Download GATE (Graduate Aptitude Test in Engineering) Last 10 Years 2020, 2019, 2018, 2017, 2016, 2015, 2014, 2013, 2012, 2011 and 2010 XE D Engineering Sciences Question Paper With Solution And Answer Key
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
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GATE 2018 SOLID MECHANICS (XE-D)
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 2/8
Q.5 The principal stresses on a plane stress element are shown in the figure. The maximum
shear stress (in MPa) is
(A) 200 (B) 100 (C) 50 (D) 0
Q.6 A rigid and thin L-shaped bracket is fixed to the wall at point B, and a force F is applied at
point A as shown. For a given force F, the point B experiences the maximum clockwise
moment when the inclination ? (in degrees) with the x-axis is???.[up to two decimal
places].
Q.7 A cantilever beam with length, L = 1 m, modulus of elasticity, E = 210 GPa, and area
moment of inertia, I = 1.2 10
m
4
carries a concentrated mass m = 100 kg at its free-
end. By idealizing it as a single degree-of-freedom system and neglecting the mass of the
cantilever beam, the natural frequency (in rad/s) of small transverse oscillations of the mass
m is ??.. [up to two decimal places]
Q.8 For a typical grade of steel, the value of modulus of elasticity (E) and Poisson?s ratio ( ?)
are 208 GPa and 0.3 respectively. The value of shear modulus (G) of the steel (in GPa)
is ??..
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GATE 2018 SOLID MECHANICS (XE-D)
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 2/8
Q.5 The principal stresses on a plane stress element are shown in the figure. The maximum
shear stress (in MPa) is
(A) 200 (B) 100 (C) 50 (D) 0
Q.6 A rigid and thin L-shaped bracket is fixed to the wall at point B, and a force F is applied at
point A as shown. For a given force F, the point B experiences the maximum clockwise
moment when the inclination ? (in degrees) with the x-axis is???.[up to two decimal
places].
Q.7 A cantilever beam with length, L = 1 m, modulus of elasticity, E = 210 GPa, and area
moment of inertia, I = 1.2 10
m
4
carries a concentrated mass m = 100 kg at its free-
end. By idealizing it as a single degree-of-freedom system and neglecting the mass of the
cantilever beam, the natural frequency (in rad/s) of small transverse oscillations of the mass
m is ??.. [up to two decimal places]
Q.8 For a typical grade of steel, the value of modulus of elasticity (E) and Poisson?s ratio ( ?)
are 208 GPa and 0.3 respectively. The value of shear modulus (G) of the steel (in GPa)
is ??..
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 3/8
8 mm
P = 20 kN
P = 20 kN
50 mm
Q.9 A tensile test is performed on a metallic specimen of diameter 8 mm and gauge length
50 mm. When the tensile load P reaches a value of 20 kN, the distance between the gauge
marks increases by 0.09 mm. If the sample remains within the elastic limit, the modulus of
elasticity (in GPa) of the test metal is???..[up to two decimal places]
Q.10 A beam ABC is subjected to load P at its free end C as shown in the figure. The flexural
rigidity of the beam is . The vertical support reaction at point B is
(A)
(B)
(C)
(D)
/ 2
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GATE 2018 SOLID MECHANICS (XE-D)
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 2/8
Q.5 The principal stresses on a plane stress element are shown in the figure. The maximum
shear stress (in MPa) is
(A) 200 (B) 100 (C) 50 (D) 0
Q.6 A rigid and thin L-shaped bracket is fixed to the wall at point B, and a force F is applied at
point A as shown. For a given force F, the point B experiences the maximum clockwise
moment when the inclination ? (in degrees) with the x-axis is???.[up to two decimal
places].
Q.7 A cantilever beam with length, L = 1 m, modulus of elasticity, E = 210 GPa, and area
moment of inertia, I = 1.2 10
m
4
carries a concentrated mass m = 100 kg at its free-
end. By idealizing it as a single degree-of-freedom system and neglecting the mass of the
cantilever beam, the natural frequency (in rad/s) of small transverse oscillations of the mass
m is ??.. [up to two decimal places]
Q.8 For a typical grade of steel, the value of modulus of elasticity (E) and Poisson?s ratio ( ?)
are 208 GPa and 0.3 respectively. The value of shear modulus (G) of the steel (in GPa)
is ??..
