The load stress of a section can be reduced by

RCC Structures Design
The load stress of a section can be reduced by

Increasing the total perimeter of bars

Replacing smaller bars by greater number of greater bars

Replacing larger bars by greater number of small bars

Decreasing the lever arm

Increasing the total perimeter of bars

Replacing smaller bars by greater number of greater bars

Replacing larger bars by greater number of small bars

Decreasing the lever arm

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RCC Structures Design
The length of lap in tension reinforcement should not be less than the bar diameter × (actual tension / four times the permissible average bond stress) if it is more than

30 bar diameters

24 bar diameters

36 bar diameters

18 bar diameters

30 bar diameters

24 bar diameters

36 bar diameters

18 bar diameters

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RCC Structures Design
In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

mc/t = n/(d - n)

(m + c)/t = n/(d + n)

(t + c)/n = (d + n)/n

mc/t = (d - n)/t

mc/t = n/(d - n)

(m + c)/t = n/(d + n)

(t + c)/n = (d + n)/n

mc/t = (d - n)/t

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RCC Structures Design
Top bars are extended to the projecting parts of the combined footing of two columns L distance apart for a distance of

0.1 L from the outer edge of column

0.1 L from the centre edge of column

Half the distance of projection

One-fourth the distance of projection

0.1 L from the outer edge of column

0.1 L from the centre edge of column

Half the distance of projection

One-fourth the distance of projection

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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

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

Is decreased by Pe/Z

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RCC Structures Design
In case the factor of safety against sliding is less than 1.5, a portion of slab is constructed downwards at the end of the heel slab, which is known as

A cut-off wall

All listed here

A rib

A key

A cut-off wall

All listed here

A rib

A key

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RCC Structures Design

RCC Structures Design The load stress of a section can be reduced by

RCC Structures Design The length of lap in tension reinforcement should not be less than the bar diameter × (actual tension / four times the permissible average bond stress) if it is more than

RCC Structures Design In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

RCC Structures Design Top bars are extended to the projecting parts of the combined footing of two columns L distance apart for a distance of

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 case the factor of safety against sliding is less than 1.5, a portion of slab is constructed downwards at the end of the heel slab, which is known as

RCC Structures Design
The load stress of a section can be reduced by

RCC Structures Design
The length of lap in tension reinforcement should not be less than the bar diameter × (actual tension / four times the permissible average bond stress) if it is more than

RCC Structures Design
In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

RCC Structures Design
Top bars are extended to the projecting parts of the combined footing of two columns L distance apart for a distance of

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 case the factor of safety against sliding is less than 1.5, a portion of slab is constructed downwards at the end of the heel slab, which is known as