Steel beam theory is used for

RCC Structures Design
Steel beam theory is used for

Steel beams encased in concrete

Design of simple steel beams

Doubly reinforced beams ignoring compressive stress in concrete

Beams if shear exceeds 4 times allowable shear stress

Steel beams encased in concrete

Design of simple steel beams

Doubly reinforced beams ignoring compressive stress in concrete

Beams if shear exceeds 4 times allowable shear stress

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RCC Structures Design
In testing a pile by load test, pile platform is loaded with one and half times the design load and a maximum settlement is noted. The load is gradually removed and the consequent rebound is measured. For a safe pile, the net settlement (i.e. total settlement minus rebound) per tonne of test load should not exceed

25 mm

15 mm

20 mm

10 mm

25 mm

15 mm

20 mm

10 mm

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RCC Structures Design
The number of treads in a flight is equal to

Risers minus one

Risers plus one

None of these

Risers in the flight

Risers minus one

Risers plus one

None of these

Risers in the flight

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RCC Structures Design
The ratio of the breadth to effective depth of a beam is kept

0.75

0.7

0.25

0.5

0.75

0.7

0.25

0.5

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RCC Structures Design
A pre-stressed rectangular beam which carries two concentrated loads W at L/3 from either end, is provided with a bent tendon with tension P such that central one-third portion of the tendon remains parallel to the longitudinal axis, the maximum dip h is

WL/4P

WL/3P

WL/P

WL/2P

WL/4P

WL/3P

WL/P

WL/2P

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RCC Structures Design
As per IS : 456, the reinforcement in a column should not be less than

0.6% and not more than 6% of cross-sectional area

0.8% and not more than 8% of cross-sectional area

0.7% and not more than 7% of cross-sectional area

0.5% and not more than 5% of cross-sectional area

0.6% and not more than 6% of cross-sectional area

0.8% and not more than 8% of cross-sectional area

0.7% and not more than 7% of cross-sectional area

0.5% and not more than 5% of cross-sectional area

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RCC Structures Design

RCC Structures Design Steel beam theory is used for

RCC Structures Design The number of treads in a flight is equal to

RCC Structures Design The ratio of the breadth to effective depth of a beam is kept

RCC Structures Design A pre-stressed rectangular beam which carries two concentrated loads W at L/3 from either end, is provided with a bent tendon with tension P such that central one-third portion of the tendon remains parallel to the longitudinal axis, the maximum dip h is

RCC Structures Design As per IS : 456, the reinforcement in a column should not be less than

RCC Structures Design
Steel beam theory is used for

RCC Structures Design
The number of treads in a flight is equal to

RCC Structures Design
The ratio of the breadth to effective depth of a beam is kept

RCC Structures Design
A pre-stressed rectangular beam which carries two concentrated loads W at L/3 from either end, is provided with a bent tendon with tension P such that central one-third portion of the tendon remains parallel to the longitudinal axis, the maximum dip h is

RCC Structures Design
As per IS : 456, the reinforcement in a column should not be less than