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

60 kN.m

15 kN.m

8 kN.m

30 kN.m

60 kN.m

15 kN.m

8 kN.m

30 kN.m

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Structural Analysis
Degree of kinematic indeterminacy of a pin-jointed plane frame is given by

2j + r

3j – r

j – 2r

2j – r

2j + r

3j – r

j – 2r

2j – r

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Structural Analysis
For under water concreting.

All of these

At least 10 percent more cement is required as compared to dry conditions

The volume of coarse aggregates shall not be less than one and half times and not more than twice that of fine aggregate

De-watering by pumping is not done or until 24 hours thereafter

All of these

At least 10 percent more cement is required as compared to dry conditions

The volume of coarse aggregates shall not be less than one and half times and not more than twice that of fine aggregate

De-watering by pumping is not done or until 24 hours thereafter

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Structural Analysis
The minimum horizontal distance between two parallel main reinforcing bars, is

5 mm more than nominal maximum size of the coarse aggregate

Greatest value of the above

The diameter of the longer bar if their diameters are unequal

The diameter of the bar if their diameters are same

5 mm more than nominal maximum size of the coarse aggregate

Greatest value of the above

The diameter of the longer bar if their diameters are unequal

The diameter of the bar if their diameters are same

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Structural Analysis
The thickness of the rectangular plate for the cap or base of a solid round steel columns, is calculated from the formula t = √[(9W/16 fbct) × D/(D -d)] where ‘d’ is

The dimension of the base

The reduced diameter of the column

The diameter of the top

The diameter of the base

The dimension of the base

The reduced diameter of the column

The diameter of the top

The diameter of the base

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Structural Analysis
The maximum bending moment due to a train of wheel loads on a simply supported girder

None of these

Always occurs under a wheel load

Never occurs under a wheel load

Always occurs at centre of span

None of these

Always occurs under a wheel load

Never occurs under a wheel load

Always occurs at centre of span

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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 Degree of kinematic indeterminacy of a pin-jointed plane frame is given by

Structural Analysis For under water concreting.

Structural Analysis The minimum horizontal distance between two parallel main reinforcing bars, is

Structural Analysis The thickness of the rectangular plate for the cap or base of a solid round steel columns, is calculated from the formula t = √[(9W/16 fbct) × D/(D -d)] where ‘d’ is

Structural Analysis The maximum bending moment due to a train of wheel loads on a simply supported girder

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
Degree of kinematic indeterminacy of a pin-jointed plane frame is given by

Structural Analysis
For under water concreting.

Structural Analysis
The minimum horizontal distance between two parallel main reinforcing bars, is

Structural Analysis
The thickness of the rectangular plate for the cap or base of a solid round steel columns, is calculated from the formula t = √[(9W/16 fbct) × D/(D -d)] where ‘d’ is

Structural Analysis
The maximum bending moment due to a train of wheel loads on a simply supported girder