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 3/8
8 mm
P = 20 kN
P = 20 kN
50 mm
Q.9 A tensile test is performed on a metallic specimen of diameter 8 mm and gauge length
50 mm. When the tensile load P reaches a value of 20 kN, the distance between the gauge
marks increases by 0.09 mm. If the sample remains within the elastic limit, the modulus of
elasticity (in GPa) of the test metal is???..[up to two decimal places]
Q.10 A beam ABC is subjected to load P at its free end C as shown in the figure. The flexural
rigidity of the beam is . The vertical support reaction at point B is
(A)
(B)
(C)
(D)
/ 2
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 4/8
Q.11 A horizontal effort P is applied to raise a block of weight W on a rough surface inclined at
an angle ? with the horizontal. If is the coefficient of static friction between the block
and the surface, the minimum effort P required to impend the upward motion of the block
along the surface is
(A)
(B)
(C)
(D)
Q.12 Three round bars of same material, equal lengths, and different cross-sectional dimensions
are shown in the figures as Case-I, Case-II and Case-III. All the bars are clamped at the
upper end, and a concentrated load P is applied at the lower end of each bar. If the elastic
strain energy stored in the bar shown in Case-I is then the elastic strain energy stored in
Case-II and Case-III respectively is
(A) 8
5
,
5
8
(B) 5
16
,
5
16
(C) 5
8
,
8
5
(D) 5
8
,
5
8
Case-I
Case-II
Case-III
2d
L
d
P
2d
d
L/4
L/2
L/4
d
2d
d
P P
L/4
L/2
L/4
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GATE 2018 SOLID MECHANICS (XE-D)
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 2/8
Q.5 The principal stresses on a plane stress element are shown in the figure. The maximum
shear stress (in MPa) is
(A) 200 (B) 100 (C) 50 (D) 0
Q.6 A rigid and thin L-shaped bracket is fixed to the wall at point B, and a force F is applied at
point A as shown. For a given force F, the point B experiences the maximum clockwise
moment when the inclination ? (in degrees) with the x-axis is???.[up to two decimal
places].
Q.7 A cantilever beam with length, L = 1 m, modulus of elasticity, E = 210 GPa, and area
moment of inertia, I = 1.2 10
m
4
carries a concentrated mass m = 100 kg at its free-
end. By idealizing it as a single degree-of-freedom system and neglecting the mass of the
cantilever beam, the natural frequency (in rad/s) of small transverse oscillations of the mass
m is ??.. [up to two decimal places]
Q.8 For a typical grade of steel, the value of modulus of elasticity (E) and Poisson?s ratio ( ?)
are 208 GPa and 0.3 respectively. The value of shear modulus (G) of the steel (in GPa)
is ??..
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 3/8
8 mm
P = 20 kN
P = 20 kN
50 mm
Q.9 A tensile test is performed on a metallic specimen of diameter 8 mm and gauge length
50 mm. When the tensile load P reaches a value of 20 kN, the distance between the gauge
marks increases by 0.09 mm. If the sample remains within the elastic limit, the modulus of
elasticity (in GPa) of the test metal is???..[up to two decimal places]
Q.10 A beam ABC is subjected to load P at its free end C as shown in the figure. The flexural
rigidity of the beam is . The vertical support reaction at point B is
(A)
(B)
(C)
(D)
/ 2
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 4/8
Q.11 A horizontal effort P is applied to raise a block of weight W on a rough surface inclined at
an angle ? with the horizontal. If is the coefficient of static friction between the block
and the surface, the minimum effort P required to impend the upward motion of the block
along the surface is
(A)
(B)
(C)
(D)
Q.12 Three round bars of same material, equal lengths, and different cross-sectional dimensions
are shown in the figures as Case-I, Case-II and Case-III. All the bars are clamped at the
upper end, and a concentrated load P is applied at the lower end of each bar. If the elastic
strain energy stored in the bar shown in Case-I is then the elastic strain energy stored in
Case-II and Case-III respectively is
(A) 8
5
,
5
8
(B) 5
16
,
5
16
(C) 5
8
,
8
5
(D) 5
8
,
5
8
Case-I
Case-II
Case-III
2d
L
d
P
2d
d
L/4
L/2
L/4
d
2d
d
P P
L/4
L/2
L/4
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 5/8
Q.13 A rigid uniform rod with mass m, length L and center of gravity G is freely suspended from
a hinge as shown in the figure. The rod is given a small angular displacement ? in the
counter-clockwise direction from the position in which it hangs vertically ( ? = 0). If is
the acceleration due to gravity, the natural frequency of oscillations (in rad/s) is
(A)
(B)
(C)
(D)
Q.14 A cylindrical member, made up of ductile material, is subjected to pure torsion as shown in
the figure. The failure plane (from Option-I to Option-IV) for ductile material as per
maximum shear stress theory is represented by
(A) Option I
(B) Option II
(C) Option III
(D) Option IV
45?
