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

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

High tension steel

High carbon steel

Stainless

Mild steel

High tension steel

High carbon steel

Stainless

Mild steel

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RCC Structures Design
Distribution of shear intensity over a rectangular section of a beam, follows:

A straight line

An elliptical curve

A circular curve

A parabolic curve

A straight line

An elliptical curve

A circular curve

A parabolic curve

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RCC Structures Design
The system in which high tensile alloy steel bars (silica manganese steel) are used as pre-stressing tendons, is known as

Lee-McCall system

Magnel-Blaton system

Freyssinet system

C.L. standard system

Lee-McCall system

Magnel-Blaton system

Freyssinet system

C.L. standard system

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RCC Structures Design
Bottom bars under the columns are extended into the interior of the footing slab to a distance greater than

42 diameters from the centre of the column

42 diameters from the outer edge of the column

24 diameters from the centre of the column

42 diameters from the inner edge of the column

42 diameters from the centre of the column

42 diameters from the outer edge of the column

24 diameters from the centre of the column

42 diameters from the inner edge of the column

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RCC Structures Design
‘P’ is the pre-stressed force applied to the tendon of a rectangular pre-stressed beam whose area of cross section is ‘A’ and sectional modulus is ‘Z’. The maximum stress ‘f’ in the beam, subjected to a maximum bending moment ‘M’, is

f = (P/A) + (M/Z)

f = (P/A) + (M/6Z)

f = (P/'+ (Z/M)

f = (A/P) + (M/Z)

f = (P/A) + (M/Z)

f = (P/A) + (M/6Z)

f = (P/'+ (Z/M)

f = (A/P) + (M/Z)

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RCC Structures Design
If the size of a column is reduced above the floor, the main bars of the columns, are

Stopped just below the floor level and separate lap bars provided

Bent inward at the floor level

Continued up

All of the listed here

Stopped just below the floor level and separate lap bars provided

Bent inward at the floor level

Continued up

All of the listed here

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RCC Structures Design

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

RCC Structures Design Distribution of shear intensity over a rectangular section of a beam, follows:

RCC Structures Design The system in which high tensile alloy steel bars (silica manganese steel) are used as pre-stressing tendons, is known as

RCC Structures Design Bottom bars under the columns are extended into the interior of the footing slab to a distance greater than

RCC Structures Design ‘P’ is the pre-stressed force applied to the tendon of a rectangular pre-stressed beam whose area of cross section is ‘A’ and sectional modulus is ‘Z’. The maximum stress ‘f’ in the beam, subjected to a maximum bending moment ‘M’, is

RCC Structures Design If the size of a column is reduced above the floor, the main bars of the columns, are

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

RCC Structures Design
Distribution of shear intensity over a rectangular section of a beam, follows:

RCC Structures Design
The system in which high tensile alloy steel bars (silica manganese steel) are used as pre-stressing tendons, is known as

RCC Structures Design
Bottom bars under the columns are extended into the interior of the footing slab to a distance greater than

RCC Structures Design
‘P’ is the pre-stressed force applied to the tendon of a rectangular pre-stressed beam whose area of cross section is ‘A’ and sectional modulus is ‘Z’. The maximum stress ‘f’ in the beam, subjected to a maximum bending moment ‘M’, is

RCC Structures Design
If the size of a column is reduced above the floor, the main bars of the columns, are