If a bent tendon is required to balance a concentrated load W at the centre of the span L, the central dip h must be at least

RCC Structures Design
If a bent tendon is required to balance a concentrated load W at the centre of the span L, the central dip h must be at least

WL/P

WL/4P

WL/3P

WL/2P

WL/P

WL/4P

WL/3P

WL/2P

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RCC Structures Design
If p1 is the vertical intensity of pressure at a depth h on a block of earth weighing w per unit volume and the angle of repose φ, the lateral intensity of pressure p2 is

wh (1 - tan φ)/(1 + tan φ)

wh (1 - cos φ)/(1 + sin φ)

w (1 - cos φ)/h (1 + sin φ)

wh (1 - sin φ)/(1 + sin φ)

wh (1 - tan φ)/(1 + tan φ)

wh (1 - cos φ)/(1 + sin φ)

w (1 - cos φ)/h (1 + sin φ)

wh (1 - sin φ)/(1 + sin φ)

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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 + four times thickness of the slab

Breadth of the rib + half clear distance between ribs

Least of the above

One-sixth of the effective span

Breadth of the rib + four times thickness of the slab

Breadth of the rib + half clear distance between ribs

Least of the above

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RCC Structures Design
Thickened part of a flat slab over its supporting column, is technically known as

Drop panel

Capital

Column head

None of these

Drop panel

Capital

Column head

None of these

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RCC Structures Design
According to I.S. : 456, slabs which span in two directions with corners held down, are assumed to be divided in each direction into middle strips and edge strips such that the width of the middle strip, is

Two-third of the width of the slab

Four-fifth of the width of the slab

Half of the width of the slab

Three-fourth of the width of the slab

Two-third of the width of the slab

Four-fifth of the width of the slab

Half of the width of the slab

Three-fourth of the width of the slab

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

Distance between the centers of T-beam

Least of the above

Breadth of the rib plus twelve times the thickness of the slab

One-third of the effective span of the T-beam

Distance between the centers of T-beam

Least of the above

Breadth of the rib plus twelve times the thickness of the slab

One-third of the effective span of the T-beam

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RCC Structures Design

RCC Structures Design If a bent tendon is required to balance a concentrated load W at the centre of the span L, the central dip h must be at least

RCC Structures Design If p1 is the vertical intensity of pressure at a depth h on a block of earth weighing w per unit volume and the angle of repose φ, the lateral intensity of pressure p2 is

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

RCC Structures Design Thickened part of a flat slab over its supporting column, is technically known as

RCC Structures Design According to I.S. : 456, slabs which span in two directions with corners held down, are assumed to be divided in each direction into middle strips and edge strips such that the width of the middle strip, is

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

RCC Structures Design
If a bent tendon is required to balance a concentrated load W at the centre of the span L, the central dip h must be at least

RCC Structures Design
If p1 is the vertical intensity of pressure at a depth h on a block of earth weighing w per unit volume and the angle of repose φ, the lateral intensity of pressure p2 is

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

RCC Structures Design
Thickened part of a flat slab over its supporting column, is technically known as

RCC Structures Design
According to I.S. : 456, slabs which span in two directions with corners held down, are assumed to be divided in each direction into middle strips and edge strips such that the width of the middle strip, is

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