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

75 cm

40 cm

30 cm

20 cm

75 cm

40 cm

30 cm

20 cm

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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

Is safe in shear

Needs revision of section

Is safe with stirrups and inclined bars

Is safe with stirrups

Is safe in shear

Needs revision of section

Is safe with stirrups and inclined bars

Is safe with stirrups

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RCC Structures Design
An R.C.C beam of 25 cm width has a clear span of 5 metres and carries a U.D.L. of 2000 kg/m inclusive of its self weight. If the lever arm of the section is 45 cm., the beam is

Is safe with stirrups

Is safe with stirrups and inclined members

Needs revision of the section

Safe in shear

Is safe with stirrups

Is safe with stirrups and inclined members

Needs revision of the section

Safe in shear

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RCC Structures Design
If the ratio of long and short spans of a two way slab with corners held down is r, the actual reduction of B.M. is given by

(5/6) (r/1 + r²) M

(5/6) (r²/1 + r³) M

(5/6) (r²/1 + r⁴) M

(5/6) (r²/1 + r²) M

(5/6) (r/1 + r²) M

(5/6) (r²/1 + r³) M

(5/6) (r²/1 + r⁴) M

(5/6) (r²/1 + r²) M

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RCC Structures Design
If K is a constant depending upon the ratio of the width of the slab to its effective span l, x is the distance of the concentrated load from the nearer support, bw is the width of the area of contact of the concentrated load measured parallel to the supported edge, the effective width of the slab be is

Kx (1 + x/l) + bw

All listed here

Kx (1 - x/l) + bw

K/x (1 + x/d) + bw

Kx (1 + x/l) + bw

All listed here

Kx (1 - x/l) + bw

K/x (1 + x/d) + bw

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RCC Structures Design
The maximum ratio of span to depth of a cantilever slab, is

12

16

10

8

12

16

10

8

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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 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 An R.C.C beam of 25 cm width has a clear span of 5 metres and carries a U.D.L. of 2000 kg/m inclusive of its self weight. If the lever arm of the section is 45 cm., the beam is

RCC Structures Design If the ratio of long and short spans of a two way slab with corners held down is r, the actual reduction of B.M. is given by

RCC Structures Design The maximum ratio of span to depth of a cantilever slab, is

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
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
An R.C.C beam of 25 cm width has a clear span of 5 metres and carries a U.D.L. of 2000 kg/m inclusive of its self weight. If the lever arm of the section is 45 cm., the beam is

RCC Structures Design
If the ratio of long and short spans of a two way slab with corners held down is r, the actual reduction of B.M. is given by

RCC Structures Design
The maximum ratio of span to depth of a cantilever slab, is