1
GATE ME 2015 Set 1
Numerical
+2
-0
A cantilever beam with flexural rigidity of 200 N.m2 is loaded as shown in the figure. The deflection (in mm) at the tip of the beam is _______ .
2
GATE ME 2014 Set 4
MCQ (Single Correct Answer)
+2
-0.6
A frame is subjected to a load $$P$$ as shown in the figure. The frame has a constant flexural rigidity $$EI$$. The effect of axial load is neglected. The deflection at point $$A$$ due to the applied load $$P$$ is
A
$${1 \over 3}\,{{P{L^3}} \over {EI}}$$
B
$${2 \over 3}\,{{P{L^3}} \over {EI}}$$
C
$${{P{L^3}} \over {EI}}$$
D
$${4 \over 3}\,{{P{L^3}} \over {EI}}$$
3
GATE ME 2014 Set 2
MCQ (Single Correct Answer)
+2
-0.6
A cantilever beam of length, $$L,$$ with uniform cross-section and flexural rigidity $$EI,$$ is loaded uniformly by a vertical load, $$w$$ per unit length. The maximum vertical deflection of the beam is given by
A
$${{w{L^4}} \over {8EI}}$$
B
$${{w{L^4}} \over {16EI}}$$
C
$${{w{L^4}} \over {4EI}}$$
D
$${{w{L^4}} \over {24EI}}$$
4
GATE ME 2014 Set 2
MCQ (Single Correct Answer)
+2
-0.6
The flexural rigidity $$(EI)$$ of a cantilever beam is assumed to be constant over the length of the beam as shown in figure. If a load $$P$$ and bending moment $$PL/2$$ are applied at the free end of the beam then the value of the slope at the free end is
A
$${1 \over 2}$$ $${{P{L^2}} \over {EI}}$$
B
$${{P{L^2}} \over {EI}}$$
C
$${3 \over 2}$$ $${{P{L^2}} \over {EI}}$$
D
$${5 \over 2}$$ $${{P{L^2}} \over {EI}}$$
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