45?
Option-I
30?
T
T
Option-II
Option-III
Option-IV
90?
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GATE 2018 SOLID MECHANICS (XE-D)
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 2/8
Q.5 The principal stresses on a plane stress element are shown in the figure. The maximum
shear stress (in MPa) is
(A) 200 (B) 100 (C) 50 (D) 0
Q.6 A rigid and thin L-shaped bracket is fixed to the wall at point B, and a force F is applied at
point A as shown. For a given force F, the point B experiences the maximum clockwise
moment when the inclination ? (in degrees) with the x-axis is???.[up to two decimal
places].
Q.7 A cantilever beam with length, L = 1 m, modulus of elasticity, E = 210 GPa, and area
moment of inertia, I = 1.2 10
m
4
carries a concentrated mass m = 100 kg at its free-
end. By idealizing it as a single degree-of-freedom system and neglecting the mass of the
cantilever beam, the natural frequency (in rad/s) of small transverse oscillations of the mass
m is ??.. [up to two decimal places]
Q.8 For a typical grade of steel, the value of modulus of elasticity (E) and Poisson?s ratio ( ?)
are 208 GPa and 0.3 respectively. The value of shear modulus (G) of the steel (in GPa)
is ??..
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 3/8
8 mm
P = 20 kN
P = 20 kN
50 mm
Q.9 A tensile test is performed on a metallic specimen of diameter 8 mm and gauge length
50 mm. When the tensile load P reaches a value of 20 kN, the distance between the gauge
marks increases by 0.09 mm. If the sample remains within the elastic limit, the modulus of
elasticity (in GPa) of the test metal is???..[up to two decimal places]
Q.10 A beam ABC is subjected to load P at its free end C as shown in the figure. The flexural
rigidity of the beam is . The vertical support reaction at point B is
(A)
(B)
(C)
(D)
/ 2
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 4/8
Q.11 A horizontal effort P is applied to raise a block of weight W on a rough surface inclined at
an angle ? with the horizontal. If is the coefficient of static friction between the block
and the surface, the minimum effort P required to impend the upward motion of the block
along the surface is
(A)
(B)
(C)
(D)
Q.12 Three round bars of same material, equal lengths, and different cross-sectional dimensions
are shown in the figures as Case-I, Case-II and Case-III. All the bars are clamped at the
upper end, and a concentrated load P is applied at the lower end of each bar. If the elastic
strain energy stored in the bar shown in Case-I is then the elastic strain energy stored in
Case-II and Case-III respectively is
(A) 8
5
,
5
8
(B) 5
16
,
5
16
(C) 5
8
,
8
5
(D) 5
8
,
5
8
Case-I
Case-II
Case-III
2d
L
d
P
2d
d
L/4
L/2
L/4
d
2d
d
P P
L/4
L/2
L/4
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 5/8
Q.13 A rigid uniform rod with mass m, length L and center of gravity G is freely suspended from
a hinge as shown in the figure. The rod is given a small angular displacement ? in the
counter-clockwise direction from the position in which it hangs vertically ( ? = 0). If is
the acceleration due to gravity, the natural frequency of oscillations (in rad/s) is
(A)
(B)
(C)
(D)
Q.14 A cylindrical member, made up of ductile material, is subjected to pure torsion as shown in
the figure. The failure plane (from Option-I to Option-IV) for ductile material as per
maximum shear stress theory is represented by
(A) Option I
(B) Option II
(C) Option III
(D) Option IV
45?
45?
Option-I
30?
T
T
Option-II
Option-III
Option-IV
90?
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 6/8
Q.15 A simply supported beam of span L is subjected to a couple Mo at a distance a from support
A. Among the four options (Option-I to Option-IV) shown, the correct shear force diagram
of the beam is
(A) Option-I (B) Option-II (C) Option-III (D) Option-IV
Q.16 A circular shaft ABC of diameter, and length, is fixed at end A. It is subjected to the
torsional moments at point B and point C as shown in the figure. The ratio of angle of
twists at point B to point C is
(A) 1.5 : 1 (B) 1 : 3 (C) 1 : 2 (D) 1 : 1.5
Mo/L
Option-IV
Mo/L
Mo/L
Mo a /L
Mo (a/L-1)
Option-I
Option-II
Mo
L
a
A
B
Mo/L
Option-III
/ 2
+
Sign convention of
shear force for all
options
(+)
(+)
(-)
(+)
(-)
(+)
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GATE 2018 SOLID MECHANICS (XE-D)
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 2/8
Q.5 The principal stresses on a plane stress element are shown in the figure. The maximum
shear stress (in MPa) is
(A) 200 (B) 100 (C) 50 (D) 0
Q.6 A rigid and thin L-shaped bracket is fixed to the wall at point B, and a force F is applied at
point A as shown. For a given force F, the point B experiences the maximum clockwise
moment when the inclination ? (in degrees) with the x-axis is???.[up to two decimal
places].
