The minimum thickness of the cover at the end of a reinforcing bar should not be less than twice the diameter of the bar subject to a minimum of

RCC Structures Design
The minimum thickness of the cover at the end of a reinforcing bar should not be less than twice the diameter of the bar subject to a minimum of

15 mm

20 mm

10 mm

25 mm

15 mm

20 mm

10 mm

25 mm

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RCC Structures Design
The width of the flange of a L-beam, should be less than

One-sixth of the effective span

Breadth of the rib + half clear distance between ribs

Least of the above

Breadth of the rib + four times thickness of the slab

One-sixth of the effective span

Breadth of the rib + half clear distance between ribs

Least of the above

Breadth of the rib + four times thickness of the slab

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RCC Structures Design
Steel beam theory is used for

Steel beams encased in concrete

Beams if shear exceeds 4 times allowable shear stress

Doubly reinforced beams ignoring compressive stress in concrete

Design of simple steel beams

Steel beams encased in concrete

Beams if shear exceeds 4 times allowable shear stress

Doubly reinforced beams ignoring compressive stress in concrete

Design of simple steel beams

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RCC Structures Design
The design of heel slab of a retaining wall is based on the maximum bending moment due to:

Weight of the soil above it

Load of the surcharge, if any

Its own weight

All listed here

Weight of the soil above it

Load of the surcharge, if any

Its own weight

All listed here

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RCC Structures Design
If the depth of actual neutral axis of a doubly reinforced beam

Is equal to the depth of critical neutral axis; the concrete and steel attain their maximum stresses simultaneously

All listed here

Is greater than the depth of critical neutral axis, the concrete attains its maximum stress earlier

Is less than the depth of critical neutral axis, the steel in the tensile zone attains its maximum stress earlier

Is equal to the depth of critical neutral axis; the concrete and steel attain their maximum stresses simultaneously

All listed here

Is greater than the depth of critical neutral axis, the concrete attains its maximum stress earlier

Is less than the depth of critical neutral axis, the steel in the tensile zone attains its maximum stress earlier

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RCC Structures Design
For the design of a simply supported T-beam the ratio of the effective span to the overall depth of the beam is limited to

10

15

20

25

10

15

20

25

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RCC Structures Design

RCC Structures Design The minimum thickness of the cover at the end of a reinforcing bar should not be less than twice the diameter of the bar subject to a minimum of

RCC Structures Design The width of the flange of a L-beam, should be less than

RCC Structures Design Steel beam theory is used for

RCC Structures Design The design of heel slab of a retaining wall is based on the maximum bending moment due to:

RCC Structures Design If the depth of actual neutral axis of a doubly reinforced beam

RCC Structures Design For the design of a simply supported T-beam the ratio of the effective span to the overall depth of the beam is limited to

RCC Structures Design
The minimum thickness of the cover at the end of a reinforcing bar should not be less than twice the diameter of the bar subject to a minimum of

RCC Structures Design
The width of the flange of a L-beam, should be less than

RCC Structures Design
Steel beam theory is used for

RCC Structures Design
The design of heel slab of a retaining wall is based on the maximum bending moment due to:

RCC Structures Design
If the depth of actual neutral axis of a doubly reinforced beam

RCC Structures Design
For the design of a simply supported T-beam the ratio of the effective span to the overall depth of the beam is limited to