The ratio of the maximum deflections of a simply supported beam with a central load W and of a cantilever of same length and with a load W at its free end, is

Theory of Structures
The ratio of the maximum deflections of a simply supported beam with a central load W and of a cantilever of same length and with a load W at its free end, is

1/8

1/16

1/12

1/10

1/8

1/16

1/12

1/10

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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

3w l at the fixed end

w l) at the fixed end

l) at the fixed end

2w w l at the fixed end

3w l at the fixed end

w l) at the fixed end

l) at the fixed end

2w w l at the fixed end

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Theory of Structures
A material is said to be perfectly elastic if

It regains its original shape partially on removal of the load

It regains its original shape on removal of the load

It does not regain its original shape at all

None of these

It regains its original shape partially on removal of the load

It regains its original shape on removal of the load

It does not regain its original shape at all

None of these

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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

60°

30°

45°

90°

60°

30°

45°

90°

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Theory of Structures
Slenderness ratio of a long column, is

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

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

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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:

4.5 mm

4.0 mm

5.0 mm

5.5 mm

4.5 mm

4.0 mm

5.0 mm

5.5 mm

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Theory of Structures

Theory of Structures The ratio of the maximum deflections of a simply supported beam with a central load W and of a cantilever of same length and with a load W at its free end, 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 A material is said to be perfectly elastic if

Theory of Structures Slenderness ratio of a long column, is

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
The ratio of the maximum deflections of a simply supported beam with a central load W and of a cantilever of same length and with a load W at its free end, 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
A material is said to be perfectly elastic if

Theory of Structures
Slenderness ratio of a long column, is

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: