Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

RCC Structures Design
Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

Mid span

Quarter span

Every section

Supports

Mid span

Quarter span

Every section

Supports

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RCC Structures Design
If p₁ and p₂ are mutually perpendicular principal stresses acting on a soil mass, the normal stress on any plane inclined at angle θ° to the principal plane carrying the principal stress p₁, is:

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] sin 2θ

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] sin 2θ

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] cos 2θ

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] cos 2θ

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] sin 2θ

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] sin 2θ

[(p₁ - p₂)/2] + [(p₁ + p₂)/2] cos 2θ

[(p₁ + p₂)/2] + [(p₁ - p₂)/2] cos 2θ

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RCC Structures Design
A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

Remains below the slab

None of these

Coincides the geometrical centre of the beam

Remains within the flange

Remains below the slab

None of these

Coincides the geometrical centre of the beam

Remains within the flange

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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) (r²/1 + r³) M

(5/6) (r²/1 + r²) M

(5/6) (r/1 + r²) M

(5/6) (r²/1 + r⁴) M

(5/6) (r²/1 + r³) M

(5/6) (r²/1 + r²) M

(5/6) (r/1 + r²) M

(5/6) (r²/1 + r⁴) M

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RCC Structures Design
If the shear stress in a R.C.C. beam is

Equal or less than 5 kg/cm², no shear reinforcement is provided

Greater than 20 kg/cm², the size of the section is changed

All of these

Greater than 4 kg/cm², but less than 20 kg/cm², shear reinforcement is provided

Equal or less than 5 kg/cm², no shear reinforcement is provided

Greater than 20 kg/cm², the size of the section is changed

All of these

Greater than 4 kg/cm², but less than 20 kg/cm², shear reinforcement is provided

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RCC Structures Design
Side face reinforcement shall be provided in the beam when depth of the web in a beam exceeds

100 cm

120 cm

75 cm

50 cm

100 cm

120 cm

75 cm

50 cm

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RCC Structures Design

RCC Structures Design Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

RCC Structures Design If p₁ and p₂ are mutually perpendicular principal stresses acting on a soil mass, the normal stress on any plane inclined at angle θ° to the principal plane carrying the principal stress p₁, is:

RCC Structures Design A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

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 If the shear stress in a R.C.C. beam is

RCC Structures Design Side face reinforcement shall be provided in the beam when depth of the web in a beam exceeds

RCC Structures Design
Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

RCC Structures Design
If p₁ and p₂ are mutually perpendicular principal stresses acting on a soil mass, the normal stress on any plane inclined at angle θ° to the principal plane carrying the principal stress p₁, is:

RCC Structures Design
A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

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
If the shear stress in a R.C.C. beam is

RCC Structures Design
Side face reinforcement shall be provided in the beam when depth of the web in a beam exceeds