If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

RCC Structures Design
If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

Is decreased by Pe/Z

Remains unchanged

Is increased by PZ/e

Is increased by Pe/Z

Is decreased by Pe/Z

Remains unchanged

Is increased by PZ/e

Is increased by Pe/Z

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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

Lever arm of the section

One-half lever arm of the section

One-third lever arm of the section

One and half lever arm of the section

Lever arm of the section

One-half lever arm of the section

One-third lever arm of the section

One and half lever arm of the section

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RCC Structures Design
The diameter of the column head support a flat slab, is generally kept

0.25 times the span length

0.25 times the diameter of the column

4.0 cm larger than the diameter of the column

5.0 cm larger than the diameter of the column

0.25 times the span length

0.25 times the diameter of the column

4.0 cm larger than the diameter of the column

5.0 cm larger than the diameter of the column

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

Fixed end

Free end

Mid span

Mid span and fixed support

Fixed end

Free end

Mid span

Mid span and fixed support

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RCC Structures Design
The maximum shear stress (qmax) in a rectangular beam is

1.75 times the average

2.0 times the average

1.50 times the average

1.25 times the average

1.75 times the average

2.0 times the average

1.50 times the average

1.25 times the average

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RCC Structures Design
A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

Atft (d - n/3)

bn (fc/2) (d - n/3)

All listed here

½ n₁ (1 - n₁/3) cbd²

Atft (d - n/3)

bn (fc/2) (d - n/3)

All listed here

½ n₁ (1 - n₁/3) cbd²

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RCC Structures Design

RCC Structures Design If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

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 diameter of the column head support a flat slab, is generally kept

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

RCC Structures Design The maximum shear stress (qmax) in a rectangular beam is

RCC Structures Design A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

RCC Structures Design
If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

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 diameter of the column head support a flat slab, is generally kept

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

RCC Structures Design
The maximum shear stress (qmax) in a rectangular beam is

RCC Structures Design
A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is