According to I.S.: 456, 1978 the thickness of reinforced concrete footing on piles at its edges, is kept less than

30 cm

40 cm

20 cm

75 cm

30 cm

40 cm

20 cm

75 cm

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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
Dimensions of a beam need be changed if the shear stress is more than

25 kg/cm²

10 kg/cm²

20 kg/cm²

15 kg/cm²

25 kg/cm²

10 kg/cm²

20 kg/cm²

15 kg/cm²

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RCC Structures Design
If the sides of a slab simply supported on edges and spanning in two directions are equal, the maximum bending moment is multiplied by

0.5

0.7

0.6

0.4

0.5

0.7

0.6

0.4

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RCC Structures Design
If d and n are the effective depth and depth of the neutral axis respectively of a singly reinforced beam, the lever arm of the beam, is

d - n/3

n

d

d + n/3

d - n/3

n

d

d + n/3

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RCC Structures Design
Design of R.C.C. cantilever beams, is based on the resultant force at

Fixed end

Mid span

Mid span and fixed support

Free end

Fixed end

Mid span

Mid span and fixed support

Free end

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RCC Structures Design

RCC Structures Design According to I.S.: 456, 1978 the thickness of reinforced concrete footing on piles at its edges, is kept less than

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

RCC Structures Design Dimensions of a beam need be changed if the shear stress is more than

RCC Structures Design If the sides of a slab simply supported on edges and spanning in two directions are equal, the maximum bending moment is multiplied by

RCC Structures Design If d and n are the effective depth and depth of the neutral axis respectively of a singly reinforced beam, the lever arm of the beam, is

RCC Structures Design Design of R.C.C. cantilever beams, is based on the resultant force at

RCC Structures Design
According to I.S.: 456, 1978 the thickness of reinforced concrete footing on piles at its edges, is kept less than

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

RCC Structures Design
Dimensions of a beam need be changed if the shear stress is more than

RCC Structures Design
If the sides of a slab simply supported on edges and spanning in two directions are equal, the maximum bending moment is multiplied by

RCC Structures Design
If d and n are the effective depth and depth of the neutral axis respectively of a singly reinforced beam, the lever arm of the beam, is

RCC Structures Design
Design of R.C.C. cantilever beams, is based on the resultant force at