The steel generally used in R.C.C. work, is

RCC Structures Design
The steel generally used in R.C.C. work, is

Mild steel

Stainless

High carbon steel

High tension steel

Mild steel

Stainless

High carbon steel

High tension steel

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RCC Structures Design
As the percentage of steel increases

Lever arm decreases

Lever arm increases

Depth of neutral axis increases

Depth of neutral axis decreases

Lever arm decreases

Lever arm increases

Depth of neutral axis increases

Depth of neutral axis decreases

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RCC Structures Design
The pitch of the main bars in a simply supported slab, should not exceed its effective depth by

Four times

Five times

Three times

Six times

Four times

Five times

Three times

Six times

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RCC Structures Design
In a beam the local bond stress Sb, is equal to

Shear force/(Leaver arm × Total perimeter of reinforcement)

Leaver arm/(Bending moment × Total perimeter of reinforcement)

Total perimeter of reinforcement/(Leaver arm × Shear force)

Leaver arm/(Shear force × Total perimeter of reinforcement)

Shear force/(Leaver arm × Total perimeter of reinforcement)

Leaver arm/(Bending moment × Total perimeter of reinforcement)

Total perimeter of reinforcement/(Leaver arm × Shear force)

Leaver arm/(Shear force × Total perimeter of reinforcement)

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RCC Structures Design
A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

None of these

Remains below the slab

Coincides the geometrical centre of the beam

Remains within the flange

None of these

Remains below the slab

Coincides the geometrical centre of the beam

Remains within the flange

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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)

w (1 - cos φ)/h (1 + sin φ)

wh (1 - sin φ)/(1 + sin φ)

wh (1 - cos φ)/(1 + sin φ)

wh (1 - tan φ)/(1 + tan φ)

w (1 - cos φ)/h (1 + sin φ)

wh (1 - sin φ)/(1 + sin φ)

wh (1 - cos φ)/(1 + sin φ)

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RCC Structures Design

RCC Structures Design The steel generally used in R.C.C. work, is

RCC Structures Design As the percentage of steel increases

RCC Structures Design The pitch of the main bars in a simply supported slab, should not exceed its effective depth by

RCC Structures Design In a beam the local bond stress Sb, is equal to

RCC Structures Design A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

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 steel generally used in R.C.C. work, is

RCC Structures Design
As the percentage of steel increases

RCC Structures Design
The pitch of the main bars in a simply supported slab, should not exceed its effective depth by

RCC Structures Design
In a beam the local bond stress Sb, is equal to

RCC Structures Design
A T-beam behaves as a rectangular beam of a width equal to its flange if its neutral axis

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