For making an unstable system stable:

The number of zeroes to the loop transfer function should be increased

Gain of the system should be increased

Gain of the system should be decreased

The number of zeroes to the loop transfer function should be increased

The number of poles to the loop transfer function should be increased

Consider the following statement:

A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.

A system is said to be stable if its output is bounded for any input

A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.

A system is said to be stable if all the roots of the characteristic equation have negative real parts.

A second order system is always stable for finite values of open loop gain

Routh Hurwitz criterion cannot be applied when the characteristic equation of the system containing coefficient’s which is/are

Exponential and sinusoidal function of s and complex

For_making_an_unstable_system_stable:$

The number of zeroes to the loop transfer function should be increased

Gain of the system should be increased

Gain of the system should be decreased

The number of zeroes to the loop transfer function should be increased

The number of poles to the loop transfer function should be increased

Consider the following statement?

A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.

A system is said to be stable if its output is bounded for any input

A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.

A system is said to be stable if all the roots of the characteristic equation have negative real parts.

A second order system is always stable for finite values of open loop gain

Consider the following statement regarding Routh Hurwitz criterion:

It gives the number of roots lying in RHS of the s-plane

It gives gain, phase margin and number of roots lying in RHS of the s-plane

Routh Hurwitz criterion cannot be applied when the characteristic equation of the system containing coefficient‚Äö√Ñ√∂‚àö√ë‚àö¬•s which is/are$

Exponential and sinusoidal function of s and complex

Routh Hurwitz criterion gives:

Number of roots in the right half of the s-plane

Number of roots in the left half of the s-plane

Number of roots in the top half of the s-plane

14 + Mcqs in Routh Stability Criterion in Control Systems Page 1 McqOptions

1.	For making an unstable system stable:
A.	Gain of the system should be increased
B.	Gain of the system should be decreased
C.	The number of zeroes to the loop transfer function should be increased
D.	The number of poles to the loop transfer function should be increased
Answer» C. The number of zeroes to the loop transfer function should be increased

Discussion

2.	The necessary condition for the stability of the linear system is that all the coefficients of characteristic equation 1+G(s)H(s) =0, be real and have the :
A.	Positive sign
B.	Negative sign
C.	Same sign
D.	Both positive and negative
Answer» D. Both positive and negative

Discussion

3.	Consider the following statement:
A.	A system is said to be stable if its output is bounded for any input
B.	A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.
C.	A system is said to be stable if all the roots of the characteristic equation have negative real parts.
D.	A second order system is always stable for finite values of open loop gain
Answer» B. A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.

Discussion

4.	Routh Hurwitz criterion cannot be applied when the characteristic equation of the system containing coefficient’s which is/are
A.	Exponential function of s
B.	Sinusoidal function of s
C.	Complex
D.	Exponential and sinusoidal function of s and complex
Answer» E.

Discussion

5.	THE_NECESSARY_CONDITION_FOR_THE_STABILITY_OF_THE_LINEAR_SYSTEM_IS_THAT_ALL_THE_COEFFICIENTS_OF_CHARACTERISTIC_EQUATION_1+G(S)H(S)_=0,_BE_REAL_AND_HAVE_THE_:?$
A.	Positive sign
B.	Negative sign
C.	Same sign
D.	Both positive and negative
Answer» D. Both positive and negative

Discussion

6.	For_making_an_unstable_system_stable:$
A.	Gain of the system should be increased
B.	Gain of the system should be decreased
C.	The number of zeroes to the loop transfer function should be increased
D.	The number of poles to the loop transfer function should be increased
Answer» C. The number of zeroes to the loop transfer function should be increased

Discussion

7.	Consider the following statement?
A.	A system is said to be stable if its output is bounded for any input
B.	A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.
C.	A system is said to be stable if all the roots of the characteristic equation have negative real parts.
D.	A second order system is always stable for finite values of open loop gain
Answer» B. A system is said to be stable if all the roots of the characteristic equation lie on the left half of the s plane.

Discussion

8.	The characteristic equation of a system is given ass3+25s2+10s+50=0. What is the number of the roots in the right half s-plane and the imaginary axis respectively?
A.	1,1
B.	0,0
C.	2,1
D.	1,2
Answer» C. 2,1

Discussion

9.	The characteristic equation of a system is given as3s4+10s3+5s2+2=0. This system is :
A.	Stable
B.	Marginally stable
C.	Unstable
D.	Linear
Answer» D. Linear

Discussion

10.	Which of the test signals are best utilized by the stability analysis.
A.	Impulse
B.	Step
C.	Ramp
D.	Parabolic
Answer» B. Step

Discussion

11.	The order of the auxiliary polynomial is always:
A.	Even
B.	Odd
C.	May be even or odd
D.	None of the mentioned
Answer» B. Odd

Discussion

12.	Consider the following statement regarding Routh Hurwitz criterion:
A.	It gives absolute stability
B.	It gives gain and phase margin
C.	It gives the number of roots lying in RHS of the s-plane
D.	It gives gain, phase margin and number of roots lying in RHS of the s-plane
Answer» E.

Discussion

13.	Routh Hurwitz criterion cannot be applied when the characteristic equation of the system containing coefficient‚Äö√Ñ√∂‚àö√ë‚àö¬•s which is/are$
A.	Exponential function of s
B.	Sinusoidal function of s
C.	Complex
D.	Exponential and sinusoidal function of s and complex
Answer» E.

Discussion

14.	Routh Hurwitz criterion gives:
A.	Number of roots in the right half of the s-plane
B.	Value of the roots
C.	Number of roots in the left half of the s-plane
D.	Number of roots in the top half of the s-plane
Answer» B. Value of the roots

Discussion

Explore topic-wise MCQs in Control Systems.

For making an unstable system stable:

The necessary condition for the stability of the linear system is that all the coefficients of characteristic equation 1+G(s)H(s) =0, be real and have the :

Consider the following statement:

Routh Hurwitz criterion cannot be applied when the characteristic equation of the system containing coefficient’s which is/are

THE_NECESSARY_CONDITION_FOR_THE_STABILITY_OF_THE_LINEAR_SYSTEM_IS_THAT_ALL_THE_COEFFICIENTS_OF_CHARACTERISTIC_EQUATION_1+G(S)H(S)_=0,_BE_REAL_AND_HAVE_THE_:?$

For_making_an_unstable_system_stable:$

Consider the following statement?

The characteristic equation of a system is given ass3+25s2+10s+50=0. What is the number of the roots in the right half s-plane and the imaginary axis respectively?

The characteristic equation of a system is given as3s4+10s3+5s2+2=0. This system is :

Which of the test signals are best utilized by the stability analysis.

The order of the auxiliary polynomial is always:

Consider the following statement regarding Routh Hurwitz criterion:

Routh Hurwitz criterion cannot be applied when the characteristic equation of the system containing coefficient‚Äö√Ñ√∂‚àö√ë‚àö¬•s which is/are$

Routh Hurwitz criterion gives: