GATE EE 2014 Set 1 | Transform Theory Question 3 | Engineering Mathematics

Let $$X\left( s \right) = {{3s + 5} \over {{s^2} + 10s + 20}}$$ be the Laplace Transform of a signal $$x(t).$$
Then $$\,x\left( {{0^ + }} \right)$$ is

$$0$$

$$3$$

$$5$$

$$21$$

GATE EE 2012

MCQ (Single Correct Answer)

-0.3

If $$x\left[ N \right] = {\left( {1/3} \right)^{\left| n \right|}} - {\left( {1/2} \right)^n}\,u\left[ n \right],$$ then the region of convergence $$(ROC)$$ of its $$Z$$-transform in the $$Z$$-plane will be

$${1 \over 3} < \left| z \right| < 3$$

$${1 \over 3} < \left| z \right| < {1 \over 2}$$

$${1 \over 2} < \left| z \right| < 3$$

$${1 \over 3} < \left| z \right|$$

GATE EE 2012

MCQ (Single Correct Answer)

-0.3

The unilateral Laplace transform of $$f(t)$$ is
$$\,{1 \over {{s^2} + s + 1}}.$$ The unilateral Laplace transform of $$t$$ $$f(t)$$ is

$$ - {s \over {{{\left( {{s^2} + s + 1} \right)}^2}}}$$

$$ - {{2s + 1} \over {{{\left( {{s^2} + s + 1} \right)}^2}}}$$

$${s \over {{{\left( {{s^2} + s + 1} \right)}^2}}}$$

$${{2s + 1} \over {{{\left( {{s^2} + s + 1} \right)}^2}}}$$

GATE EE 2010

MCQ (Single Correct Answer)

-0.3

Given $$f\left( t \right) = {L^{ - 1}}\left[ {{{3s + 1} \over {{s^3} + 4{s^2} + \left( {k - 3} \right)}}} \right].$$
$$\mathop {Lt}\limits_{t \to \propto } \,\,f\left( t \right) = 1$$ then value of $$k$$ is

$$1$$

$$2$$

$$3$$

$$4$$

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Questions Asked from Marks 1

GATE EE 2016 Set 2 (1) GATE EE 2015 Set 2 (1) GATE EE 2014 Set 1 (1) GATE EE 2012 (2) GATE EE 2010 (1) GATE EE 2002 (1) GATE EE 1998 (1) GATE EE 1995 (1)

GATE EE Subjects

Electromagnetic Fields

Signals and Systems

Engineering Mathematics

General Aptitude

Power Electronics

Power System Analysis

Analog Electronics

Control Systems

Digital Electronics

Electrical Machines

Electric Circuits

Electrical and Electronics Measurement