Q.7 A cantilever beam with length, L = 1 m, modulus of elasticity, E = 210 GPa, and area
moment of inertia, I = 1.2 10
m
4
carries a concentrated mass m = 100 kg at its free-
end. By idealizing it as a single degree-of-freedom system and neglecting the mass of the
cantilever beam, the natural frequency (in rad/s) of small transverse oscillations of the mass
m is ??.. [up to two decimal places]
Q.8 For a typical grade of steel, the value of modulus of elasticity (E) and Poisson?s ratio ( ?)
are 208 GPa and 0.3 respectively. The value of shear modulus (G) of the steel (in GPa)
is ??..
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 3/8
8 mm
P = 20 kN
P = 20 kN
50 mm
Q.9 A tensile test is performed on a metallic specimen of diameter 8 mm and gauge length
50 mm. When the tensile load P reaches a value of 20 kN, the distance between the gauge
marks increases by 0.09 mm. If the sample remains within the elastic limit, the modulus of
elasticity (in GPa) of the test metal is???..[up to two decimal places]
Q.10 A beam ABC is subjected to load P at its free end C as shown in the figure. The flexural
rigidity of the beam is . The vertical support reaction at point B is
(A)
(B)
(C)
(D)
/ 2
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 4/8
Q.11 A horizontal effort P is applied to raise a block of weight W on a rough surface inclined at
an angle ? with the horizontal. If is the coefficient of static friction between the block
and the surface, the minimum effort P required to impend the upward motion of the block
along the surface is
(A)
(B)
(C)
(D)
Q.12 Three round bars of same material, equal lengths, and different cross-sectional dimensions
are shown in the figures as Case-I, Case-II and Case-III. All the bars are clamped at the
upper end, and a concentrated load P is applied at the lower end of each bar. If the elastic
strain energy stored in the bar shown in Case-I is then the elastic strain energy stored in
Case-II and Case-III respectively is
(A) 8
5
,
5
8
(B) 5
16
,
5
16
(C) 5
8
,
8
5
(D) 5
8
,
5
8
Case-I
Case-II
Case-III
2d
L
d
P
2d
d
L/4
L/2
L/4
d
2d
d
P P
L/4
L/2
L/4
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 5/8
Q.13 A rigid uniform rod with mass m, length L and center of gravity G is freely suspended from
a hinge as shown in the figure. The rod is given a small angular displacement ? in the
counter-clockwise direction from the position in which it hangs vertically ( ? = 0). If is
the acceleration due to gravity, the natural frequency of oscillations (in rad/s) is
(A)
(B)
(C)
(D)
Q.14 A cylindrical member, made up of ductile material, is subjected to pure torsion as shown in
the figure. The failure plane (from Option-I to Option-IV) for ductile material as per
maximum shear stress theory is represented by
(A) Option I
(B) Option II
(C) Option III
(D) Option IV
45?
45?
Option-I
30?
T
T
Option-II
Option-III
Option-IV
90?
