At yield point of a test piece, the material

Theory of Structures
At yield point of a test piece, the material

Obeys Hooke’s law

Behaves in an elastic manner

Regains its original shape on removal of the load

Undergoes plastic deformation

Obeys Hooke’s law

Behaves in an elastic manner

Regains its original shape on removal of the load

Undergoes plastic deformation

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Theory of Structures
A masonry dam (density = 20,000 N/m³) 6 m high, one metre wide at the top and 4 m wide at the base, has vertical water face. The minimum stress at the base of the dam when the reservoir is full, will be

7500 N/m²

75000 N/m²

750 N/m²

75 N/m²

7500 N/m²

75000 N/m²

750 N/m²

75 N/m²

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Theory of Structures
A close coil helical spring when subjected to a moment M having its axis along the axis of the helix

Its number of coils will increase

Its mean diameter will decrease

All of these

It is subjected to pure bending

Its number of coils will increase

Its mean diameter will decrease

All of these

It is subjected to pure bending

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Theory of Structures
Slenderness ratio of a long column, is

Area of cross-section divided by radius of gyration

Area of cross-section divided by least radius of gyration

Radius of gyration divided by area of cross-section

Length of column divided by least radius of gyration

Area of cross-section divided by radius of gyration

Area of cross-section divided by least radius of gyration

Radius of gyration divided by area of cross-section

Length of column divided by least radius of gyration

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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

0.001

0.0025

0.002

0.003

0.001

0.0025

0.002

0.003

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Theory of Structures
A simply supported rolled steel joist 8 m long carries a uniformly distributed load over it span so that the maximum bending stress is 75 N/mm². If the slope at the ends is 0.005 radian and the value of E = 0.2 × 106 N/mm², the depth of the joist, is

250 mm

300 mm

400 mm

200 mm

250 mm

300 mm

400 mm

200 mm

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Theory of Structures

Theory of Structures At yield point of a test piece, the material

Theory of Structures A masonry dam (density = 20,000 N/m³) 6 m high, one metre wide at the top and 4 m wide at the base, has vertical water face. The minimum stress at the base of the dam when the reservoir is full, will be

Theory of Structures A close coil helical spring when subjected to a moment M having its axis along the axis of the helix

Theory of Structures Slenderness ratio of a long column, is

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 A simply supported rolled steel joist 8 m long carries a uniformly distributed load over it span so that the maximum bending stress is 75 N/mm². If the slope at the ends is 0.005 radian and the value of E = 0.2 × 106 N/mm², the depth of the joist, is

Theory of Structures
At yield point of a test piece, the material

Theory of Structures
A masonry dam (density = 20,000 N/m³) 6 m high, one metre wide at the top and 4 m wide at the base, has vertical water face. The minimum stress at the base of the dam when the reservoir is full, will be

Theory of Structures
A close coil helical spring when subjected to a moment M having its axis along the axis of the helix

Theory of Structures
Slenderness ratio of a long column, is

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
A simply supported rolled steel joist 8 m long carries a uniformly distributed load over it span so that the maximum bending stress is 75 N/mm². If the slope at the ends is 0.005 radian and the value of E = 0.2 × 106 N/mm², the depth of the joist, is