GATE ECE 2008 | Fourier Transform Question 13 | Signals and Systems

The signal x(t) is described by $$x\left( t \right) = \left\{ {\matrix{ {1\,\,\,for\,\, - 1 \le t \le + 1} \cr {0\,\,\,\,\,\,\,\,\,\,\,\,\,\,otherwise} \cr } } \right.$$

Two of the angular frequencies at which its Fourier transform becomes zero are

$$\pi ,\,2\pi $$

$$0.5\,\pi ,\,1.5\,\pi $$

$$0,\,\pi $$

$$2\,\pi ,\,2.5\,\pi $$

GATE ECE 2005

MCQ (Single Correct Answer)

-0.6

For a signal x(t) the Fourier transform is X(f). Then the inverse Fourier transform of X(3f+2) is given by

$${1 \over 2}\,x\left( {{t \over 2}} \right){e^{j3\pi t}}$$

$${1 \over 3}\,x\left( {{t \over 3}} \right){e^{ - j4\pi t/3}}$$

$$3\,x(3t){e^{ - j4\pi t}}$$

$$x(3t + 2)$$

GATE ECE 2004

MCQ (Single Correct Answer)

-0.6

Let x(t) and y(t) (with Fourier transforms X(f) and Y(f) respectively) be related as shown in Fig.(1) & (2). GATE ECE 2004 Signals and Systems - Fourier Transform Question 15 English

GATE ECE 2004 Signals and Systems - Fourier Transform Question 15 English

Then Y(f) is

$$ - {1 \over 2}X(f/2){e^{ - j2\pi f}}$$

$$ - {1 \over 2}X(f/2){e^{j2\pi f}}$$

$$ - X(f/2){e^{j2\pi f}}$$

$$ - X(f/2){e^{ - j2\pi f}}$$

GATE ECE 2000

MCQ (Single Correct Answer)

-0.6

The Hilbert transform of $$\left[ {\cos \,{\omega _1}t + \,\sin {\omega _2}t\,} \right]$$ is

$$\sin \,{\omega _1}t + \,\cos {\omega _2}t$$

$$\cos \,{\omega _1}t + \,\sin {\omega _2}t$$

$$\sin {\omega _1}t + \,\sin {\omega _2}t$$

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