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 6/8
Q.15 A simply supported beam of span L is subjected to a couple Mo at a distance a from support
A. Among the four options (Option-I to Option-IV) shown, the correct shear force diagram
of the beam is
(A) Option-I (B) Option-II (C) Option-III (D) Option-IV
Q.16 A circular shaft ABC of diameter, and length, is fixed at end A. It is subjected to the
torsional moments at point B and point C as shown in the figure. The ratio of angle of
twists at point B to point C is
(A) 1.5 : 1 (B) 1 : 3 (C) 1 : 2 (D) 1 : 1.5
Mo/L
Option-IV
Mo/L
Mo/L
Mo a /L
Mo (a/L-1)
Option-I
Option-II
Mo
L
a
A
B
Mo/L
Option-III
/ 2
+
Sign convention of
shear force for all
options
(+)
(+)
(-)
(+)
(-)
(+)
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 7/8
Q.17 A circular steel bar of diameter 10 mm is bent into the shape as shown in figure, and lies in
x-z plane. A horizontal force P is applied along the positive z-direction as shown. The yield
strength of the steel is 200 MPa. Neglecting the effect of transverse shear, the load P (in
Newton) required to initiate yielding as per maximum shear stress theory of failure
is????[up to two decimal places]
Q.18 Two sliders A and B, connected by a rigid link of length L, slide in two mutually
perpendicular and frictionless guide-ways. At a particular instance, the slider A is moving
in the downward direction with a speed of 0.05 m/s. At this instance, the magnitude of the
velocity of slider B (in m/s) is ??[up to two decimal places]
Q.19 A simply supported beam ABC is subjected to load as shown in the figure. The 20 kN load
is applied at point B with the help of a welded bracket as shown. The beam has a
rectangular cross-section of 15 mm width and 100 mm depth as shown. The maximum
transverse shear stress developed in the beam (in MPa) is ??..[up to one decimal place]
100
50
Enlarged view of the
cross-section
1 m
20 N
1m
0.2 5 m
5N / m
0.5 m 0.5 m
100 mm
15 mm
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GATE 2018 SOLID MECHANICS (XE-D)
XE-D 1/8
XE (D): Q. 1 ? Q. 9 carry one mark each & Q. 10 ? Q. 22 carry two marks each.
Q.1 A thin cylinder (thickness, and diameter, ) with closed ends is subjected to an internal
pressure, . The ratio of hoop stress to longitudinal stress developed in the wall of the
cylinder is
(A) 1:4 (B) 1:2 (C) 1:1 (D) 2:1
Q.2 A steel rod is fixed at one end and free at the other end. The coefficient of thermal
expansion of the steel is ?, and modulus of elasticity is E. If the temperature of the rod is
increased by ? then the stress and strain developed in the rod are respectively
(A) zero, ? ?
(B) E ? ? , ? ?
(C) E ? ? , zero
(D) zero, zero
Q.3 The effective lengths of the columns with ideal boundary conditions shown in Case-I,
Case-II, and Case-III are respectively
(A) , 4 , 2
(B) , 2 , /4
(C) , ,
(D) , 2 , /2
Q.4 At a point in a stressed body, sum of the normal stresses acting on perpendicular faces of
an arbitrarily oriented plane stress element is always
(A) dependent on the angle of orientation of the element
(B) constant and independent of angle of orientation of the element
(C) one half of the sum of the principal stresses
(D) zero
Case-I
Case-II
Case-III
L
L
L
P
P P
Hinged-Hinged Fixed-Free Fixed-Fixed
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 2/8
Q.5 The principal stresses on a plane stress element are shown in the figure. The maximum
shear stress (in MPa) is
(A) 200 (B) 100 (C) 50 (D) 0
Q.6 A rigid and thin L-shaped bracket is fixed to the wall at point B, and a force F is applied at
point A as shown. For a given force F, the point B experiences the maximum clockwise
moment when the inclination ? (in degrees) with the x-axis is???.[up to two decimal
places].
Q.7 A cantilever beam with length, L = 1 m, modulus of elasticity, E = 210 GPa, and area
moment of inertia, I = 1.2 10
m
4
carries a concentrated mass m = 100 kg at its free-
end. By idealizing it as a single degree-of-freedom system and neglecting the mass of the
cantilever beam, the natural frequency (in rad/s) of small transverse oscillations of the mass
m is ??.. [up to two decimal places]
Q.8 For a typical grade of steel, the value of modulus of elasticity (E) and Poisson?s ratio ( ?)
are 208 GPa and 0.3 respectively. The value of shear modulus (G) of the steel (in GPa)
is ??..
