In case of principal axes of a section

Theory of Structures
In case of principal axes of a section

Product of moment of inertia is zero

Sum of moment of inertia is zero

None of these

Difference of moment inertia is zero

Product of moment of inertia is zero

Sum of moment of inertia is zero

None of these

Difference of moment inertia is zero

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Theory of Structures
For determining the support reactions at A and B of a three hinged arch, points B and Care joined and produced to intersect the load line at D and a line parallel to the load line through A at D’. Distances AD, DD’ and AD’ when measured were 4 cm, 3 cm and 5 cm respectively. The angle between the reactions at A and B is

90°

45°

60°

30°

90°

45°

60°

30°

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Theory of Structures
H V are the algebraic sums of the forces resolved horizontally and vertically respectively, M is the algebraic sum of the moments of forces about any point, for the equilibrium of the body acted upon

M = 0

V = 0

All of these

H = 0

M = 0

V = 0

All of these

H = 0

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Theory of Structures
The maximum deflection of a simply supported beam of span L, carrying an isolated load at the centre of the span; flexural rigidity being EI, is

WL3/3EL

WL3/48EL

WL3/8EL

WL3/24EL

WL3/3EL

WL3/48EL

WL3/8EL

WL3/24EL

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Theory of Structures
The horizontal thrust on the ends of a two hinged semicircular arch of radius ‘R’ carrying

A distributed load varying from zero at the left end to ? per unit horizontal run at the right end, is ? ?R/?

A uniformly distributed load ? per unit run over its right half span, is ? ?R/?

All of these

A uniformly distributed load ? per unit run over its entire span is 4/3 ?R/?

A distributed load varying from zero at the left end to ? per unit horizontal run at the right end, is ? ?R/?

A uniformly distributed load ? per unit run over its right half span, is ? ?R/?

All of these

A uniformly distributed load ? per unit run over its entire span is 4/3 ?R/?

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Theory of Structures
A load of 1960 N is raised at the end of a steel wire. The minimum diameter of the wire so that stress in the wire does not exceed 100 N/mm² is:

5.5 mm

4.5 mm

4.0 mm

5.0 mm

5.5 mm

4.5 mm

4.0 mm

5.0 mm

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Theory of Structures

Theory of Structures In case of principal axes of a section

Theory of Structures H V are the algebraic sums of the forces resolved horizontally and vertically respectively, M is the algebraic sum of the moments of forces about any point, for the equilibrium of the body acted upon

Theory of Structures The maximum deflection of a simply supported beam of span L, carrying an isolated load at the centre of the span; flexural rigidity being EI, is

Theory of Structures The horizontal thrust on the ends of a two hinged semicircular arch of radius ‘R’ carrying

Theory of Structures A load of 1960 N is raised at the end of a steel wire. The minimum diameter of the wire so that stress in the wire does not exceed 100 N/mm² is:

Theory of Structures
In case of principal axes of a section

Theory of Structures
H V are the algebraic sums of the forces resolved horizontally and vertically respectively, M is the algebraic sum of the moments of forces about any point, for the equilibrium of the body acted upon

Theory of Structures
The maximum deflection of a simply supported beam of span L, carrying an isolated load at the centre of the span; flexural rigidity being EI, is

Theory of Structures
The horizontal thrust on the ends of a two hinged semicircular arch of radius ‘R’ carrying

Theory of Structures
A load of 1960 N is raised at the end of a steel wire. The minimum diameter of the wire so that stress in the wire does not exceed 100 N/mm² is: