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 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

75 N/m²

750 N/m²

7500 N/m²

75000 N/m²

75 N/m²

750 N/m²

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Theory of Structures
If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

E = 2N (1 + 1/m)

(3/2)K (1 – 2/m) = N (1 + 1/m)

All of these

E = 3K (1 – 2/m)

E = 2N (1 + 1/m)

(3/2)K (1 – 2/m) = N (1 + 1/m)

All of these

E = 3K (1 – 2/m)

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Theory of Structures
If a three hinged parabolic arch, (span l, rise h) is carrying a uniformly distributed load w/unit length over the entire span,

S.F. will be zero throughout

All of these

B.M. will be zero throughout

Horizontal thrust is wl2/8h

S.F. will be zero throughout

All of these

B.M. will be zero throughout

Horizontal thrust is wl2/8h

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Theory of Structures
Y are the bending moment, moment of inertia, radius of curvature, modulus of If M, I, R, E, F, and elasticity stress and the depth of the neutral axis at section, then

M/I = E/R = F/Y

M/I = E/R = Y/F

I/M = R/E = F/Y

M/I = R/E = F/Y

M/I = E/R = F/Y

M/I = E/R = Y/F

I/M = R/E = F/Y

M/I = R/E = F/Y

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Theory of Structures
Pick up the correct statement from the following:

If tensile stress is equal to axial stress, the section experiences compressive stress

If tensile stress is less than axial stress, the section experiences compressive stress

All of these

The moment of inertia is calculated about the axis about which bending takes place

If tensile stress is equal to axial stress, the section experiences compressive stress

If tensile stress is less than axial stress, the section experiences compressive stress

All of these

The moment of inertia is calculated about the axis about which bending takes place

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Theory of Structures
The ratio of shear stress and shear strain of an elastic material, is

Both A. and B.

Modulus of Rigidity

Shear Modulus

Modulus of Elasticity

Both A. and B.

Modulus of Rigidity

Shear Modulus

Modulus of Elasticity

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Theory of Structures

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 If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

Theory of Structures If a three hinged parabolic arch, (span l, rise h) is carrying a uniformly distributed load w/unit length over the entire span,

Theory of Structures Y are the bending moment, moment of inertia, radius of curvature, modulus of If M, I, R, E, F, and elasticity stress and the depth of the neutral axis at section, then

Theory of Structures Pick up the correct statement from the following:

Theory of Structures The ratio of shear stress and shear strain of an elastic material, is

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
If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

Theory of Structures
If a three hinged parabolic arch, (span l, rise h) is carrying a uniformly distributed load w/unit length over the entire span,

Theory of Structures
Y are the bending moment, moment of inertia, radius of curvature, modulus of If M, I, R, E, F, and elasticity stress and the depth of the neutral axis at section, then

Theory of Structures
Pick up the correct statement from the following:

Theory of Structures
The ratio of shear stress and shear strain of an elastic material, is