If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

Theory of Structures
If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

All of these

E = 3K (1 – 2/m)

E = 2N (1 + 1/m)

(3/2)K (1 – 2/m) = N (1 + 1/m)

All of these

E = 3K (1 – 2/m)

E = 2N (1 + 1/m)

(3/2)K (1 – 2/m) = N (1 + 1/m)

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Theory of Structures
A close coil helical spring of mean diameter D consists of n coils of diameter d. If it carries an axial load W, the energy stored in the spring, is

4W²D3n/d4N

4WD²n/d4N

4W²Dn/d4N

4W²D3n²/d4N

4W²D3n/d4N

4WD²n/d4N

4W²Dn/d4N

4W²D3n²/d4N

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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

2w w l at the fixed end

l) at the fixed end

3w l at the fixed end

w l) at the fixed end

2w w l at the fixed end

l) at the fixed end

3w l at the fixed end

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Theory of Structures
Slenderness ratio of a long column, is

Length of column divided by least radius of gyration

Area of cross-section divided by radius of gyration

Radius of gyration divided by area of cross-section

Area of cross-section divided by least radius of gyration

Length of column divided by least radius of gyration

Area of cross-section divided by radius of gyration

Radius of gyration divided by area of cross-section

Area of cross-section divided by least radius of gyration

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Theory of Structures
A simply supported beam carries varying load from zero at one end and w at the other end. If the length of the beam is a, the maximum bending moment will be

wa/27

wa²/27

wa²

w²a

wa/27

wa²/27

wa²

w²a

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Theory of Structures
If a solid shaft (diameter 20 cm, length 400 cm, N = 0.8 × 105 N/mm²) when subjected to a twisting moment, produces maximum shear stress of 50 N/mm 2, the angle of twist in radians, is

0.003

0.001

0.002

0.0025

0.003

0.001

0.002

0.0025

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Theory of Structures

Theory of Structures If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

Theory of Structures A close coil helical spring of mean diameter D consists of n coils of diameter d. If it carries an axial load W, the energy stored in the spring, is

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 Slenderness ratio of a long column, is

Theory of Structures A simply supported beam carries varying load from zero at one end and w at the other end. If the length of the beam is a, the maximum bending moment will be

Theory of Structures If a solid shaft (diameter 20 cm, length 400 cm, N = 0.8 × 105 N/mm²) when subjected to a twisting moment, produces maximum shear stress of 50 N/mm 2, the angle of twist in radians, is

Theory of Structures
If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

Theory of Structures
A close coil helical spring of mean diameter D consists of n coils of diameter d. If it carries an axial load W, the energy stored in the spring, is

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
Slenderness ratio of a long column, is

Theory of Structures
A simply supported beam carries varying load from zero at one end and w at the other end. If the length of the beam is a, the maximum bending moment will be

Theory of Structures
If a solid shaft (diameter 20 cm, length 400 cm, N = 0.8 × 105 N/mm²) when subjected to a twisting moment, produces maximum shear stress of 50 N/mm 2, the angle of twist in radians, is