250+ TOP MCQs on Elasticity – State of Stress at a Point and Answers

Soil Mechanics MCQs on “Elasticity – State of Stress at a Point”.

1. The force systems acting on an elastic body in equilibrium are _______
a) body forces only
b) surface forces only
c) both body and surface forces
d) body stresses
Answer: c
Clarification: The force systems acting on an elastic body in equilibrium are of two kinds and they are body forces and surface forces. The surfaces forces acts on the surface of the body while the body forces are distributed over the volume of the body.

2. ___________ is an example of surface force.
a) inertia force
b) gravitational force
c) magnetic force
d) hydrostatic force
Answer: d
Clarification: The hydrostatic force acts on the surface of the object in all directions with a given magnitude and hence is an example of a surface force. The inertia force, gravitational force and magnetic force are the examples of the body forces.

3. Surfaces forces are applied _________
a) externally at boundaries of body
b) internally at boundaries of body
c) only on one side in internal of the body
d) throughout the volume of the body
Answer: a
Clarification: The forces distributed over the surface of the body, like pressure of one body over another body, are called surface forces. The surface forces are applied externally at boundaries of body.

4. Dimensionally a surface force is defined as _____________
a) force at a point
b) pressure per unit area
c) force per unit area
d) force per unit volume
Answer: c
Clarification: Surface forces are the forces distributed over the surface of the body. The surface forces are applied externally at boundaries of body. Hence, dimensionally a surface force is defined as force per unit area.

5. Body forces are _________
a) external forces at boundaries of body
b) internal forces at boundaries of body
c) forces only on one side in internal of the body
d) forces distributed throughout the volume of the body
Answer: d
Clarification: The forces distributed throughout the volume of the body are called body forces. Such forces are gravitational forces, inertia forces, magnetic forces and seepage forces, etc.

6. Dimensionally a body force is defined as _____________
a) force at a point
b) pressure per unit area
c) force per unit area
d) force per unit volume
Answer: d
Clarification: Body forces are the forces distributed over the entire volume of a body. Such forces are gravitational forces, inertia forces, magnetic forces and seepage forces, etc. Dimensionally a body force is defined as force per unit volume.

7. The stress tensor is given by ___________
a) (begin{bmatrix}
σ_{xx} & τ_{xy} & τ_{xz} \
τ_{yx} & σ_{yy} & τ_{yz} \
τ_{zx} & τ_{zy} & σ_{zz}
end{bmatrix} )
b) (begin{bmatrix}
σ_{zz} & τ_{xy} & τ_{xz} \
τ_{yx} & σ_{yy} & τ_{yz} \
τ_{zx} & τ_{zy} & σ_{xx}
end{bmatrix} )
c) (begin{bmatrix}
σ_{xx} & τ_{zz} & τ_{xz} \
τ_{yx} & σ_{yy} & τ_{yz} \
τ_{zx} & τ_{zy} & σ_{zz}
end{bmatrix} )
d) (begin{bmatrix}
σ_{xx} & τ_{yy} & τ_{xz} \
τ_{yx} & σ_{yy} & τ_{yz} \
τ_{zx} & τ_{yy} & σ_{zz}
end{bmatrix} )
Answer: a
Clarification: The stress tensor is given by,
(begin{bmatrix}
σ_{xx} & τ_{xy} & τ_{xz} \
τ_{yx} & σ_{yy} & τ_{yz} \
τ_{zx} & τ_{zy} & σ_{zz}
end{bmatrix} )
The main diagonal elements are the normal stresses which are compressive. They are represented by “σ”. The off-diagonal elements are shear stress. They are represented by “τ”.

8. In a stress tensor, each stress component in it is represented by__________
a) magnitude only
b) direction only
c) both magnitude and direction
d) opposite direction
Answer: c
Clarification: In a stress tensor, each stress component in it is represented by both magnitude and direction. For example, σ_xx signifies the normal stress acting on the face of element perpendicular to x-axis.

9. The component τ_xy denotes ___________
a) normal stress in x-direction
b) normal stress perpendicular to y-axis
c) shear stress acting perpendicular to x-axis
d) shear stress acting perpendicular to y-axis
Answer: c
Clarification: The shear stresses in the stress tensor are represented by τ. The shear stress τ_xy denotes a stress acting in the face of the element perpendicular to x-axis and acting in the direction of the y-axis.

10. The component σ_z denotes __________
a) normal stress in x-direction
b) normal stress acting perpendicular to z-axis
c) shear stress acting perpendicular to z-axis
d) shear stress acting perpendicular to y-axis
Answer: b
Clarification: The normal stresses in the stress tensor are represented by σ. The normal stress σ_z denotes the normal stress acting on the face of the element that is perpendicular to the z-axis.

11. The component τ_yz denotes ________
a) normal stress in x-direction
b) normal stress perpendicular to y-axis
c) normal acting perpendicular to x-axis
d) shear stress acting perpendicular to y-axis
Answer: d
Clarification: The shear stresses in the stress tensor are represented by τ. The shear stress τ_yz denotes a stress acting in the face of the element perpendicular to y-axis and acting in the direction of the z-axis.

12. At a point, there are/is _________ normal stress.
a) 1
b) 2
c) 3
d) 4
Answer: c
Clarification: At a point, there are three normal stresses. The normal stresses are represented by σ. The three normal stresses at a point are σ_x, σ_y and σ_z. The x, y and z represent the signifies that stress acts on the face of the element that is perpendicular to x,y and z directions respectively.

13. At a point there are ______ shear stresses.
a) 2
b) 4
c) 6
d) 8
Answer: c
Clarification: At a point, there are six shear stresses. The shear stresses in the stress tensor are represented by τ. The six shear stresses are τ_XY, τ_YX; τ_YZ, τ_ZY; τ_ZX, τ_XZ. The first letter of the subscript represents the direction of stress acting on the face of element perpendicular to that axis. The second letter of the subscript represents the direction of stress along which it acts.

14. There are _______ independent shearing stresses.
a) 2
b) 3
c) 6
d) 8
Answer: b
Clarification: At a point there are six shearing stresses. At equilibrium of the elemental volume, moment about z-axis ∑M_z = 0.
∴ (τ_YX.dx.dz)dy = (τ_XY .dy.dz)dx
∴ τ_YX = τ_XY .
Similarly,
τ_YZ = τ_ZY and τ_ZX = τ_XZ.
Hence, out of six shearing stresses, there are only three independent shearing stresses.

15. The total independent stresses at a point are _________
a) 3
b) 6
c) 9
d) 12
Answer: b
Clarification: At a point there are three normal stresses and six shear stresses. The three normal stresses at a point are σ_x, σ_y and σ_z. But out of six shearing stresses, there are only three independent shearing stresses. Therefore, the total independent stresses at a point are six stresses.

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