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

horizontal shear due to wind or earthquake only

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

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 only

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

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

column loads + full horizontal shear due to wind or earthquake

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Design of Steel Structure
The statical method of plastic analysis satisfies

equilibrium condition only

equilibrium and plastic moment conditions

equilibrium and mechanism conditions

mechanism and plastic moment conditions

equilibrium condition only

equilibrium and plastic moment conditions

equilibrium and mechanism conditions

mechanism and plastic moment conditions

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Design of Steel Structure
Battening is preferable when the
i) column carries axial load only
ii) space between the two main components is not very large
iii) column is eccentrically loaded
The correct answer is

only (i)

(ii) and (iii)

(i) and (ii)

only (iii)

only (i)

(ii) and (iii)

(i) and (ii)

only (iii)

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Design of Steel Structure
According to IS Specifications, the maximum pitch of rivets in compression is (where t is thickness of thinnest outside plate or angle)

lesser of 3 00 mm and 24 t

lesser of 300 mm and 32 t

lesser of 200 mm and 12 t

lesser of 200 mm and 161

lesser of 3 00 mm and 24 t

lesser of 300 mm and 32 t

lesser of 200 mm and 12 t

lesser of 200 mm and 161

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Design of Steel Structure
The allowable tensile stress in structural mild steel plates for steel tank is assumed as

150.0 MPa on gross area

105.5 MPa on net area

105.5 MPa on gross area

95.0 MPa on net area

150.0 MPa on gross area

105.5 MPa on net area

105.5 MPa on gross area

95.0 MPa on net area

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Design of Steel Structure
The least dimension in case of a circular column of diameter D is taken as

0.78 D

0.5 D

0.68 D

0.88 D

0.78 D

0.5 D

0.68 D

0.88 D

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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 statical method of plastic analysis satisfies

Design of Steel Structure Battening is preferable when thei) column carries axial load onlyii) space between the two main components is not very largeiii) column is eccentrically loadedThe correct answer is

Design of Steel Structure According to IS Specifications, the maximum pitch of rivets in compression is (where t is thickness of thinnest outside plate or angle)

Design of Steel Structure The allowable tensile stress in structural mild steel plates for steel tank is assumed as

Design of Steel Structure The least dimension in case of a circular column of diameter D is taken as

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

Design of Steel Structure
The statical method of plastic analysis satisfies

Design of Steel Structure
Battening is preferable when the
i) column carries axial load only
ii) space between the two main components is not very large
iii) column is eccentrically loaded
The correct answer is

Design of Steel Structure
According to IS Specifications, the maximum pitch of rivets in compression is (where t is thickness of thinnest outside plate or angle)

Design of Steel Structure
The allowable tensile stress in structural mild steel plates for steel tank is assumed as

Design of Steel Structure
The least dimension in case of a circular column of diameter D is taken as