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

Quarter span

Supports

Every section

Mid span

Quarter span

Supports

Every section

Mid span

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RCC Structures Design
In a singly reinforced beam

Plane sections transverse to the centre line of the beam before bending remain plane after bending

Compression is borne entirely by concrete

Steel possesses initial stresses when embedded in concrete

Elastic moduli for concrete and steel have different values within the limits of deformation of the beam

Plane sections transverse to the centre line of the beam before bending remain plane after bending

Compression is borne entirely by concrete

Steel possesses initial stresses when embedded in concrete

Elastic moduli for concrete and steel have different values within the limits of deformation of the beam

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RCC Structures Design
If W is the load on a circular slab of radius R, the maximum circumferential moment at the centre of the slab, is

3WR²/16

2WR²/16

WR²/16

Zero

3WR²/16

2WR²/16

WR²/16

Zero

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RCC Structures Design
In a singly reinforced beam, the effective depth is measured from its compression edge to

Tensile reinforcement

Longitudinal central axis

Neutral axis of the beam

Tensile edge

Tensile reinforcement

Longitudinal central axis

Neutral axis of the beam

Tensile edge

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RCC Structures Design
In the zone of R.C.C. beam where shear stress is less than 5 kg/cm², nominal reinforcement is provided at a pitch of

One and half lever arm of the section

Lever arm of the section

One-third lever arm of the section

One-half lever arm of the section

One and half lever arm of the section

Lever arm of the section

One-third lever arm of the section

One-half lever arm of the section

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RCC Structures Design
The effective span of a simply supported slab, is

Distance between the centers of the bearings

Clear span plus effective depth of the slab

Clear distance between the inner faces of the walls plus twice the thickness of the wall

None of these

Distance between the centers of the bearings

Clear span plus effective depth of the slab

Clear distance between the inner faces of the walls plus twice the thickness of the wall

None of these

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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 In a singly reinforced beam

RCC Structures Design If W is the load on a circular slab of radius R, the maximum circumferential moment at the centre of the slab, is

RCC Structures Design In a singly reinforced beam, the effective depth is measured from its compression edge to

RCC Structures Design In the zone of R.C.C. beam where shear stress is less than 5 kg/cm², nominal reinforcement is provided at a pitch of

RCC Structures Design The effective span of a simply supported slab, is

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
In a singly reinforced beam

RCC Structures Design
If W is the load on a circular slab of radius R, the maximum circumferential moment at the centre of the slab, is

RCC Structures Design
In a singly reinforced beam, the effective depth is measured from its compression edge to

RCC Structures Design
In the zone of R.C.C. beam where shear stress is less than 5 kg/cm², nominal reinforcement is provided at a pitch of

RCC Structures Design
The effective span of a simply supported slab, is