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 3/8
8 mm
P = 20 kN
P = 20 kN
50 mm
Q.9 A tensile test is performed on a metallic specimen of diameter 8 mm and gauge length
50 mm. When the tensile load P reaches a value of 20 kN, the distance between the gauge
marks increases by 0.09 mm. If the sample remains within the elastic limit, the modulus of
elasticity (in GPa) of the test metal is???..[up to two decimal places]
Q.10 A beam ABC is subjected to load P at its free end C as shown in the figure. The flexural
rigidity of the beam is . The vertical support reaction at point B is
(A)
(B)
(C)
(D)
/ 2
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 4/8
Q.11 A horizontal effort P is applied to raise a block of weight W on a rough surface inclined at
an angle ? with the horizontal. If is the coefficient of static friction between the block
and the surface, the minimum effort P required to impend the upward motion of the block
along the surface is
(A)
(B)
(C)
(D)
Q.12 Three round bars of same material, equal lengths, and different cross-sectional dimensions
are shown in the figures as Case-I, Case-II and Case-III. All the bars are clamped at the
upper end, and a concentrated load P is applied at the lower end of each bar. If the elastic
strain energy stored in the bar shown in Case-I is then the elastic strain energy stored in
Case-II and Case-III respectively is
(A) 8
5
,
5
8
(B) 5
16
,
5
16
(C) 5
8
,
8
5
(D) 5
8
,
5
8
Case-I
Case-II
Case-III
2d
L
d
P
2d
d
L/4
L/2
L/4
d
2d
d
P P
L/4
L/2
L/4
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 5/8
Q.13 A rigid uniform rod with mass m, length L and center of gravity G is freely suspended from
a hinge as shown in the figure. The rod is given a small angular displacement ? in the
counter-clockwise direction from the position in which it hangs vertically ( ? = 0). If is
the acceleration due to gravity, the natural frequency of oscillations (in rad/s) is
(A)
(B)
(C)
(D)
Q.14 A cylindrical member, made up of ductile material, is subjected to pure torsion as shown in
the figure. The failure plane (from Option-I to Option-IV) for ductile material as per
maximum shear stress theory is represented by
(A) Option I
(B) Option II
(C) Option III
(D) Option IV
45?
45?
Option-I
30?
T
T
Option-II
Option-III
Option-IV
90?
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 6/8
Q.15 A simply supported beam of span L is subjected to a couple Mo at a distance a from support
A. Among the four options (Option-I to Option-IV) shown, the correct shear force diagram
of the beam is
(A) Option-I (B) Option-II (C) Option-III (D) Option-IV
Q.16 A circular shaft ABC of diameter, and length, is fixed at end A. It is subjected to the
torsional moments at point B and point C as shown in the figure. The ratio of angle of
twists at point B to point C is
(A) 1.5 : 1 (B) 1 : 3 (C) 1 : 2 (D) 1 : 1.5
Mo/L
Option-IV
Mo/L
Mo/L
Mo a /L
Mo (a/L-1)
Option-I
Option-II
Mo
L
a
A
B
Mo/L
Option-III
/ 2
+
Sign convention of
shear force for all
options
(+)
(+)
(-)
(+)
(-)
(+)
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 7/8
Q.17 A circular steel bar of diameter 10 mm is bent into the shape as shown in figure, and lies in
x-z plane. A horizontal force P is applied along the positive z-direction as shown. The yield
strength of the steel is 200 MPa. Neglecting the effect of transverse shear, the load P (in
Newton) required to initiate yielding as per maximum shear stress theory of failure
is????[up to two decimal places]
Q.18 Two sliders A and B, connected by a rigid link of length L, slide in two mutually
perpendicular and frictionless guide-ways. At a particular instance, the slider A is moving
in the downward direction with a speed of 0.05 m/s. At this instance, the magnitude of the
velocity of slider B (in m/s) is ??[up to two decimal places]
Q.19 A simply supported beam ABC is subjected to load as shown in the figure. The 20 kN load
is applied at point B with the help of a welded bracket as shown. The beam has a
rectangular cross-section of 15 mm width and 100 mm depth as shown. The maximum
transverse shear stress developed in the beam (in MPa) is ??..[up to one decimal place]
100
50
Enlarged view of the
cross-section
1 m
20 N
1m
0.2 5 m
5N / m
0.5 m 0.5 m
100 mm
15 mm
GATE 2018 SOLID MECHANICS (XE-D)
XE-D 8/8
Q.20 A rigid rod ABC, in the form of a quarter-circular arc of radius R, is hinged at C and
supported by a roller at B. A vertical force P is applied at the end A of the bar. For the
reactions at B and C to be equal in magnitude, the value of the angle ? (in degrees) is
???. [up to two decimal places].
Q.21 A marble of mass m slides along a frictionless linear slide AB kept in a vertical plane. The
marble is released from point A with zero initial velocity, and it reaches point B under the
action of gravity. Assuming the acceleration due to gravity to be 9.81 m/s
2
, the speed (in
m/s) of the marble when it just reaches point B is???[up to two decimal places].
Q.22 A horizontal force 10 N is applied at support B on the frame as shown in figure.
Considering only bending deformation, the vertical reaction (in N) at support B is ???.
[up to one decimal place]
END OF THE QUESTION PAPER
10 N
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This post was last modified on 18 December 2019