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 + 2.5% of horizontal shear due to wind or earthquake

horizontal shear due to wind or earthquake only

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

column loads + full horizontal shear due to wind or earthquake

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

horizontal shear due to wind or earthquake only

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

column loads + full horizontal shear due to wind or earthquake

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Design of Steel Structure
Minimum pitch provided in riveted steel tanks is (where d is diameter of rivets)

2.0 d

3.0 d

1.5 d

2.5 d

2.0 d

3.0 d

1.5 d

2.5 d

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Design of Steel Structure
The overlap of batten plates with the main members in welded connections should be more than (where t = thickness of the batten plate)

4t

6t

3t

8t

4t

6t

3t

8t

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Design of Steel Structure
The connection of intermediate vertical stiffeners to the web, not subjected to external loads, shall be designed for a minimum shear force (kN/m) of (where, t = the web thickness in mm h = the outstand of stiffener in mm)

175 t2/h

75 t2/h

125 t2/h

175 t2/h

75 t2/h

125 t2/h

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Design of Steel Structure
The centrifugal force due to curvature of track is assumed to act on the bridge at a height of

1.23 m above the rail level

1.83 m above the rail level

2.13 m above the rail level

1.50 m above the rail level

1.23 m above the rail level

1.83 m above the rail level

2.13 m above the rail level

1.50 m above the rail level

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

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

all rectangular beams

all square cross-section beams

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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 Minimum pitch provided in riveted steel tanks is (where d is diameter of rivets)

Design of Steel Structure The overlap of batten plates with the main members in welded connections should be more than (where t = thickness of the batten plate)

Design of Steel Structure The connection of intermediate vertical stiffeners to the web, not subjected to external loads, shall be designed for a minimum shear force (kN/m) of (where, t = the web thickness in mm h = the outstand of stiffener in mm)

Design of Steel Structure The centrifugal force due to curvature of track is assumed to act on the bridge at a height of

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

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

Design of Steel Structure
Minimum pitch provided in riveted steel tanks is (where d is diameter of rivets)

Design of Steel Structure
The overlap of batten plates with the main members in welded connections should be more than (where t = thickness of the batten plate)

Design of Steel Structure
The connection of intermediate vertical stiffeners to the web, not subjected to external loads, shall be designed for a minimum shear force (kN/m) of (where, t = the web thickness in mm h = the outstand of stiffener in mm)

Design of Steel Structure
The centrifugal force due to curvature of track is assumed to act on the bridge at a height of

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