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

15 kN.m

8 kN.m

60 kN.m

30 kN.m

15 kN.m

8 kN.m

60 kN.m

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Structural Analysis
When a uniformly distributed load, shorter than the span of the girder, moves from left to right, then the conditions for maximum bending moment at a section is that

the tail of the load reaches the section

the head of the load reaches the section

the load position should be such that the section divides the load in the same ratio as it divides the span

the load position should be such that the section divides it equally on both sides

the tail of the load reaches the section

the head of the load reaches the section

the load position should be such that the section divides the load in the same ratio as it divides the span

the load position should be such that the section divides it equally on both sides

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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)

None of these

Stable and statically determinate

Stable and statically indeterminate

Unstable

None of these

Stable and statically determinate

Stable and statically indeterminate

Unstable

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Structural Analysis
The three moments equation is applicable only when

There is no settlement of supports

There is no discontinuity such as hinges within the span

The beam is prismatic

The spans are equal

There is no settlement of supports

There is no discontinuity such as hinges within the span

The beam is prismatic

The spans are equal

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Structural Analysis
For a single point load W moving on a symmetrical three hinged parabolic arch of span L, the maximum sagging moment occurs at a distance x from ends. The value of x is

0.211 L

0.5 L

0.234 L

0.25 L

0.211 L

0.5 L

0.234 L

0.25 L

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Structural Analysis
The fixed support in a real beam becomes in the conjugate beam a

Roller support

Hinged support

Fixed support

Free end

Roller support

Hinged support

Fixed support

Free end

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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, shorter than the span of the girder, moves from left to right, then the conditions for maximum bending moment at a section is that

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 three moments equation is applicable only when

Structural Analysis For a single point load W moving on a symmetrical three hinged parabolic arch of span L, the maximum sagging moment occurs at a distance x from ends. The value of x is

Structural Analysis The fixed support in a real beam becomes in the conjugate beam a

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, shorter than the span of the girder, moves from left to right, then the conditions for maximum bending moment at a section is that

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 three moments equation is applicable only when

Structural Analysis
For a single point load W moving on a symmetrical three hinged parabolic arch of span L, the maximum sagging moment occurs at a distance x from ends. The value of x is

Structural Analysis
The fixed support in a real beam becomes in the conjugate beam a