GATE ECE 2004 | GATE ECE Year Wise Previous Years Questions

GATE ECE 2004

MCQ (Single Correct Answer)

-0.6

A causal system having the transfer function $$G\left(s\right)\;=\;\frac1{s\;+\;2}$$ is excited with 10u(t). The time at which the output reaches 99% of its steady state value is

2.7 sec

2.5 sec

2.3 sec

2.1 sec

GATE ECE 2004

MCQ (Single Correct Answer)

-0.6

For the polynomial
P(s) = s⁵ + s⁴ + 2s³ + 2s² + 3s + 15 ,
the number of roots which lie in the right half of the s-plane is

GATE ECE 2004

MCQ (Single Correct Answer)

-0.6

Consider the signal flow graph shown in Figure. The gain $$\frac{x_5}{x_1}$$ is GATE ECE 2004 Control Systems - Signal Flow Graph and Block Diagram Question 4 English

GATE ECE 2004 Control Systems - Signal Flow Graph and Block Diagram Question 4 English

$$\frac{1-\left(be\;+\;cf\;+\;dg\right)}{abcd}$$

$$\frac{bedg}{1-\left(be\;+\;cf\;+\;dg\right)}$$

$$\frac{abcd}{1-\left(be\;+\;cf\;+\;dg\right)\;+\;bedg}$$

$$\frac{1-\left(be\;+\;cf\;+\;dg\right)\;+\;bedg}{abcd}$$

GATE ECE 2004

MCQ (Single Correct Answer)

-0.6

A system described by the following differential equation $$$\frac{d^2y}{dt^2}+3\frac{dy}{dt}+2y=x\left(t\right)$$$ is initially at rest. For input x(t) = 2u(t), the output y(t) is

$$\left(1-2e^{-t}+e^{-2t}\right)u\left(t\right)$$

$$\left(1+2e^{-t}-2e^{-2t}\right)u\left(t\right)$$

$$\left(0.5+e^{-t}+1.5e^{-2t}\right)u\left(t\right)$$

$$\left(0.5+2e^{-t}+2e^{-2t}\right)u\left(t\right)$$

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