Maximum principal stress theory for the failure of a material at elastic point, is known

Theory of Structures
Maximum principal stress theory for the failure of a material at elastic point, is known

Rankine's theory

St. Venant's theory

Von Mises' theory

Guest's or Trecas' theory

Rankine's theory

St. Venant's theory

Von Mises' theory

Guest's or Trecas' theory

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Theory of Structures
constant, depth of a cantilever of length of uniform strength loaded with Keeping breadth uniformly distributed load varies from zero at the free end and

w l) at the fixed end

3w l at the fixed end

l) at the fixed end

2w w l at the fixed end

w l) at the fixed end

3w l at the fixed end

l) at the fixed end

2w w l at the fixed end

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Theory of Structures
The assumption in the theory of bending of beams is:

Material is isotropic

Material is homogeneous

All of these

Young’s modulus is same in tension as well as in compression

Material is isotropic

Material is homogeneous

All of these

Young’s modulus is same in tension as well as in compression

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Theory of Structures
In case of principal axes of a section

Product of moment of inertia is zero

Difference of moment inertia is zero

Sum of moment of inertia is zero

None of these

Product of moment of inertia is zero

Difference of moment inertia is zero

Sum of moment of inertia is zero

None of these

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Theory of Structures
The point of contraflexure is the point where

M. changes sign

M. is minimum

S.F. is zero

M. is maximum

M. changes sign

M. is minimum

S.F. is zero

M. is maximum

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Theory of Structures
Slenderness ratio of a long column, is

Radius of gyration divided by area of cross-section

Area of cross-section divided by radius of gyration

Length of column divided by least radius of gyration

Area of cross-section divided by least radius of gyration

Radius of gyration divided by area of cross-section

Area of cross-section divided by radius of gyration

Length of column divided by least radius of gyration

Area of cross-section divided by least radius of gyration

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Theory of Structures

Theory of Structures Maximum principal stress theory for the failure of a material at elastic point, is known

Theory of Structures constant, depth of a cantilever of length of uniform strength loaded with Keeping breadth uniformly distributed load varies from zero at the free end and

Theory of Structures The assumption in the theory of bending of beams is:

Theory of Structures In case of principal axes of a section

Theory of Structures The point of contraflexure is the point where

Theory of Structures Slenderness ratio of a long column, is

Theory of Structures
Maximum principal stress theory for the failure of a material at elastic point, is known

Theory of Structures
constant, depth of a cantilever of length of uniform strength loaded with Keeping breadth uniformly distributed load varies from zero at the free end and

Theory of Structures
The assumption in the theory of bending of beams is:

Theory of Structures
In case of principal axes of a section

Theory of Structures
The point of contraflexure is the point where

Theory of Structures
Slenderness ratio of a long column, is