For initial estimate for a beam design, the width is assumed

RCC Structures Design
For initial estimate for a beam design, the width is assumed

1/30th of span

1/15th of span

1/20th of span

1/25th of span

1/30th of span

1/15th of span

1/20th of span

1/25th of span

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RCC Structures Design
To ensure that the hogging bending moment at two points of suspension of a pile of length L equals the sagging moment at its centre, the distances of the points of suspension from either end, is

0.307 L

0.107 L

0.207 L

0.407 L

0.307 L

0.107 L

0.207 L

0.407 L

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RCC Structures Design
If A is the area of the foundation of a retaining wall carrying a load W and retaining earth of weight 'w' per unit volume, the minimum depth (h) of the foundation from the free surface of the earth, is

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = √(W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = (W/Aw) [(1 + sin φ)/(1 + sin φ)]

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]

h = (W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = √(W/Aw) [(1 - sin φ)/(1 + sin φ)]²

h = (W/Aw) [(1 + sin φ)/(1 + sin φ)]

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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
Steel beam theory is used for

Steel beams encased in concrete

Beams if shear exceeds 4 times allowable shear stress

Design of simple steel beams

Doubly reinforced beams ignoring compressive stress in concrete

Steel beams encased in concrete

Beams if shear exceeds 4 times allowable shear stress

Design of simple steel beams

Doubly reinforced beams ignoring compressive stress in concrete

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RCC Structures Design
If T and R are the tread and rise of a stair which carries a load w per square metre on slope, the corresponding load per square metre of the horizontal area, is

w (R + T)/T

w √(R + T)/T

w √(R² + T²)/T

w (R/T)

w (R + T)/T

w √(R + T)/T

w √(R² + T²)/T

w (R/T)

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RCC Structures Design

RCC Structures Design For initial estimate for a beam design, the width is assumed

RCC Structures Design To ensure that the hogging bending moment at two points of suspension of a pile of length L equals the sagging moment at its centre, the distances of the points of suspension from either end, is

RCC Structures Design If A is the area of the foundation of a retaining wall carrying a load W and retaining earth of weight 'w' per unit volume, the minimum depth (h) of the foundation from the free surface of the earth, is

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 Steel beam theory is used for

RCC Structures Design If T and R are the tread and rise of a stair which carries a load w per square metre on slope, the corresponding load per square metre of the horizontal area, is

RCC Structures Design
For initial estimate for a beam design, the width is assumed

RCC Structures Design
To ensure that the hogging bending moment at two points of suspension of a pile of length L equals the sagging moment at its centre, the distances of the points of suspension from either end, is

RCC Structures Design
If A is the area of the foundation of a retaining wall carrying a load W and retaining earth of weight 'w' per unit volume, the minimum depth (h) of the foundation from the free surface of the earth, is

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
Steel beam theory is used for

RCC Structures Design
If T and R are the tread and rise of a stair which carries a load w per square metre on slope, the corresponding load per square metre of the horizontal area, is