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Strength of Materials
Springs
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Pure Bending
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Stresses In Beams
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Simple Stress and Strain
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Complex Stresses
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Moment of Inertia
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Deflection of Beams
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Shear Force and Bending Moment
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Torsion
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Thin Cylinders
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Columns and Struts
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Strain Energy Method
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1
GATE ME 2004
MCQ (Single Correct Answer)
+2
-0.6
The Mohr's circle of plane stress for a point in a body is shown. The design is to be done on the basis of the maximum shear stress theory for yielding. Then, yielding will just begin if the designer chooses a ductile material whose yield strength is GATE ME 2004 Strength of Materials - Complex Stresses Question 15 English
A
45 MPa
B
50 MPa
C
90 MPa
D
100 MPa
2
GATE ME 2003
MCQ (Single Correct Answer)
+2
-0.6
The state of stress at a point P in a two dimensional loading is such that the Mohr's circle is a point located at 175 MPa on the positive normal stress axis.

The maximum and minimum principal stresses respectively from the Mohr's circle are

A
$$+$$ 175 MPa, $$-$$ 175 MPa
B
$$+$$ 175 MPa, $$+$$ 175 MPa
C
0, $$-$$ 175 MPa
D
$$0, 0$$
3
GATE ME 2003
MCQ (Single Correct Answer)
+2
-0.6
The state of stress at a point P in a two dimensional loading is such that the Mohr's circle is a point located at 175 MPa on the positive normal stress axis.

The distance of maximum and minimum principal stresses at the point ''P'' from the Mohr's circle are

A
0, 90o
B
90o, 0
C
45o, 135o
D
all directions
4
GATE ME 2003
MCQ (Single Correct Answer)
+2
-0.6
A shaft subjected to torsion experiences a pure shear stress $$\tau $$ on the surface. The maximum principal stress on the surface which is at $$45$$0 to the axis will have a value
A
$$\tau \,\cos \,\,{45^ \circ }$$
B
$$2\tau \,\cos \,\,{45^ \circ }$$
C
$$\tau \,{\cos ^2}\,\,{45^ \circ }$$
D
$$2\tau \,si{n^2}\,\,{45^ \circ }\,\,\cos \,{45^ \circ }$$
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Questions Asked from Marks 2
GATE ME 2025 (1) GATE ME 2022 Set 2 (1) GATE ME 2017 Set 1 (1) GATE ME 2015 Set 2 (1) GATE ME 2012 (1) GATE ME 2008 (2) GATE ME 2004 (1) GATE ME 2003 (3) GATE ME 1993 (1) GATE ME 1990 (1)
GATE ME Subjects
Engineering Mechanics
Machine Design
Strength of Materials
Heat Transfer
Production Engineering
Industrial Engineering
Turbo Machinery
Theory of Machines
Engineering Mathematics
Fluid Mechanics
Thermodynamics
General Aptitude