The bracing between two columns of a steel tank will be designed to resist

Design of Steel Structure
The bracing between two columns of a steel tank will be designed to resist

column loads + full horizontal shear due to wind or earthquake

horizontal, shear due to wind or earthquake + 2.5% of column loads

horizontal shear due to wind or earthquake only

column loads + 2.5% of horizontal shear due to wind or earthquake

column loads + full horizontal shear due to wind or earthquake

horizontal, shear due to wind or earthquake + 2.5% of column loads

horizontal shear due to wind or earthquake only

column loads + 2.5% of horizontal shear due to wind or earthquake

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Design of Steel Structure
The diameter of base of conical flare of a steel stack is (where d is the diameter of the cylindrical part)

Any of these

equal to d

more than d

less than d

Any of these

equal to d

more than d

less than d

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Design of Steel Structure
In case of plastic design, the calculated maximum shear capacity of a beam as per IS:800 shall be (where, Aw = effective cross-sectional area resisting shear fy = yield stress of the steel)

0.75 Awfy

0.85 Awfy

0.65 Awfy

0.55 Awfy

0.75 Awfy

0.85 Awfy

0.65 Awfy

0.55 Awfy

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Design of Steel Structure
In case of timber structures, the simple bending formula M = fz may be applied for

all rectangular beams

all square cross-section beams

rectangular beams up to 300 mm depth

solid circular beams only

all rectangular beams

all square cross-section beams

rectangular beams up to 300 mm depth

solid circular beams only

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Design of Steel Structure
In moment resistant connections, the moment resistance of riveted connection depends upon

Strength of rivets in bearing

Compression in rivets

Shear in rivets

Tension in rivets

Strength of rivets in bearing

Compression in rivets

Shear in rivets

Tension in rivets

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Design of Steel Structure
The basic wind speed is specified at a height ‘h’ above mean ground level in an open terrain. The value of ’h’ is

10 m

30 m

20 m

40 m

10 m

30 m

20 m

40 m

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Design of Steel Structure

Design of Steel Structure The bracing between two columns of a steel tank will be designed to resist

Design of Steel Structure The diameter of base of conical flare of a steel stack is (where d is the diameter of the cylindrical part)

Design of Steel Structure In case of plastic design, the calculated maximum shear capacity of a beam as per IS:800 shall be (where, Aw = effective cross-sectional area resisting shear fy = yield stress of the steel)

Design of Steel Structure In case of timber structures, the simple bending formula M = fz may be applied for

Design of Steel Structure In moment resistant connections, the moment resistance of riveted connection depends upon

Design of Steel Structure The basic wind speed is specified at a height ‘h’ above mean ground level in an open terrain. The value of ’h’ is

Design of Steel Structure
The bracing between two columns of a steel tank will be designed to resist

Design of Steel Structure
The diameter of base of conical flare of a steel stack is (where d is the diameter of the cylindrical part)

Design of Steel Structure
In case of plastic design, the calculated maximum shear capacity of a beam as per IS:800 shall be (where, Aw = effective cross-sectional area resisting shear fy = yield stress of the steel)

Design of Steel Structure
In case of timber structures, the simple bending formula M = fz may be applied for

Design of Steel Structure
In moment resistant connections, the moment resistance of riveted connection depends upon

Design of Steel Structure
The basic wind speed is specified at a height ‘h’ above mean ground level in an open terrain. The value of ’h’ is