GATE EE 2009 | Routh Hurwitz Stability Question 12 | Control Systems

The first two rows of Routh's tabulation of a third order equation are as follows $$$\left. {\matrix{ {{s^3}} \cr {{s^2}} \cr } } \right|\matrix{ 2 & 2 \cr 4 & 4 \cr } $$$
this means there are

two roots at $$s$$ $$ = \pm j$$ and one root in right half $$s$$ - plane

two roots at $$s$$ $$ = \pm j2$$ and one root in left half $$s$$ - plane

two roots at $$s$$ $$ = \pm j2$$ and one root in right half $$s$$ - plane

two roots at $$s$$ $$ = \pm j$$and one root in left half $$s$$ - plane

GATE EE 2007

MCQ (Single Correct Answer)

-0.3

The system shown in the figure is GATE EE 2007 Control Systems - Routh Hurwitz Stability Question 4 English

stable

Unstable

conditionally stable

stable for input $${u_1},$$ but unstable for input $${u_2},$$

GATE EE 1998

MCQ (Single Correct Answer)

-0.3

None of the poles of a linear control system lie in the right half of $$s$$-plane. For a bounded input, the output of this system

is always bounded

could be unbounded

always tends to zero

None of the above

GATE EE 1995

Fill in the Blanks

-0

Closed loop stability implies that $$\left[ {1 + G\left( s \right)H\left( s \right)} \right]$$ has only ____________ in the left half of the $$s$$-plane.

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