For concreting of heavily reinforced sections without vibration, the workability of concrete expressed as compacting factor should be

Concrete Technology and Design of Concrete Structures
For concreting of heavily reinforced sections without vibration, the workability of concrete expressed as compacting factor should be

0.75 - 0.80

0.85 - 0.92

0.75 - 0.80

Above 0.92

0.75 - 0.80

0.85 - 0.92

0.75 - 0.80

Above 0.92

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Concrete Technology and Design of Concrete Structures
Prestress loss due to friction occurs

only in pretensioned beams

in both post-tensioned and preten-sioned beams

None of these

only in post-tensioned beams

only in pretensioned beams

in both post-tensioned and preten-sioned beams

None of these

only in post-tensioned beams

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Concrete Technology and Design of Concrete Structures
In a counterfort retaining wall, the main reinforcement is provided on the i) bottom face in front counterfort ii) inclined face in front counterfort iii) bottom face in back counterfort iv) inclined face in back counterEort The correct answer is

(i) and (ii),

(ii) and (iii)

(i) and (iv)

(iii) and (iv)

(i) and (ii),

(ii) and (iii)

(i) and (iv)

(iii) and (iv)

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Concrete Technology and Design of Concrete Structures
A T-shaped retaining wall mainly conssits of

one cantilever

two cantilevers

three cantilevers

four cantilevers

one cantilever

two cantilevers

three cantilevers

four cantilevers

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Concrete Technology and Design of Concrete Structures
In prestressed concrete

forces of tension and compressions remain unchanged but lever arm changes with the moment

both forces of tension and compres-sion as well as lever arm change

both forces of tension and compres-sion as well as lever arm remain unchanged

forces of tension and compression change but lever arm remains unchanged

forces of tension and compressions remain unchanged but lever arm changes with the moment

both forces of tension and compres-sion as well as lever arm change

both forces of tension and compres-sion as well as lever arm remain unchanged

forces of tension and compression change but lever arm remains unchanged

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Concrete Technology and Design of Concrete Structures
A continuous beam is deemed to be a deep beam when the ratio of effective span to overall depth (1/D) is less than

2.5

3.5

5.5

4.5

2.5

3.5

5.5

4.5

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Concrete Technology and Design of Concrete Structures

Concrete Technology and Design of Concrete Structures For concreting of heavily reinforced sections without vibration, the workability of concrete expressed as compacting factor should be

Concrete Technology and Design of Concrete Structures Prestress loss due to friction occurs

Concrete Technology and Design of Concrete Structures A T-shaped retaining wall mainly conssits of

Concrete Technology and Design of Concrete Structures In prestressed concrete

Concrete Technology and Design of Concrete Structures A continuous beam is deemed to be a deep beam when the ratio of effective span to overall depth (1/D) is less than

Concrete Technology and Design of Concrete Structures
For concreting of heavily reinforced sections without vibration, the workability of concrete expressed as compacting factor should be

Concrete Technology and Design of Concrete Structures
Prestress loss due to friction occurs

Concrete Technology and Design of Concrete Structures
A T-shaped retaining wall mainly conssits of

Concrete Technology and Design of Concrete Structures
In prestressed concrete

Concrete Technology and Design of Concrete Structures
A continuous beam is deemed to be a deep beam when the ratio of effective span to overall depth (1/D) is less than