A single rolling load of 8 kN rolls along a girder of 15 m span. The absolute maximum bending moment will be

Structural Analysis
A single rolling load of 8 kN rolls along a girder of 15 m span. The absolute maximum bending moment will be

30 kN.m

60 kN.m

15 kN.m

8 kN.m

30 kN.m

60 kN.m

15 kN.m

8 kN.m

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Structural Analysis
When a uniformly distributed load, longer than the span of the girder, moves from left to right, then the maximum bending moment at mid section of span occurs when the uniformly distributed load occupies

Whole span

Less than the left half span

More than the left half span

Whole of left half span

Whole span

Less than the left half span

More than the left half span

Whole of left half span

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Structural Analysis
To generate the j th column of the flexibility matrix

a unit displacement is applied at co-ordinate j and the forces are calculated at all coordinates

a unit force is applied at coordinate j and the displacements are calculated at all coordinates

a unit force is applied at coordinate j and the forces are calculated at all coordinates

a unit displacement is applied at co-ordinate j and the displacements are calculated at all co-ordinates

a unit displacement is applied at co-ordinate j and the forces are calculated at all coordinates

a unit force is applied at coordinate j and the displacements are calculated at all coordinates

a unit force is applied at coordinate j and the forces are calculated at all coordinates

a unit displacement is applied at co-ordinate j and the displacements are calculated at all co-ordinates

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Structural Analysis
If in a rigid-jointed space frame, (6m + r) < 6j, then the frame is

Unstable

Stable and statically determinate

None of these

Stable and statically indeterminate

Unstable

Stable and statically determinate

None of these

Stable and statically indeterminate

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Structural Analysis
If in a pin-jointed plane frame (m + r) > 2j, then the frame is(Where ‘m’ is number of members, ‘r’ is reaction components and ‘j’ is number of joints)

Stable and statically determinate

Unstable

None of these

Stable and statically indeterminate

Stable and statically determinate

Unstable

None of these

Stable and statically indeterminate

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Structural Analysis
The degree of static indeterminacy up to which column analogy method can be used is

6

4

5

3

6

4

5

3

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Structural Analysis

Structural Analysis A single rolling load of 8 kN rolls along a girder of 15 m span. The absolute maximum bending moment will be

Structural Analysis When a uniformly distributed load, longer than the span of the girder, moves from left to right, then the maximum bending moment at mid section of span occurs when the uniformly distributed load occupies

Structural Analysis To generate the j th column of the flexibility matrix

Structural Analysis If in a rigid-jointed space frame, (6m + r) < 6j, then the frame is

Structural Analysis If in a pin-jointed plane frame (m + r) > 2j, then the frame is(Where ‘m’ is number of members, ‘r’ is reaction components and ‘j’ is number of joints)

Structural Analysis The degree of static indeterminacy up to which column analogy method can be used is

Structural Analysis
A single rolling load of 8 kN rolls along a girder of 15 m span. The absolute maximum bending moment will be

Structural Analysis
When a uniformly distributed load, longer than the span of the girder, moves from left to right, then the maximum bending moment at mid section of span occurs when the uniformly distributed load occupies

Structural Analysis
To generate the j th column of the flexibility matrix

Structural Analysis
If in a rigid-jointed space frame, (6m + r) < 6j, then the frame is

Structural Analysis
If in a pin-jointed plane frame (m + r) > 2j, then the frame is(Where ‘m’ is number of members, ‘r’ is reaction components and ‘j’ is number of joints)

Structural Analysis
The degree of static indeterminacy up to which column analogy method can be used is