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

0.85 - 0.92

0.75 - 0.80

Above 0.92

0.85 - 0.92

0.75 - 0.80

Above 0.92

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

two cantilevers

one cantilever

four cantilevers

three cantilevers

two cantilevers

one cantilever

four cantilevers

three cantilevers

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Concrete Technology and Design of Concrete Structures
The compressive strength of 100 mm cube as compared to 150 mm cube is always

more

equal

less

None of these

more

equal

less

None of these

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Concrete Technology and Design of Concrete Structures
Select the incorrect statement for ...

Bleeding can be increased by addition of calcium chloride.

Lean mixes bleed more as compared to rich ones.

Bleeding can be minimized by adding pozzuolana finer aggregate.

None of these

Bleeding can be increased by addition of calcium chloride.

Lean mixes bleed more as compared to rich ones.

Bleeding can be minimized by adding pozzuolana finer aggregate.

None of these

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Concrete Technology and Design of Concrete Structures
Select the incorrect statement...

For heavy loads and large spans in buildings or bridges, post-tensioning system is cheaper than pretensioning system

Pretensioning system has greater certainty about its durability.

None of these

The loss of prestress is more in pre-tensioning system than in post-tensioning system.

For heavy loads and large spans in buildings or bridges, post-tensioning system is cheaper than pretensioning system

Pretensioning system has greater certainty about its durability.

None of these

The loss of prestress is more in pre-tensioning system than in post-tensioning system.

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Concrete Technology and Design of Concrete Structures
The maximum value of hoop compression in a dome is given by (where, w = load per unit area of surface of dome R = radius of curvature d = thickness of dome)

wR / 4d

wR/2d

wR/d

2wR/d

wR / 4d

wR/2d

wR/d

2wR/d

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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 A T-shaped retaining wall mainly conssits of

Concrete Technology and Design of Concrete Structures The compressive strength of 100 mm cube as compared to 150 mm cube is always

Concrete Technology and Design of Concrete Structures Select the incorrect statement for ...

Concrete Technology and Design of Concrete Structures Select the incorrect statement...

Concrete Technology and Design of Concrete Structures The maximum value of hoop compression in a dome is given by (where, w = load per unit area of surface of dome R = radius of curvature d = thickness of dome)

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
A T-shaped retaining wall mainly conssits of

Concrete Technology and Design of Concrete Structures
The compressive strength of 100 mm cube as compared to 150 mm cube is always

Concrete Technology and Design of Concrete Structures
Select the incorrect statement for ...

Concrete Technology and Design of Concrete Structures
Select the incorrect statement...

Concrete Technology and Design of Concrete Structures
The maximum value of hoop compression in a dome is given by (where, w = load per unit area of surface of dome R = radius of curvature d = thickness of dome)